197 6ApJS. . .31. .517K The Astrophysical Journal Supplement Series, 31:517-688, 1976 August © 1976. The American Astronomical Society. All rights reserved. Printed in U.S.A. A CATALOG OF RELATIVE EMISSION LINE INTENSITIES OBSERVED IN PLANETARY AND DIFFUSE NEBULAE James B. Kaler* University of Illinois Observatory Received 1975 September 2 ABSTRACT A catalog of emission lines in the spectra of galactic and extragalactic planetary and diffuse nebulae is presented. The catalog gives relative emission line strengths for over 600 objects as observed by various workers over the past 35 years, and contains, as far as is known, all the significant data in the literature. In addition to giving individual relative line intensities, the catalog gives mean values of the intensities of a given line for each nebula, the individual in- tensities corrected for interstellar extinction, and the mean intensities also so corrected. For nebulae for which a large number of lines have been observed, a separate table gives information on the atomic transition responsible for each line. Subject headings: nebulae: general — nebulae: planetary I. INTRODUCTION (plus Herbig-Haro and related objects). Supernova Gaseous nebulae have been observed spectro- remnants, nova shells, Seyfert galaxies, most galactic scopically for over 100 years, since Huggins’s (1864) nuclei, quasars, and emission fine stars are not observations. Quantitative measurements of line included. strengths were begun in the early part of this century, 3. Only optical and infrared emission fines are and as of now, line intensities have been observed for included; radio fine data are not presented. more than 600 planetary and diffuse nebulae. The 4. The catalog does include observations made of data, however, are widely scattered in the literature. individual points or regions within a nebula. However, Perek and Kohoutek (1967; hereafter designated PK) extensive point-by-point surveys of fine ratios are not give a bibliography of spectroscopic data for planetary presented completely. If more than about 10 regions nebulae up to 1967 and Johnson (1968) gives one for are observed by a worker, the catalog usually gives an diffuse nebulae through 1965, but it is often a laborious extreme value, with an indication that other values exist. procedure to locate and examine each of the references fisted in order to find the intensities of spectral fines, Where possible, the catalog gives fine intensities especially if a large number of nebulae are involved. scaled to /(Hß) [or I(Hß + He n Pickering 8)] = 100. In addition, a great deal of new work has been In cases where more than one region of a nebula is produced since these bibliographies were published. measured, each region is so scaled. Not infrequently, This catalog presents all the relative fine intensities Hß is not observed for a given nebula or region, in (with qualifications as fisted below) that have been which case the intensities are on an arbitrary scale. In addition to presenting the individual fine in- measured for planetary and both galactic and extra- galactic diffuse nebulae. The survey is complete tensities, the catalog gives, where possible, mean values of the fine intensities for each fine observed, and also through 1975 November, and in addition contains data in press that were known to the author at that fine intensities corrected for interstellar extinction. time. Observations were chosen for inclusion according to II. ARRANGEMENT AND USE the following guidelines : a) Presentation of Nebulae 1. The observations should consist of quantitative measurements of relative fine intensities. However, The main catalog is given in Table 8. A supple- eye estimates are included where no quantitative mentary fist to identify weak fines for selected nebulae is given in Table 9, p. 677, and Will be discussed in measurements are available. Graphical presentations of data are generally not used. Because the catalog § III. In Table 8 the planetary nebulae are presented fists relative intensities, a nebula has to have been first, on p. 529, followed by galactic diffuse nebulae (including Herbig-Haro and related objects) on p. 636 observed in at least two fines to be included. Absolute fine fluxes are not presented; for these see PK, Cahn and extragalactic diffuse nebulae on p. 658. Two pages and Kaler (1971), Higgs (1971), or Perek (1971). of the original catalog (or two sets of columns) are 2. Only planetary and diffuse nebulae are considered printed on each journal page. Each nebula is introduced or headed by its common * 1972-1973 John Simon Guggenheim Memorial Founda- or catalog name. The headings for each planetary tion Fellow. nebula also contain the PK catalog number. For 517 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K 518 KALER Vol. 31 newly discovered planetaries, new PK numbers have TABLE IB been assumed. The headings for each galactic diffuse List of Catalog Names for Galactic Diffuse Nebulae, nebula contain the galactic longitude and latitude with References (/ and b) in parentheses following the name of the nebula. For the extragalactic diffuse nebulae the name Abbr. Catalog/Name (Reference) of the galaxy in which the nebula is found is in NGC parentheses following the name of the nebula. Head- IC ings are repeated at the top and bottom of each set of AN Anonymous (with right ascension, hr-min) columns. C Cygnus (Courtès, Louise, and Monnet For the planetary and galactic diffuse nebulae the 1969) CE Cederblad 1946 NGC objects are placed first, followed by the nebulae DG Dorschner and Gürtler 1963 with IC numbers. (Where a nebula has a double El 7] Carinae NGC number, only one is given.) All the other nebulae G Gum 1955 are then ordered alphabetically according to the HH Herbig-Haro object (see catalog reference) K Kohoutek (see PK) abbreviations of their common catalog names. These RCW Rogers, Campbell, and Whiteoak 1960 abbreviations and the catalog names used are given S Sharpless 1959 for planetary nebulae in Table 1A in order of their SE Struve and Elvey 1939 appearance in Table 8. With only a few exceptions the SH Shain and Haze (Atlas of Diffuse Galactic Nebulae 1953; see catalog reference) names and the abbreviations used are the same as used T T Tauri nebula (see catalog reference) by PK. If PK’s abbreviations differ from those adopted here, theirs are placed in parentheses. For further bibliographical information see PK. TABLE 1C The catalog names and abbreviations for galactic Galaxies with Observed Diffuse Nebulae, and List of diffuse nebulae are presented in Table IB, again in Catalog Names, with References order of their appearance in Table 8. Where appro- Galaxy Abbr. Catalog/Name (Reference) TABLE 1A LMC. D30 30 Doradus (NGC 2070) List of Catalog Names for Planetary Nebulae N Number from Henize 1956 SMC. NS Number from Henize 1956 Abbr. Catalog M33.. NGC IC AN Anonymous (right ascension, hr, NGC NGC min) IC IC BC Boulesteix et al. 1974 A Abell (2d list) CC Courtès and Cruvellier 1965 AN Anonymous (with right ascension, hr-min) M33 Large sections, interarm B* BD number (with degree only) SR3 Number from Searle 1971 for M33 BA Baade M51. M51 Large sections of galaxy BL Blanco SR5 Number from Searle 1971 for M51 CM Cannon-Mayall (CnMy) M64.. CN Cannon M81.. FG Fleming M82.. HA Haro(H) M101. NGC HB Hubble SRI Number from Searle 1971 for HE Henize M101 HF Hoffleit NGC 4151 HU Humason NGC 4214 J Jonkheere NGC 4449 K Kohoutek NGC 6822 HU Hubble 1925 M Minkowski NGC 7679 MC Mayall-Cannon (MyCn) ZW 18.... Zwicky 1971 ME Merrill ZW 40.... Zwicky 1971 MZ Menzel PB Peimbert-Bátiz PC Peimbert-Costero priate, references are given. Many of the diffuse PE Perek PS Pease nebulae have multiple names. In general the most S Sharpless (Sh 2) common one is used; NGC or IC numbers are SP Shapley preferred, then Sharpless (1959) numbers, then the SS Swings-Struve (Sw St) VE Velghe others. There are some exceptions; for example, when W Vorontsov-Velyaminov only one author has studied a nebula the name referred VY Vyssotsky to in that reference is often used. See the remarks NSt Small Magellanic Cloud column in Table 3A for further information. PÎ Large Magellanic Cloud YM Johnson The cataloging of the extragalactic diffuse nebulae is more complex than that of the galactic, because we * BD + 30°3639 is designated B30. have nebulae inside of other various objects. The t Numbers from Henize 1956. galaxies are given in the following order: Large Î Numbers from Westerlund and Smith 1964. Magellanic Cloud (LMC), Small Magellanic Cloud © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K No. 4, 1976 CATALOG OF EMISSION LINE INTENSITIES 519 (SMC), Messier numbers, NGC numbers, Zwicky several entries. In some cases the different entries come numbers. Within each galaxy, the nebulae’s catalog from different reference sources, while in others they names are ordered in the usual manner: NGC, IC, refer to different regions, or positions, within a nebula then others alphabetically. as observed by a given author. The entries for a given NGC and IC numbers are not used for the LMC and fine are first ordered alphabetically by reference code SMC; the Henize (1956) numbers (N) give a better and (see below). The only exception to this rule is in the more complete accounting and are used instead. The case where a reference contains detailed information on Henize numbers in the SMC are called here NS precise wavelength and the atomic transition respons- instead of N to avoid confusion (the same for planetary ible for the line; that reference will be placed first, and nebulae). The subdivisions of the Henize numbers (A, details of the transition will be placed in Table 9. For B, etc.) are identified by placing the subdivision letter a given reference, the entries are then ordered alpha- in the column headed “RG.” NGC and IC numbers betically by the “region” code (again, see below). In are cross-referenced to the N (or NS) numbers at general, the catalog presents data as nearly as possible the end of each nebula’s entry. For further discussion in the way in which they were given by the original see the explanation of columns which follows. reference, except that the intensities may have been In all cases of extragalactic nebulae, the galaxy scaled to Hß. within which a nebula is observed is listed in the The meanings of the column headings of Table 8 are headings. If the name of the nebula is the same as the given in Table 4A. Detailed comments on the columns name of the galaxy, it means that the galaxy as a whole, are given below : or a large section of it, was observed. The emphasis Col 7, WAVE.—Wavelength in angstroms or, for here is on individually recognizable diffuse nebulae. far-infrared lines, in microns, so designated by MU. Line-intensity data on galactic nuclei, or on the general The wavelengths are usually truncated to unit ang- central regions, is not presented completely, and is only stroms. In cases where the reference source includes a sampled in Table 8. large number of lines and where a line is identified, the The listing of the extragalactic diffuse nebulae is wavelength is given to one or more decimal places. summarized in Table 1C. Column (1) lists the galaxies Where only one decimal is given by the original included in order of their presentation in Table 8. reference, the second decimal is always zero. The Column (2) gives the abbreviations for the catalog presence of two decimals usually implies that the names used in each galaxy, again in order of presenta- wavelength was precisely measured. The reader should tion, and column (3) gives the name, and reference consult the reference for details, and for precise where appropriate. If column (2) is blank it means that wavelengths of unidentified lines. only large sections of the galaxy were observed. The wavelength given may not be exactly faithful to Listings of the cataloged planetary and galactic the wavelength given by an original reference if there diffuse nebulae in order of both increasing galactic is more than one reference per line. The processing longitude and increasing right ascension are presented program prints the lowest wavelength of the group of in Tables 2 and 3. In Table 2A the galactic planetaries entries for a given fine, or the one with the precise are given in order of increasing /, starting with wavelength. For example, if reference A calls a fine / = 180°, as in PK. The columns give, in order, the A4471 He i, and reference B calls it A4472 He i, the nebula’s name, the PK number (/ and b truncated to catalog will list the lower wavelength, A4471. the whole number), and the right ascension and Col. 2, IDENT.—Identification of the observed line, declination for 1950. The coordinates were all taken as given by the original reference. Obvious errors are from PK except for AN 1, 2, and 3 (Vorontsov- corrected. Forbidden lines are denoted by parentheses, Velyaminov et al 1973) and He 2-113 (Henize 1967), instead of by the usual square brackets. For a small which may not be a planetary nebula. In Table 2B the number of nebulae, a very large number of lines have planetaries are again listed, this time in order of been observed. To aid in the identification of these increasing right ascension. lines, these nebulae are also included in a separate Tables 3A and 3B give the same information for table called the Identification Supplement, Table 9. galactic diffuse nebulae. In Table 3A the columns give This table includes information on the atomic transi- the name, galactic latitude and longitude (to tenths of a tion corresponding to the line, and will be discussed degree), right ascension and declination for 1950, and later. The nebulae presented in Table 9 are those for remarks. The nebulae are ordered according to in- which the wavelength has been measured to 0.01 Â, creasing /, starting at / = 0°. The remarks column and includes NGC 6543, 6572, 7009, 7027, 7662; gives proper names, cross listings between catalogs, IC 4997; and the Orion Nebula, NGC 1976. and occasionally the star with which the nebula is Col. 5, N.—Number of identifications for a given associated. The coordinates were taken from Becváf observed line, which accounts for blends. If there are (1959), Sulentic and Tifft (1973), Dreyer (1953), the n identifications for a line, each identification is given references presented in Table IB, and the references an entry or a line in the catalog, N = n, and the given to the observations in Table 8. reference and the intensity information is printed for each entry. For example, a line measured at A3889 is b) Presentation of the Observations actually a blend of H and He i. The catalog listing For a given nebula, lines are ordered according to would appear as shown in Table 5, with two entries increasing wavelength. For a given line there may be for the one line. © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 2A List of Planetary Nebulae in Order of Increasing Galactic Longitude FK No. FK No. cy (1950)6 FK No. y(1950)$ Nebula m o Nebula Nebula NGC 2371 189+19 1 7 22.4 +29 35 NGC 3195 296-20 1 10 10.1 -80 37 MZ 2 329- 2 2 16 10.5 -54 50 Ml 7 189+ 716 34.3 +24 03 HE2 78 297+ 3-1 12 06.6 -58 26 CN1 1 330+ 4 1 15 47.7 -48 36 J 320 190-17 1 5 02.8 +10 38 NGC 4071 298- 4 1 12 01.6 -67 02 HE2 153 330- 2 1 16 13.3 -53 25 J 900 194+ 216 23.0 +17 49 HE2 84 300- 0 1 12 26.0 -63 27 HE2 159 330- 3 1 16 20.3 -54 29 me 2022 196-10 1 5 39.4 + 9 04 HE2 86 300- 2 1 12 27.6 -64 35 NGC 5873 331+16 1 15 09.7 -37 55 NGC 2392 197+17 1 7 26.2 +21 01 IC 4191 304- 4 1 13 05.3 -67 22 HE2 145 331+ 0 1 16 05.2 -50 54 W1 4 197- 2 1 6 12.4 +12 23 NGC 5189 307- 3 1 13 30.2 -65 44 MZ 3 331- 1 1 16 13.5 -51 52 YM 29 205+14 1 7 26.2 +13 2 MC 18 307- 4 1 13 35.9 -67 08 HE2 157 331- 2 1 16 18.3 -53 34 NGC 1535 206-40 1 4 11.9 -12 52 HE2 97 307- 9 1 13 41.4 -71 14 HE2 161 331- 2 2 16 20.7 -53 16 NGC 2346 215+ 317 06.8 - 0 44 HE2 99 309- 4 1 13 48.7 -66 08 HE2 162 331- 3 1 16 23.9 -53 55 IC 418 215-24 1 5 25.2 -12 44 NGC 5315 309- 4 2 13 50.9 -66 18 HE2 165 331- 3 2 16 26.0 -54 03 NGC 1360 220-53 1 3 31.2 -26 01 HE2 103 310- 2 1 14 01.8 -64 27 PC 11 331- 5 1 16 33.9 -55 39 IC 2165 221-12 1 6 19.4 -12 58 NGC 5307 312+10 1 13 47.9 -50 58 HE2 164 332- 3 1 16 25.9 -53 17 NGC 2438 231+ 427 39.6 -14 37 HE2 107 312- 1 1 14 14.9 -62 53 HE2 170 332- 4 1 16 31.4 -53 44 NGC 2440 234+ 217 39.7 -18 05 HE2 106 312- 2 1 14 10.4 -63 12 HE2 152 333+ 1 1 16 11.6 -49 06 A 33 238+34 1 9 36.6 - 2 34 HE2 111 315- 0 1 14 29.5 -60 37 IC 4642 334- 9 1 17 07.6 -55 20 NGC 2610 239+13 1 8 31.1 -15 59 HE2 131 315-13 1 15 31.9 -71 45 HE2 169 335- 1 1 16 30.5 -49 15 NGC 2452 243- 117 45.4 -27 13 HE2 108 316+ 8 1 14 14.8 -51 57 FE1 6 336+ 1 1 16 20.3 -46 35 NGC 3242 261+32 1 10 22.4 -18 23 HE2 119 317- 5 1 15 06.4 -64 29 NGC 6164 336- 0 1 16 30.2 -48 00 NGC 2818 261+ 819 14.0 -36 24 A 36 318+41 1 13 37.9 -19 38 HE2 186 336- 5 1 16 55.7 -51 38 HE2 7 264- 818 10.0 -48 34 HE2 114 318- 2 1 15 00.1 -60 41 PC 14 336- 6 1 17 02.3 -52 23 NGC 2792 265+ 419 10.6 -42 14 IC 4406 319+15 1 14 19.3 -43 55 PEI 7 337+ 1 1 16 26.9 -45 56 VE 26 265- 218 41.9 -45 55 HE2 134 319- 9 1 15 42.5 -66 20 HE2 187 337- 5 1 16 57.8 -50 19 PB 5 268+ 2 1 9 14.3 -45 17 HE2 113 32G+- 4 1 14 52.6 -53 54 HE2 155 338+ 5 1 16 15.9 -42 09 PB 3 269- 318 52.5 -50 21 HE2 138 320- 9 1 15 51.3 -66 01 HE2 156 338+ 5 2 16 17.7 -42 16 NGC 3132 272+12 1 10 04.9 -40 12 HE2 434 320-28 1 19 27.5 -74 39 NGC 6326 338- 8 1 17 16.8 -51 42 HE2 18 273- 319 07.2 -53 07 HE2 115 321+ 2 1 15 01.6 -54 59 NGC 6153 341+ 5 1 16 28.0 -40 08 HE2 28 275- 219 20.5 -53 56 HE2 117 321+ 2 2 15 02.3 -55 48 ME2 1 342+27 1 15 19.4 -23 27 HE2 29 275- 229 23.2 -54 23 HE2 185 321-16 1 16 55.8 -70 02 NGC 6072 342+ 0 1 16 09.7 -36 06 PB 4 275- 41 9 13.4 -54 40 PE2 8 322- 0 1 15 19.8 -56 58 HE2 175 345+ 6 1 16 36.1 -36 29 NGC 2899 277- 319 25.5 -55 54 MZ 1 322- 2 1 15 30.2 -58 59 HA1 7 345- 1 1 17 06.9 -41 49 PB 6 278+ 5 1 10 11.3 -50 05 NGC 5979 322- 5 1 15 42.5 -61 03 M2 4 349+ 4 1 16 57.8 -34 45 NGC 2867 278- 51 9 20.1 -58 06 HE2 136 322- 6 1 15 48.0 -62 22 NGC 6302 349+ 1 1 17 10.4 -37 03 HE2 26 278- 619 18.2 -58 59 HE2 123 323+ 2 1 15 18.6 -53 58 HA2 1 350+ 4 1 17 01.3 -33 55 HE2 36 279- 319 41.9 -57 03 HE2 132 323- 2 1 15 34.0 -58 35 M3 14 355- 2 1 17 41.0 -34 05 IC 2501 281- 5 9 37.3 -59 51 HE2 125 324+ 2 1 15 19.9 -53 41 HA1 35 355- 3 3 17 45.9 -34 22 HE 2 50 283+ 3 10 32¿3 -53 25 HE2 133 324- 1 1 15 38.0 -56 27 HF2 1 355- 4 1 17 47.9 -34 55 HE2 39 283- 4 10 02.3 -60 30 HE 2 128 325+ 4 1 15 21.5 -51 09 Ml 30 355- 4 2 17 49.7 -34 38 HE2 52 285+ 1 10 36.6 -56 31 HE 2 127 325+ 4 2 15 21.2 -51 39 M3 21 355- 6 1 17 59.1 -36 39 HE2 47 285- 2 10 21.4 -60 18 HE 2 129 325+ 3 1 15 21.9 -52 40 M2 11 356+ 4 1 17 17.4 -28 58 IC 2553 285- 5 1 10 07.7 -62 20 HE2 141 325- 4 1 15 55.0 -58 15 Ml 27 356- 2 2 17 43.5 -33 07 IC 2448 285-14 1 9 06.6 -69 44 HE2 182 325- 356- 3 3 17 50.0 -33 55 1 NGC 3211 286- 4 1 10 16.2 -62 26 IC 972 326+42 1 14 01.7 -17 01 CN2 1 356- 4 1 17 51.2 -34 22 PEI 3 288- 2 1 10 42.6 -61 24 HE2 151 326- 6 1 16 11.4 -59 46 HA1 41 356- 4 2 17 54.0 -34 10 HE2 51 288- 5 1 10 34.0 -64 04 CN1 2 326-10 1 16 40.0 -62 31 HA2 35 356- 5 1 17 57.0 -34 28 EG 1 290+ 7 1 11 26.2 -52 39 HE2 118 327+13 1 15 02.9 -42 49 M2 24 356- 5 2 17 58.7 -34 28 HE2 64 291+ 3 1 11 25.1 -57 01 NGC 5882 327+10 1 15 13.5 -45 27 M2 16 357- 3 2 17 49.3 -32 45 IC 2621 291- 4 1 10 58.4 -64 59 HE2 143 327- 1 1 15 57.1 -54 57 M2 18 357- 3 4 17 50.3 -32 58 NGC 3699 292+ 1 1 11 25.7 -59 41 HE2 140 327- 1 2 15 54.2 -55 33 HA1 42 357- 4 1 17 54.1 -33 35 HE2 67 292+ 1 2 11 26.5 -59 50 HE2 142 327- 2 1 15 56.0 -55 47 M2 22 357- 4 2 17 55.2 -33 28 NGC 4361 294+43 1 12 21.9 -18 31 HE2 158 327- 6 1 16 19.3 -58 12 Ml 34 357- 5 1 17 58.1 -33 18 NGC 3918 294+ 4 1 11 47.8 -56 54 HE2 163 327- 7 1 16 25.3 -59 03 M3 39 358+ 5 1 17 18.1 -27 09 HE2 68 294- 4 1 11 29.5 -65 42 HE2 146 328- 2 1 16 06.7 -54 49 M3 10 358+ 3 1 17 24.2 -28 25 HE2 73 296- 3 1 11 46.2 -64 51 SP 1 329+ 2 1 15 47.4 -51 21 Ml 26 358- 0 2 17 42.7 -30 11 HE2 71 296- 6 1 11 36.9 -68 35 HE2 149 329- 2 1 16 10.4 -54 40 HA1 44 358- 3 1 17 54.9 -31 43 520 American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 2A—Continued PK No. ai (1950)6 PK No. q»(1950)6 PK No. gQ.?50)s Nebula o o h m O' Nebula o o h m o Nebula o o h in o HA1 46 358- 4 1 17 55.8 -32 22 NGC 6578 10- 1 1 18 13.3 -20 28 HE2 467 63-12 1 20 33.8 +20 00 HA1 49 358- 5 2 18 00.1 -32 42 IC 4732 10- 6 1 18 31.0 -22 40 NGC 6058 64+48 1 16 02.7 +40 49 NGC 6563 358- 7 1 18 08.7 -33 53 M2 15 11+ 6 1 17 44.0 -16 16 Ml 64 64+15 1 18 48.2 +35 11 M2 12 359+ 5 1 17 20.9 -25 57 NGC 6439 11+5 1 17 45.4 -16 28 B 30 64+ 5 1 19 32.8 +30 24 HB 5 359- 0 1 17 44.7 -29 59 Ml 32 11+ 4 1 17 53.4 -16 29 NGC 6842 65+ 0 1 19 53.0 +29 09 Ml 29 359- 1 1 17 47.1 -30 34 NGC 6567 11- 0 2 18 10.8 -19 05 PS 1 65-27 1 21 27.6 +11 57 M3 17 359- 3 1 17 53.2 -31 04 HA2 48 11- 9 1 18 43.5 -23 30 NGC 7094 66-28 1 21 34.5 +12 34 M2 27 359- 4 2 18 00.6 -31 18 Ml 33 13+ 4 1 17 56.1 -15 32 NGC 6894 69- 2 1 20 14.4 +30 25 IC 4634 0+12 1 16 58.6 -21 44 Ml 48 13-3 1 18 26.6 r-19 08 NGC 6857 704- 1 2 19 59.9 +33 23 HA1 16 0+4 2 17 26.3 -26 24 AN 1 13- 4 2 18 27.6 -19 16 NGC 6881 74+ 2 1 20 09.0 +37 16 Ml 50 14- 4 1 18 30.4 -18 19 BL3 13 0-2 1 17 52.8 -29 11 AN 2 14- 5 1 18 33.3 -19 24 NGC 6833 82+11 1 19 48.3 +48 50 M2 21 0-24 17 55.0 -29 44 AN 3 14-5 2 18 34.4 -19 10 NGC 6884 82+ 7 1 20 08.8 +46 19 BL3 11 1-0 1 17 45.1 -28 00 Ml 53 15- 4 1 18 32.9 -17 39 NGC 6826 83+12 1 19 43.5 +50 24 HA1 47 1-31 17 57.4 -29 22 Ml 46 16- 1 1 18 25.1 -15 35 NGC 7027 84- 3 1 21 05.2 +42 02 HA1 55 1-41 18 04.0 -29 42 Ml 54 16- 4 1 18 33.2 -17 02 A 71 85+4 1 20 30.8 447 11 Ml 56 16- 4 2 18 34.9 -17 08 CM 17 1-6 1 18 12.2 -30 33 Ml 60 19- 4 1 18 40.8 -13 48 HU1 2 86- 8 1 21 31.1 +39 25 SS 1 1-6 2 18 13.0 -30 53 Ml 61 19- 5 1 18 43.1 -14 31 NGC 7048 88-1 1 21 12.4 +46 04 NGC 6369 2+ 5 1 17 26.3 -23 43 Ml 63 21- 5 1 18 48.7 -13 14 NGC 7026 89+ 0 1 21 04.6 447 39 M3 20 2-22 17 56.2 -28 14 Ml 57 22- 2 1 18 37.6 -10 43 IC 5117 89- 5 1 21 30.6 444 22 M2 23 2-24 17 58.5 -28 26 Ml 58 22- 3 1 18 40.2 -11 10 NGC 7008 93+ 5 2 20 59.1 +54 21 Ml 59 23- 2 1 18 40.6 - 9 08 HA2 38 2-34 18 02.9 -28 17 IC 4593 25+40 1 16 09.9 +12 12 K3 62 95+ 0 1 21 30.2 +52 21 Ml 38 2-35 18 02.9 -28 41 NGC 6818 25-17 1 19 41.1 -14 16 NGC 6543 96+29 1 17 58.6 +66 38 HA1 54 2-41 18 03.9 -29 14 VY1 4 27- 3 2 18 51.3 - 6 30 A 77 97+ 3 1 21 30.6 +55 40 Ml 42 2-42 18 07.9 -29 00 IC 4846 27-9 1 19 13.0 - 9 05 IC 5217 100- 5 1 22 21.9 +50 43 M2 33 2-61 18 11.9 -30 17 M2 44 28+1 1 18 35.0 - 3 09 ME2 2 100- 8 1 22 29.6 +47 33 NGC 6751 29- 5 1 19 03.2 - 6 04 HA1 63 2-62 18 13.1 -30 09 NGC 6741 33-2 1 19 00.0 - 0 31 NGC 7139 104+ 7 1 21 44.6 +63 25 M2 41 2-71 18 19.4 -30 45 NGC 6772 33- 6 1 19 12.0 - 2 47 NGC 7662 106-17 1 23 23.5 +42. 16 CN1 5 2-91 18 26.0 -31 32 NGC 6572 34+11 1 18 09.7 + 6 50 NGC 7354 107+ 2 1 22 38.5 +61 01 IC 4776 2-13 1 18 42.6 -33 24 NGC 6778 34- 6 1 19 15.8 - 1 40 Ml 80 107- 2 1 22 54.2 +56 53 HB 4 3+2 1 17 38.8 -24 41 S 71 36- 1 1 18 59.5 + 2 05 VY2 3 107-13 1 23 20.6 +46 38 NGC 7293 36-57 1 22 26.9 -21 03 Ml 35 3-21 18 00.5 -26 44 NGC 6790 37- 6 1 19 20.7 + 1 25 HB 12 111- 2 1 23 24.0 +57 54 IC 4673 3- 2 3 18 00.2 -27 06 NGC 7009 37-34 1 21 01.5 -11 34 IC 1454 117+18 1 22 42.2 +80 11 NGC 6565 3- 4 5 18 08.7 -28 11 CN3 1 38+12 1 18 15.2 +10 08 VY1 1 118- 8 1 0 16.0 +53 36 M2 30 3-48 18 09.4 -27 59 NGC 6781 41-2 1 19 16.0 + 6 27 NGC 246 118-74 1 0 44.5 -12 09 M2 36 3-61 18 14.5 -29 10 NGC 6807 42- 6 1 19 32.1 + 5 34 HUI 1 119- 6 1 0 25.5 +55 41 HB 7 3-14 1 18 52.0 -32 20 NGC 6210 43+37 1 16 42.4 +23 54 NGC 40 120+ 9 1 0 10.3 +72 15 Ml 25 4+41 17 35.5 -22 07 M3 27 43+11 1 18 25.5 +14 27 IC 3568 123+34 1 12 31.6 +82 50 Ml 44 4- 4 2 18 13.2 -27 06 VY2 2 45- 2 1 19 22.0 + 9 48 IC 1747 130+ 1 1 1 54.0 +63 05 M3 26 4-51 18 13.1 -27 16 NGC 6804 45-4 1 19 29.2 + 9 07 NGC 650 1 130-10 1 1 39.2 +51 19 M3 12 5+5 1 17 33.4 -21 29 NGC 6803 46-4 1 19 28.9 + 9 57 Ml 1 130-11 1 1 34.2 +50 13 HE2 390 5- 5 2 18 17.9 -26 50 A 39 47+42 1 16 25.5 +28 01 A 3 131+ 2 1 2 08.4 +63 55 NGC 6620 5-61 18 19.8 -26 51 HA4 1 49+88 1 12 57.0 +27 54 Ml 2 133- 8 1 1 55.5 +52 39 M3 15 6+4 2 17 42.5 -20 57 HU2 1 51+ 9 1 18 47.6 +20 47 IC 289 138+ 2 1 3 06.3 +61 08 HB 6 7+11 17 52.1 -21 44 Ml 73 51- 3 1 19 38.9 +14 50 NGC 1501 144+ 6 1 4 02.7 +60 47 M3 18 7+12 17 54.3 -21 41 ME1 1 52- 2 2 19 36.9 +15 50 Ml 4 147-2 1 3 38.0 +52 07 VY2 1 7-62 18 24.9 -26 09 Ml 74 52- 4 1 19 40.0 +15 02 NGC 3587 148+57 1 11 11.9 +55 17 NGC 6445 8+31 17 46.3 -20 00 VY1 2 53+24 1 17 52.4 +28 00 W1 2 151+ 2 1 4 15.9 +52 59 Ml 40 8-11 18 05.2 -22 17 NGC 6891 54-12 1 20 12.8 +12 33 IC 351 159-15 1 3 44.3 +34 54 M2 39 8-41 18 19.0 -24 12 NGC 6879 57- 8 1 20 08.2 +16 46 IC 2003 161-14 1 3 53.2 +33 43 M2 42 8-42 18 19.5 -24 11 IC 4997 58-10 1 20 17.9 +16 35 NGC 2474 164+31 1 7 53.9 +53 33 NGC 6644 8-72 18 29.5 -25 10 NGC 6853 60-3 1 19 57.4 +22 35 NGC 1514 165-15 1 4 06.1 +30 39 NGC 6309 9+14 1 17 11.3 -12 51 HE1 5 60- 7 1 20 09.7 +20 11 IC 2149 166+10 1 5 52.6 +46 07 NGC 6629 9-51 18 22.7 -23 14 NGC 6886 60- 7 2 20 10.5 +19 50 IC 2120 169- 0 1 5 14.8 +37 33 M2 17 10+ 4 1 17 49.2 -17 35 NGC 6905 61- 9 1 20 20.2 +19 57 BA I 171-25 1 3 50.6 +19 19 NGC 6537 10+ 0 1 18 02.3 -19 51 NGC 6720 63+13 1 18 51.7 +32 58 521 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 2B List of Planetary Nebulae in Order of Increasing Right Ascension ga950)S a(1950)6 at (1950)fi <*(1950)6 Nebula Nebula h m o ' Nebula h m Nebula h m NGC 40 0 10.3 +72 15 HE2 29 9 23.2 -54 23 HE2 114 15 00.1 -60 41 HE2 165 16 26.0 -54 03 VY1 1 0 16.0 +53 36 NGC 2899 9 25.5 -55 54 HE2 115 15 01.6 -54 59 PEI 7 16 26.9 -45 56 HUI 1 0 25.5 +55 41 A 33 9 36.6 -2 34 HE2 117 15 02.3 -55 48 NGC 6153 16 28.0 -40 08 NGC 246 0 44.5 -12 09 IC 2501 9 37.3 -59 51 HE2 118 15 02.9 -42 49 NGC 6164 16 30.2 -48 00 Ml 1 1 34.2 +50 13 HE2 36 9 41.9 -57 03 HE2 119 15 06.4 -64 29 HE2 169 16 30.5 -49 15 NGC 650 1 39.2 +51 19 HE2 39 10 02.3 -60 30 NGC 5873 15 09.7 -37 55 HE2 170 16 31.4 -53 44 IC 1747 1 54.0 +63 05 NGC 3132 10 04.9 -40 12 NGC 5882 15 13.5 -45 27 PC 11 16 33.9 -55 39 Ml 2 1 55.5 +52 39 IC 2553 10 07.7 -62 20 HE2 123 15 18.6 -53 58 HE2 175 16 36.1 -36 29 A3 2 08.4 +63 55 NGC 3195 10 10.1 -80 37 ME2 1 15 19.4 -23 27 CN1 2 16 40.0 -62 31 IC 289 3 06.3 +61 08 PB 6 10 11.3 -50 05 PE2 8 15 19.8 -56 58 NGC 6210 16 42.4 +23 54 NGC 1360 3 31.2 -26 01 NGC 3211 10 16.2 -62 26 HE2 125 15 19.9 -53 41 HE2 182 16 49.8 -64 09 Ml 4 3 38.0 +52 07 HE2 47 10 21.4 -60 18 HE2 127 15 21.2 -51 39 HE2 186 16 55.7 -51 38 IC 351 3 44.3 +34 54 NGC 3242 10 22.4 -18 23 HE2 128 15 21.5 -51 09 HE2 185 16 55.8 -70 02 BA 1 3 50.6 +19 19 HE2 50 10 32.3 -53 25 HE2 129 15 21.9 -52 40 M2 4 16 57.8 -34 45 IC 2003 3 53.2 +33 43 HE2 51 10 34.0 -64 04 MZ 1 15 30.2 -58 59 HE2 187 16 57.8 -50 19 NGC 1501 4 02.7 +60 47 HE2 52 10 36.6 -56 31 HE2 131 15 31.9 -71 45 IC 4634 16 58.6 -21 44 NGC 1514 4 06.1 +30 39 PEI 3 10 42.6 -61 24 HE2 132 15 34.0 -58 35 HA2 1 17 01.3 -33 55 NGC 1535 4 11.9 -12 52 IC 2621 10 58.4 -64 59 HE2 133 15 38.0 -56 27 PC 14 17 02.3 -52 23 W1 2 4 15.9 +52 59 NGC 3587 11 11.9 +55 17 NGC 5979 15 42.5 -61 03 HA1 7 17 06.9 -41 49 J 320 5 02.8 +10 38 HE2 64 11 25.1 -57 01 HE2 134 15 42.5 -66 20 IC 4642 17 07.6 -55 20 IC 2120 5 14.8 +37 30 NGC 3699 11 25.7 -59 41 SP 1 15 47.4 -51 21 NGC 6302 17 10.4 -37 03 IC 418 5 25.2 -12 44 EG 1 11 26.2 -52 39 CN1 1 15 47.7 -48 36 NGC 6309 17 11.3 -12 51 NGC 2022 5 39.4 +9 04 HE2 67 11 26.5 -59 50 HE2 136 15 48.0 -62 22 NGC 6326 17 16.8 -51 42 IC 2149 5 52.6 +46 07 HE2 68 11 29.5 -65 42 HE2 138 15 51.3 -66 01 M2 11 17 17.4 -28 58 W1 4 6 12.4 +12 23 HE2 71 11 36.9 -68 35 HE2 140 15 54.2 -55 33 M3 39 17 18.1 -27 09 IC 2165 6 19.4 -12 58 HE2 73 11 46.2 -64 51 HE2 141 15 55.0 -58 15 M2 12 17 20.9 -25 57 J 900 6 23.0 +17 49 NGC 3918 11 47.8 -56 54 HE2 142 15 56.0 -55 47 M3 10 17 24.2 -28 25 Ml 7 6 34.3 +24 03 NGC 4071 12 01.6 -67 02 HE2 143 15 57.1 -54 57 NGC 6369 17 26.3 -23 43 NGC 2346 7 06.8 -0 44 HE2 78 12 06.6 -58 26 NGC 6058 16 02.7 +40 49 HA1 16 17 26.3 -26 24 NGC 2371 7 22.4 +29 35 NGC 4361 12 21.9 -18 31 HE2 145 16 05.2 -50 54 M3 12 17 33.4 -21 29 NGC 2392 7 26.2 +21 01 HE2 84 12 26.0 -63 27 HE2 146 16 06.7 -54 49 Ml 25 17 35.5 -22 07 YM 29 7 26.2 +13 21 HE2 86 12 27.6 -64 35 NGC 6072 16 09.7 -36 06 HB 4 17 38.8 -24 41 IC 3568 12 31.6 +82 50 IC 4593 16 09.9 +12 12 M3 14 17 41.0 -34 05 NGC 2438 7 39.6 -14 37 HA4 1 12 57.0 +27 54 HE2 149 16 10.4 -54 40 M3 15 17 42.5 -20 57 NGC 2440 7 39.7 -18 05 IC 4191 13 05.3 -67 22 MZ 2 16 10.5 -54 50 Ml 26 17 42.7 -30 11 NGC 2452 7 45.4 -27 13 NGC 5189 13 30.2 -65 44 HE2 151 16 11.4 -59 46 Ml 27 17 43.5 -33 07 NGC 2474 7 53.9 +53 33 MC 18 13 35.9 -67 08 HE2 152 16 11.6 -49 06 M2 15 17 44.0 -16 16 HE2 7 8 10.0 -48 34 A 36 13 37.9 -19 38 HE2 153 16 13.3 -53 25 HB 5 17 44.7 -29 59 NGC 2610 8 31.1 -15 59 HE2 97 13 41.4 -71 14 MZ 3 16 13.5 -51 52 BL3 11 17 45.1 -28 00 VE 26 8 41.9 -45 55 NGC 5307 13 47.9 -50 58 HE2 155 16 15.9 -42 09 NGC 6439 17 45.4 -16 28 PB 3 8 52.5 -50 21 HE2 99 13 48.7 -66 08 HE2 156 16 17.7 -42 16 HA1 35 17 45.9 -34 22 IC 2448 9 06.6 -69 44 NGC 5315 13 50.9 -66 18 HE2 157 16 18.3 -53 34 NGC 6445 17 46.3 -20 00 HE2 18 9 07.2 -53 07 IC 972 14 01.7 -17 01 HE2 158 16 19.3 -58 12 Ml 29 17 47.1 -30 34 NGC 2792 9 10.6 -42 14 HE2 103 14 01.8 -64 27 PEI 6 16 20.3 -46 35 HF2 1 17 47.9 -34 55 PB 4 9 13.4 -54 40 HE2 106 14 10.4 -63 12 HE2 159 16 20.3 -54 29 M2 17 17 49.2 -17 35 NGC 2818 9 14.0 -36 24 HE2 108 14 14.8 -51 57 HE2 161 16 20.7 -53 16 M2 16 17 49.3 -32 45 PB 5 9 14.3 -45 17 HE2 107 14 14.9 -62 53 HE2 162 16 23.9 -53 55 Ml 30 17 49.7 -34 38 H£2 26 9 18.2 -58 59 IC 4406 14 19.3 -43 55 HE2 163 16 25.3 -59 03 HA1 39 17 50.0 -33 55 NGC 2867 9 20.1 -58 06 HE2 111 14 29.5 -60 37 A 39 16 25.5 +28 01 M2 18 17 50.3 -32 58 HE2 28 9 20.5 -53 56 HE2 113 14 52.6 -53 54 HE2 164 16 25.9 -53 17 CN2 1 17 51.2 -34 22 522 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 2B—Continued <*(1950)6 <*(1950)6 <*(1950)6 <*(1950)6 Nebula Nebula Nebula Nebula HB 6 17 52.1 -21 44 NGC 6563 18 08.7 -33 53 Ml 58 18 40 -11 10 NGC 6879 20 08.2 +16 46 VY1 2 17 52.4 +28 00 M2 30 18 09.4 -27 59 Ml 59 18 40 -9 08 NGC 6884 20 08.8 +46 19 BL3 13 17 52.8 -29 11 NGC 6572 18 09.7 +6 50 Ml 60 18 40 -13 48 NGC 6881 20 09.0 +37 16 M3 17 17 53.2 -31 04 NGC 6567 18 10.8 -19 05 IC 4776 18 42 -33 24 HE1 5 20 09.7 +20 11 Ml 32 17 53.4 -16 29 M2 33 18 11.9 -30 17 Ml 61 18 43 -14 31 NGC 6886 20 10.5 +19 50 HA.2 48 18 43 -23 30 HA.1 41 17 54.0 -34 10 CM 17 18 12.2 -30 33 HU 2 1 18 47 +20 47 NGC 6891 20 12.8 +12 33 HA1 42 17 54.1 -33 35 SS 1 18 13.0 -30 53 Ml 64 18 48 +35 11 NGC 6894 20 14.4 +30 25 M3 18 17 54.3 -21 41 M3 26 18 13.1 -27 16 Ml 63 18 48 -13 14 IC 4997 20 17.9 +16 35 HA.1 44 17 54.9 -31 43 HA.1 63 18 13.1 -30 09 VY1 4 18 51 - 6 30 NGC 6905 20 20.2 +19 57 M2 21 17 55.0 -29 44 Ml 44 18 13.2 -27 06 NGC 6720 18 51 +32 58 A 71 20 30.8 +47 11 HB 7 18 52 -32 20 M2 22 17 55.2 -33 28 NGC 6578 18 13.3 -20 28 S 71 18 59 5 + 2 05 HE2 467 20 33.8 +20 00 HA.1 46 17 55.8 -32 22 M2 36 18 14.5 -29 10 NGC 6741 19 00 0 - 0 31 NGC 7008 20 59.1 +54 21 Ml 33 17 56.1 -15 32 CN3 1 18 15.2 +10 08 NGC 6751 19 03 2 - 6 04 NGC 7009 21 01.5 -11 34 M3 20 17 56.2 -28 14 HE2 390 18 17.9 -26 50 NGC 6772 19 12 0 - 2 47 NGC 7026 21 04.6 +47 39 HA2 35 17 57.0 -34 28 M2 39 18 19.0 -24 12 IC 4846 19 13 0 - 9 05 NGC 7027 21 05.2 +42 02 HA1 47 17 57.4 -29 22 M2 41 18 19.4 -30 45 NGC 6778 19 15.8 - 1 40 NGC 7048 21 12.4 +46 04 Ml 34 17 58.1 -33 18 M2 42 18 19.5 -24 11 NGC 6781 19 16.0 + 6 27 PS 1 21 27.6 +11 57 M2 23 17 58.5 -28 26 NGC 6620 18 19.8 -26 51 NGC 6790 19 20.7+1 25 K3 62 21 30.2 +52 21 NGC 6543 17 58.6 +66 38 NGC 6629 18 22.7 -23 14 VY2 2 19 22.0 + 9 48 A 77 21 30.6 +55 40 M2 24 17 58.7 -34 28 VY2 1 18 24.9 -26 09 HE2 434 19 27.5 -74 39 IC 5117 21 30.6 +44 22 M3 21 17 59.1 -36 39 Ml 46 18 25.1 -15 35 NGC 6803 19 28.9 + 9 57 HU1 2 21 31.1 +39 25 HA1 49 18 00.1 -32 42 M3 27 18 25.5 +14 27 NGC 6804 19 29.2 + 9 07 NGC 7094 21 34.5 +12 34 IC 4673 18 00.2 -27 06 CN1 5 18 26.0 -31 32 NGC 6807 19 32.1 + 5 34 NGC 7139 21 44.6 +63 25 Ml 35 18 00.5 -26 44 Ml 48 18 26.6 -19 08 B 30 19 32.8 +30 24 IC 5217 22 21.9 +50 43 M2 27 18 00.6 -31 18 AN 1 18 27.6 -19 16 ME1 1 19 36.9 +15 50 NGC 7293 22 26.9 -21 03 NGC 6537 18 02.3 -19 51 NGC 6644 18 29.5 -25 10 Ml 73 19 38.9 +14 50 ME2 2 22 29.6 +47 33 HA2 38 18 02.9 -28 17 Ml 50 18 30.4 -18 19 Ml 74 19 40.0 +15 02 NGC 7354 22 38.5 +61 01 Ml 38 18 02.9 -28 41 IC 4732 18 31.0 -22 40 NGC 6818 19 41.1 -14 16 IC 1454 22 42.2 +80 11 HA1 54 18 03.9 -29 14 Ml 53 18 32.9 -17 39 NGC 6826 19 43.5 +50 24 Ml 80 22 54.2 +56 53 HA1 55 18 04.0 -29 42 Ml 54 18 33.2 -17 02 NGC 6833 19 48.3 +48 50 VY2 3 23 20.6 +46 38 Ml 40 18 05.2 -22 17 AN 2 18 33.3 -19 24 NGC 6842 19 53.0 +29 09 NGC 7662 23 23.5 +42 16 Ml 42 18 07.9 -29 00 AN 3 18 34.4 -19 10 NGC 6853 19 57.4 +22 35 HB 12 23 24.0 +57 54 NGC 6565 18 08.7 -28 11 Ml. 56 18 34.9 -17 08 NGC 6857 19 59.9 +33 23 M2 44 18 35.0 - 3 09 Ml 57 18 37.6 -10 43 523 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 3A List of Diffuse Nebulae in Order of Increasing Galactic Longitude cy (1950)6 tya950)S Nebula o Remarks Nebula h m o Remarks NGC 6559 3.4 -4.2 18 6.8 -28 8 S 175 120.4 2.0 0 24.5 64 26 NGC 6523 6.1 -1.3 18 1.6 -24 20 M8, Lagoon NGC 281 123.2 -6.3 0 50.4 56 19 S184 NGC 6514 6.9 -0.2 17 58 .9 -23 2 M20, Trifid S 186 124.9 0.3 1 5.6 62 52 IC 4678 6.9 -1.8 18 4.9 -23 53 S 187 126.7 -0.8 1 19.8 61 36 IC 1274 7.3 -2.0 18 6.7 -23 41 S 206 150.6 -1.0 3 59.4 51 11 AN 1755 10.6 2.5 17 57.0 -18 31 S 208 151.4 2.0 4 16.3 52 51 IC 1284 11.7 -1.7 18 14.7 -19 41 S 211 154.6 2.5 4 33.1 50 50 NGC 6618 15.1 -0.8 18 18.0 -16 12 M17, Omega S 212 155.4 2.6 4 36.8 50 17 NGC 6611 17.0 0.8 18 16.2 -13 48 Ml 6 NGC 1499 160.6 -12.0 4 0.1 36 17 S220, § Per S 61 26.3 1.8 18 30.2 -5 5 S 222 165.3 -9.0 4 26.9 35 10 S 71 36.1 -1.4 18 59.5 2 NGC 6820 59.2 -0.2 19 40.6 22 IC 405 172.1 -2.3 5 13.0 34 16 S229 AN 1939 59.4 -0.1 19 41.0 23 IC 417 173.0 -1.1 5 20.0 34 12 AN 1944 61.4 0.1 19 44.5 25 S 232 173.5 3.2 5 39.0 36 10 AN 1945 61.4 0.1 19 44.5 25 } Prob. S88 S 235 173.6 2.8 5 37.6 35 49 S 90 63.2 0.4 19 47.2 26 44 NGC 1931 173.9 0.3 5 28.1 34 13 S 95 65.9 0.6 19 53.0 29 10 T 1 176.2 -20.9 4 19.1 19 25 S238, T Tau K3 50 70.3 1.6 19 59.8 33 24 CE 61 180.7 4.3 6 1.3 30 30 S 100 70.3 1.6 19 59.9 33 22 DG 85 180.8 4.1 6 0.6 30 19 SE 12 72.5 1.8 20 5.0 35 24 SH 151 181.3 -1.4 5 40.0 27 5 NGC 6888 75.6 2.4 20 10.7 38 16 S105 NGC 2175 190.0 0.5 6 6.7 20 31 S252 S 106 76.4 -0.6 20 25.6 37 14 S 254 192.5 -0.2 6 9.3 18 4 IC 1318 78.8 3.6 20 14.7 41 39 Y Cyg AN 0529 192.6 -11.6 5 28.6 12 9 HK Ori AN 2018 78.9 2.8 20 18.7 41 12 S 255 192.6 -0.0 6 10.2 18 0 IC 2162 C 20 79 0 20 30 40 j In Cygnus, S 257 192.6 -0.1 6 9.9 18 0 C 36 79 0 20 30 40 no position SH 140 192.7 -11.7 5 28.7 12 2 SH 57 80.5 4.8 20 14.6 43 40 S 263 194.7 -15.6 5 19.0 8 21 CE44 SH 108 82.3 5.9 20 15.0 45 45 S 264 195.1 -12.0 5 32.4 9 54 X Ori SH 107 83.6 7.2 20 13.0 47 32 S 269 196.4 -1.7 6 11.7 13 52 IC 5067 84.4 0.4 20 46.9 44 11 AN 0543 197.1 -10.3 5 42.5 9 4 FU Ori NGC 7000 85.5 -1.0 20 57.0 44 8 N.America,SI 17 S 271 197.8 -2.3 6 12.0 12 23 IC 5146 94.4 -5.5 21 51.3 47 2 S 272 197.8 -2.3 6 12.1 12 22 S 126 95.4 -16.8 22 31.2 38 19 10 Lac SH 160 201.9 2.5 6 37.4 11 0 S 168 97.2 10.2 20 50.5 60 12 NGC 2264 202.9 2.2 6 38.2 9 57 S273 CE 190 98.5 7.5 21 13.0 59 25 S129 IC 423 203.1 -16.9 5 30.9 0 39 IC 1396 99.3 3.7 21 37.5 57 14 S131 NGC 2261 203.8 1.3 6 36.4 8 46 AN 2207 99.8 -3.0 22 9.0 52 13 SE 41 204.4 -13.7 5 44.6 1 9 SE 19 103.3 4.0 22 0.0 60 0 NGC 2068 205.4 -14.3 5 44.2 0 2 M78 S 135 104.6 1.3 22 20.3 58 29 IC 432 206.1 -16.3 5 38.5 -1 31 SE 16 104.9 -2.1 22 35.0 55 46 NGC 2244 206.4 -2.0 6 29.7 4 54 S275 NGC 7380 107.1 -0.9 22 45.0 57 50 S142 NGC 2024 206.5 -16.3 5 39.4 -1 52 S 148 108.3 -1.1 22 54.1 58 15 NGC 2237 206.6 -2.1 6 29.6 4 40 S274 S 149 108.4 -1.0 22 54.3 58 16 NGC 2023 206.8 -16.5 5 39.2 -2 15 S 152 108.7 -0.9 22 56.5 58 31 IC 434 206.9 -16.7 5 38.6 -2 26 IC 1470 110.0 0.1 23 2.2 59 59 S156 AN 0550 207.2 -13.7 5 50.0 -1 15 Barnard^ Loop S 157 111.3 -0.7 23 13.9 59 46 NGC 1977 208.5 -19.1 5 33.0 -4 54 NGC 7538 111.5 0.8 23 11.5 61 14 S158 S 280 208.7 -2.6 6 31.7 2 35 NGC 7635 112.2 0.2 23 18.5 60 55 NGC 1976 209.0 -19.4 5 32.9 -5 25 M42, Orion AN 2354 116.8 -0.7 23 57.0 61 18 HH 1 210.2 -19.6 5 34.0 -6 33 Herbig-Haro NGC 7822 118.6 6.1 0 1.0 68 20 S171 NGC 1999 210.4 -19.7 5 34.1 -6 45 AN 0015 119.4 -1.1 0 19.0 61 18 S173? AN 0551 211.1 -15.3 5 51.0 -5 19 Barnard's Loop 524 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 3A—Continued o? (1950)6 <*(1950)6 Nebula Remarks Nebula Remarks 1 AN 0532 213.2 -21.4 5 32.6 -9 49 Barnard Loop E 1 288.1 -1.0 10 45.0 -60 0 T) Car IC 2177 223.9 -1.7 7 3.1 -10 29 S292 NGC 3576 291.2 -0.8 11 9.1 -61 6 S 294 224.2 1.2 14.2 -9 21 NGC 3603 291.6 -0.5 11 12.9 -60 59 CE 90 225.5 -2.6 2.9 -12 15 S297 NGC 6193 336.7 -1.6 16 37.7 -48 40 IC 468 227.6 -0.3 7 15.2 -13 4 IC 4628 344.4 2.3 16 49.3 -40 18 NGC 2359 227.7 -0.3 7 15.4 -13 7 NGC 6334 351.1 0.5 17 17.2 -36 1 SE 44 238.0 -5.5 7 16.5 -24 38 S 9 351.5 17.2 16 18.1 -25 14 a Seo, CE130 G 17 263.0 1.2 8 48.8 -42 7 NGC 6357 353.2 0.9 17 21.3 -34 7 RCW 38 268.0 -1.0 8 58.1 -47 20 IC 2148 286.9 -30.7 5 41.1 -75 36 Ident ambig- uous ; LMC ? TABLE 3B List of Diffuse Nebulae in Order of Increasing Right Ascension <*(1950)6 <*(1950)6 (*0950)6 ff,q.950)$ Nebula Nebula h m Nebula h m Nebula h m O' NGC 7822 0 1.0 68 20 NGC 2023 5 39.2 -2 15 G 17 8 48.8 -42 7 SH 107 20 13.0 47 32 AN 0015 0 19.0 61 18 NGC 2024 5 39.4 -1 52 RCW 38 8 58.1 -47 20 SH 57 20 14.6 43 40 S 175 0 24.5 64 26 SH 151 5 40.0 27 5 El 10 45.0 -60 0 IC 1318 20 14.7 41 39 NGC 281 0 50.4 56 19 IC 2148 5 41.1 -75 36 NGC 3576 11 9.1 -61 6 SH 108 20 15.0 45 45 S 186 1 5.6 62 52 AN 0543 5 42.5 94 NGC 3603 11 12.9 -60 59 AN 2018 20 18.7 41 12 S 187 1 19.8 61 36 NGC 2068 5 44.2 02 S 9 16 18.1 -25 14 S 106 20 25.6 37 14 S 206 3 59.4 51 11 SE 41 5 44.6 1 9 NGC 6193 16 37.7 -48 40 C 20 20 30 40 NGC 1499 4 0.1 36 17 AN 0550 5 50.0 -1 15 IC 4628 16 49.3 -40 18 C 36 20 30 40 S 208 4 16.3 52 51 AN 0551 5 51.0 -5 19 NGC 6334 17 17.2 -36 1 IC 5067 20 46.9 44 11 T 1 4 19.1 19 25 DG 85 6 0.6 30 19 NGC 6357 17 21.3 -34 7 S 168 20 50.5 60 12 S 222 4 26.9 35 10 CE 61 6 1.3 30 30 AN 1755 17 57.0 -18 31 NGC 7000 20 57.0 44 8 S 211 4 33.1 50 50 NGC 2175 6 6.7 20 31 NGC 6514 17 58.9 -23 2 CE 190 21 13.0 59 25 S 212 4 36.8 50 17 S 254 6 9.3 18 4 NGC 6523 18 1.6 -24 20 IC 1396 21 37.5 57 14 IC 405 5 13.0 34 16 S 257 6 9.9 18 0 IC 4678 18 4.9 -23 53 IC 5146 21 51.3 47 2 S 263 5 19.0 8 21 S 255 6 10.2 18 0 IC 1274 18 6.7 -23 41 SE 19 22 0.0 60 0 IC 417 5 20.0 34 12 S 269 6 11.7 13 52 NGC 6559 18 6.8 -28 8 AN 2207 22 9.0 52 13 NGC 1931 5 28.1 34 13 S 271 6 12.0 12 23 IC 1284 18 14.7 -19 41 S 135 22 20.3 58 29 AN 0529 5 28.6 12 9 S 272 6 12.1 12 22 NGC 6611 18 16.2 -13 48 S 126 22 31.2 38 19 SH 140 5 28.7 12 2 NGC 2237 6 29.6 4 40 NGC 6618 18 18.0 -16 12 SE 16 22 35.0 55 46 IC 423 5 30.9 0 39 NGC 2244 6 29.7 4 54 S 61 18 30.2 -5 5 NGC 7380 22 45.0 57 50 S 71 18 59.5 2 5 S 264 5 32.4 9 54 S 280 6 31.7 2 35 NGC 6820 19 40.6 22 57 S 148 22 54.1 58 15 AN 0532 5 32.6 -9 49 NGC 2261 6 36.4 8 46 AN 1939 19 41.0 23 10 S 149 22 54.3 58 16 NGC 1976 5 32.9 -5 25 SH 160 6 37.4 11 0 AN 1944 19 44.5 25 4 S 152 22 56.5 58 31 NGC 1977 5 33.0 -4 54 NGC 2264 6 38.2 9 57 AN 1945 19 44.5 25 5 IC 1470 23 2.2 59 59 HH 1 5 34.0 -6 33 CE 90 7 2.9 -12 15 S 90 19 47.2 26 44 NGC 7538 23 11.5 61 14 NGC 1999 5 34.1 -6 45 IC 2177 7 3.1 -10 29 S 95 19 53.0 29 10 S 157 23 13.9 59 46 S 235 5 37.6 35 49 S 294 7 14.2 -9 21 K3 50 19 59.8 33 24 NGC 7635 23 18.5 60 55 IC 432 5 38.5 -1 31 IC 468 7 15.2 -13 4 S 100 19 59.9 33 22 AN 2354 23 57.0 61 18 IC 434 5 38.6 -2 26 NGC 2359 7 15.4 -13 7 SE 12 20 5.0 35 24 S 232 5 39.0 36 10 SE 44 7 16.5 -24 38 NGC 6888 20 10.7 38 16 525 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K 526 KALER Vol. 31 TABLE 4A TABLE 5 Summary of Column Headings in the Catalog, Table 8 WAVE IDENT N RG REF OBS I Column Meaning 3889 Hi 2 AA 10.0 WAVE Wavelength 3889 He i 2 AA 10.0 IDENT Line identification N Number of identifications for observed line RG Region, or section, of nebula observed The reader should use some caution in dealing with REF Reference, or source of observations blends. For the most part, the catalog presents the OBS I Observed relative intensity AVE O Average observed intensity data in the manner of the original paper. Conse- CORR I Observed intensity corrected for interstellar quently, for some blends, in particular for À3967 extinction [Ne in] and A3970 H i, the lines may not be presented AVE C Average observed intensity corrected for in exactly proper order. There may be several entries interstellar extinction for [Ne in] followed by one for H i, then another for [Ne m], or some other variation. It is also at times TABLE 4B debatable as to what constitutes major and minor Summary of Column Headings in the Identification components of a blend, and different authors will treat Supplement, Table 9 the matter differently. In some cases where lines are intrinsically blended doublets or triplets, N generally Column Meaning is given as 1, for example in the cases of the A4267 C n doublet or the helium triplets. Close but resolvable WAVE Wavelength forbidden-line doublets are often treated somewhat IDENT Line identification N Number of identifications per observed differently for reasons relating to the use of the data in line the catalog. If the lines are observed as a blend, a R RMT wavelength mean wavelength may be given, for example A4072 for MT RMT multiplet number AA4068 + 4076 [S n], A7325 for AA7319 + 7330 [O n], TRANSITION.... Atomic transition, lower energy on left REF Reference, or source of observations A6723 for AA6716 + 6731 [S n], A4991 for AA4959, 5007 OBS I Observed relative intensity [O m], A6575 for AA6548, 6584 [N n], and N may be set equal to 1. In some cases, however, these doublets will be treated as a blend in the usual manner as described A difficulty arises when there is more than one above. reference for a blended line for which the observations The treatment of A3727 presents a special case. were made with different resolving powers, or where Where the doublet is resolved the two wavelengths, the authors give different identifications. For example, AA3726 and 3729, are given. Under the first wavelength, reference A may record two lines as a blend, but entries are made for both the first resolved line (A3726) reference B resolves them. In these cases it sometimes and for the blends where they are not resolved. The happens that the two entries for reference A may be entries under the second wavelength (A3729) show for separated by a third line observed by reference B, as which references the blend was resolved. shown in Table 6. Here observer A sees A4340 and In some cases TV = 0 when there is no identification. À4363 as a blend, but observer B resolves them and Col 4, RG.—Region of the nebula observed. This sees À4349 between them. Obviously À4349 is part of information usually is given only when more than one the blend observed by A, but since it is a minor region or section of a nebula has been observed. component, it is ignored. All the components of a Occasionally, however, it is used as a footnoting device blend observed by a given reference can be found, to help explain the observations. A key to the code since N gives the number of components to look for, used in this column is given immediately after the and all components will have the same value of N, and intensity tables for each nebula, under the heading the same reference and region codes and intensities. REGION KEY. In this key, the region (RG) code is A further difficulty arises in the wavelengths used given first, followed by the reference code (see col. [5] for blended lines. In some cases, the true wavelength below) and the explanation. As discussed above, the of each component of a blend may be given, while in RG column is also used to designate the lettered sub- others, the blended wavelength might be presented, divisions to the LMC and SMC Henize numbers. depending upon the original reference. As an example, These subdivisions are not always referred to in the consider the blend of À4711 [Ar iv] and À4713 He i. It may be presented in one of two ways : TABLE 6 WAVE IDENT N WAVE IDENT N RG REF OBS I 4711 (Ar iv) 2 4340 Hi 2 A 60.00 4713 He i 2 1 B 40.00 4349 On 1 B 0.05 or 4712 (Ar iv) 2 4363 (O m) 2 A 60.00 1 B 15.00 4712 He i 2 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K No. 4, 1976 CATALOG OF EMISSION LINE INTENSITIES 527 Region Key. They are, however, cross-hsted to NGC and (8) (these intensities were obtained from references or IC numbers through the Region Key. Occasionally for which all or some of the intensities are in dis- for diffuse nebulae the region observed is identified by agreement with most of the other intensities, or with coordinates (a, 8). These are as given by the reference theoretically predicted intensities such as the Balmer source and the epoch may not be 1950. decrement; an intensity may not be used in the average Col. 5, REF.—Reference, or source of the data. A because the errors appear high, or because the intensity key to the code and the detailed reference is given for deviates from the normal because of stratification all nebulae at the end of Table 8. effects); (7) AA3726, 3729 [O n] and AA4714, 4725 Col. 6, OBS I.—Observed intensity, usually on the [Ne iv] because of blending problems. scale /(Hß) = 100. If He n lines are present, the It must be kept in mind that these averages (and observations will be scaled to /(Hß) + /(He n Picker- those in col. [9] ; see below) may not reflect the true ing 8). Where possible, data from all references and mean relative intensity from the nebula, as observa- for each individual region are placed on this scale. If tions from different regions are not properly weighted, Hß was not observed, an arbitrary scale is indicated by and different observers may be observing different an asterisk. [If an intensity is not marked with an parts of a nebula. The purpose of the average intensity asterisk, it is scaled to I(Hß) 100, whether or not an is to give the user a quick survey of the typical spec- entry for Hß is given.] All the entries fora given refer- trum of the nebula; unaveraged individual values can ence, or a given region if there is more than one, will be very important physically. be on that same arbitrary scale unless otherwise noted Col. 8, CORK I.—Observed individual intensity in the Region Code. Different regions may be on (OBS /, col. [6]) corrected for interstellar reddening. different scales, however. A region code is occasionally The intensities are corrected according to the formula used to indicate different arbitrary scales. /c = /0 x 10cf (A), where Ic and I0 are the corrected and An approximate value of intensity, usually as quoted observed intensities, respectively. The extinction con- by the source, is denoted by “A” following the stant c = [log Fc(Hß) - log F0(Hß)]9 where Fc(Hß) intensity. Eye estimates are all considered to be and F0(Hß) are the true and observed Hß fluxes, approximate. They can be recognized in that all the respectively. The reddening function /(A) is derived entries for a reference carry the 64A” designation. Eye from the curve given by Whitford (1958), defined such estimates are also identified as such in the reference that /(oo) = — 1 and /(Hß) = 0. Thus, except for those list. Line intensities which were not corrected to out- intensities marked by an asterisk, the corrected inten- side the atmosphere but which were otherwise photo- sities are still on the scale /(Hß) = 100. The adopted metrically calibrated are denoted by44 B” following the reddening curve /(A) is presented in Table 7. intensity. These intensities are obviously not on any Generally, c is derived from the ratios of radio flux scale, but they are useful when the wavelength density to Hß flux (see, e.g., Cahn and Kaler 1971) or difference is small. In some cases, particularly for lines from the Balmer or Paschen lines and the intensities of in the far-infrared, absolute fluxes were given by the Brocklehurst (1971). Most values for planetaries were reference source. The fluxes were placed on the adopted from a recent compilation by Cahn (1976). standard scale by adopting that value of Hß flux listed The extinctions were derived by assuming electron first for the nebula by Cahn and Kaler (1971), except temperatures appropriate to the [O m] line intensities. for NGC 7027, for which the Hß flux was taken from In a number of cases, c was derived from an estimate Miller and Mathews (1972). of the distance to the nebula, and Cahn’s (1976) All intensities are given to two decimals whether or revised galactic dust model. Occasionally, extinctions not that was true in the original reference, purely for were estimated from the colors of related stars taken ease in programming. The original presentation of either from the quoted references or, for planetaries, intensities can be deduced rather easily by the presence from Shao and Liller (1975). When the data are in- of zeros in all of a given decimal place for a reference sufficient, c is estimated by the position of the nebula source. No attempt is made at an error analysis; the (/ and b) in the galaxy. In some cases, the correction is user should consult the original reference for details. unnecessary and c is simply set equal to zero if it is not Finally, 7=0 indicates that the line was detected, known. For a number of nebulae, c is derived from but that no measurement of intensity was made. (Ha + [N n])/Hß, where the [N n] contribution is ig- Col. 7, A VE O.—Average observed intensity, which nored. This procedure results in an overcorrection. No is the mean intensity for a given line averaged over correction is made for the rocket ultraviolet lines various references and regions. The average intensity observed for NGC 7027. See the original reference. is entered after each individual value which went in to It should be noted that the extinction constant produce the average. derived from radio-to-Hß ratios may not be truly Averages are not computed, or individual values are appropriate to the corrections made to the optical not used for averages in the following cases : (1) blends lines. The measured Hß flux might not be appropriate (N > 1); (2) approximate values (denoted by “A” in to the radio flux density because of possible radio cols. [6] and [8]); (3) incompletely calibrated values confusion, or because not all the optical radiation was (denoted by44 B ” in cols. [6] and [8]) ; (4) eye estimates ; detected because of local obscuring dust, or because (5) lines whose intensities are not on the standard scale of the large size of the nebula. In addition, the ratio /(Hß) =100 (denoted by the asterisk in cols. [6] and of total to selective extinction, R, might not be the [8]); (6) line intensities denoted by X in columns (6) same as assumed in the reddening function (R = 3.2). © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K 528 KALER TABLE 7 Reddening Function Adopted from Whitford 1958 A(Â) /(A) A (Â) /(A) A (Â) /(A) A (Â) /(A) 3000. + 0.510 4500. + 0.095 6000... -0.238 8000. -0.510 3100. + 0.475 4600. + 0.088 6100... -0.254 8200. -0.529 3200. + 0.448 4700. + 0.040 6200... -0.273 8400. -0.548 3300. + 0.415 4800. + 0.015 6300.. -0.291 8600. -0.566 3400. + 0.385 4861. 0.000 6400.. -0.306 8800. -0.582 3500. + 0.358 5000. -0.030 6500.. -0.321 9000. -0.597 3600. + 0.330 5100. -0.055 6600.. -0.337 9500. -0.633 3700. + 0.306 5200. -0.078 6700.. -0.351 10000. -0.663 3800. + 0.278 5300. -0.100 6800.. -0.365 11000. -0.718 3900. + 0.248 5400. -0.121 6900.. -0.377 12000. -0.763 4000. + 0.220 5500. -0.142 7000.. -0.391 14000. -0.840 4100. + 0.195 5600. -0.164 7200.. -0.416 16000. -0.890 4200. + 0.168 5700. -0.182 7400.. -0.441 20000. -0.960 4300. + 0.143 5800. -0.201 7600.: -0.465 >20000. -1.000 4400. + 0.118 5900. -0.220 7800.. -0.490 With the exception below, the value of c used and the Col. 4, R.—The last four significant figures of the method used to determine it is given at the beginning laboratory wavelength from the Revised Multiplet of the intensity tables for each nebula, on the line with Table (Moore 1945; RMT) for permitted fines, or the common catalog name. For some diffuse nebulae, from Bowen (1960) for forbidden fines. observations have been made such that different values Col. 5, MT.—The multiplet number from the RMT. of c are appropriate to different regions of a given Col. 6, TRANSITION.—This column gives the nebula. These values of c are used to correct the data names of the energy levels involved in the atomic from which they are derived, and are presented at the transition which produces the spectrum fine, as taken end of each nebula’s intensity table, following the from the RMT or from Bowen (1960). The lower Region Key. They are identified by the region and energy level is on the left. In this fisting subscripts, reference code. The existence of the additional values superscripts, and lower-case letters are not used. A of c is noted by a double asterisk (**) before the general transition such as 3$ 2Pi/2-3p for A3954.37 O ii, value of c at the head of each nebula’s presentation. multiplet 6 would be printed 3S2P1/2 3P2P1/2. Unless a region has a specific value of c fisted for it> With the exception of NGC 7027, the observed the general value is used. intensity is that given by the original reference source. Col. P, A VE C.—Average corrected intensity. See In the case of NGC 7027 all the intensities for the fines the remarks for column (7). given by ABM or ABW are those measured by Footnote summary for Table 8 : KACE. * Line intensity not on the scale I(Hß) = 100. All IV. A FINAL COMMENT the intensities of a given region (or reference) are on I plan to add to this catalog and keep it up-to-date. the same arbitrary scale unless otherwise indicated I would genuinely appreciate being informed of errors, in the Region Key. Different regions may be on omissions, and new data. different scales. ** See the end of the nebula’s presentations for This work has been in progress for nearly 10 years, other values of c (for diffuse nebulae only). and has occupied the time and efforts of a number of A : Line intensity is approximate. If all intensities people. It is a pleasure to thank the National Science are marked “A,” the measurements are probably Foundation for support through grants GP-4928,7816, eye estimates (see the reference key). 22957, and MPS 73-05270 to the University of Illinois, B : Not corrected to outside the atmosphere, but and the John Simon Guggenheim Memorial Founda- otherwise photometrically calibrated. tion under whose grant the final stages of the work X: Intensity not included in the average. were begun. My thanks go to three individuals whose outstanding work helped make this catalog possible: III. THE IDENTIFICATION SUPPLEMENT Mr. Victor Broquard, Mr. Paul Haydon, and Mr. Additional information is presented in Table 9 to Jerry Kane. Thanks also go to many astronomers for aid the reader in fine identifications for nebulae in help, suggestions, and encouragement, in particular to which large numbers of fines are observed. For this Drs. L. H. Aller, J. H. Cahn, S. J. Czyzak, L. K. fisting, only those references which contain the exact DeNoyer, H. R. Dickel, J. R. Dickel, G. S. Khromov, measured wavelengths are presented. A summary of R. Kirkpatrick, L. Kohoutek, P. D. Lee, J. H. Lutz, the meanings of the columns is given in Table 4B. M. J. Seaton, Professor B. A. Vorontsov-Velyaminov Columns (1), (2), (3), (7), and (8) are as described and his collaborators, S. P. Wyatt, and an anonymous earlier. No corrections are made for interstellar ex- referee. Many of the above individuals and many tinction. The detailed explanations of the remaining others sent me data in advance of publication; my columns follow : thanks to them all. © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. TABLE 8 PLANETARY NEBULAE NGÇ 45 (PK NQ. 120+ 9 1) WAVE IDENT N RG REF OBS I AVE 0 CORK I AVE C BEGIN NGC 40 2 0.62 5006 _LQ mi J A£_BL_ 29.00 27.90 28.39 27.32 3634 HE I ACBL 0.31 0.31 0.38 0.38 1 AW 70 28.80 27.90 28.20 27.32 3673 ACBL 0.12 0.12 0. 15 0.15 1 C MA 26.60 27.90 26.04 27.32 3676 ACBL 0.20 0.20 0.25 0.25 1 S MA 19.30 27.90 18.90 27.32 3679 ACBL 0.40 C .40 0.49 0.49 1 W MA 35.80 27.90 35.05 27.32 3682 ACBL 0.50 0.50 0.62 0.62 5199 (NI ) 1 A W 70 0.92 C. 92 0.87 0.87 3686 ACBL 0.60 0.60 0.74 0.74 5517 (CL HI) 1 A A E 2 1.00* 0.91* 3691 ACBL 0.80 0.80 0.98 0.98 5537 (CL III) AE 2 1.00* 0.90* 3697 ACBL 1 .00 1.00 1.23 1.23 5554 (N III VV 2 53.20X 48.OOX -J704 ACBL 11 30— 1.59 5755 ( N III -L_£ MA 29.50 A 25.94 A 3704 HE I ACBL 1.30 1.59 1 S 5.90 A 5.19 A 371 1 H I ACBL 1.60 1.96 1 W 5.27 A 4.63 A 3721 __H I_ AC9L -2-.-0-0- 2.44 -1 C .15.30 16t4p 1.3-1.2-6 . .I4.t_2_l_ 3721 III) ACBL 2.00 2.44 12.60 16.40 10.92 14.21 3726 II ) A4 l 135.00 164.80 21.30 16.40 18.46 14.21 ACBL 143.00 174.57 VV2 -42.5QX 36.82X 1 AUV 1.00* 1.22* l C 20.00 13.07 16.47 10. 76 1 C MA 206.00 251.48 1 S 10.80 13.07 8.89 10. 76 1 S 205.QQ 2 30 «_25 1 W 8.40 13.07 6.92 10.76 185.00 225.84 ? C 800.00 641.32 T OS 1.00* 1.22* 2 S 904.00 724.70 R QS 1.00* 1.2?» —2 H— 584.00 408.17 VV 2 2040.OOXA 2490.34XA 1 w 1.00* 0.80* ACBL 110.00 134.22 2 C MA 8no.on 041.32 AUV Q..83* 1 « 02* _2 S MA_ .904.00 724.70 0.73* 0.89* 584.00 4o8.17 R OS 0.70* 0.85* 6584 ( N II) 0.76+ 0.61* —3734 ACBL 2-0Q 2.44 6716 _LS II )_ 0.69* 0.35* 3750 1 ACBL 2.70 3.72 3.28 4. 53 2 C 54.60 43.13 l s MA 4.75 3.72 5.77 4.53 2 S 58.50 46.21 377 n _J ACBL 3.60 5.85 4.36 7. 09 ? w 47.on 37.1? 8.11 5.85 9.82 7.09 1 B AE 2 l.OC* 0.79* 4.10 7.65 4.94 9.22 2 C «A 54.60 43.07 1 1 .20 7.65- 13.49 9.2? _2 S “A -58.50 46.15 3819 HE I ACBL 0.70 0.70 0.84 0. 84 3835 H I ACBL 6.10 6.20 7.29 7.42 6.31 6.20 7 .-34 7.42 REGION KEY (REGI ON.REFERENCE.EXPLANATION) 3868 (NE III) ACBL 0.64 0.76 A, AE2 , REGIONS A AND B ON DIFFERENT SCALES VV2 I2.50X 14.84X C, M/\ , CENTER 4 ARCSEC NORTH OF STAR —388 8 H I A4 1 9.00 10.-64 MA t WEAK KNOT 2 ACBL 9.10 10.76 S, MA , STRONG KNOT 2 C MA 11.60 13.72 T, OS , TRAILED EXPOSURE ? S MA 14.90 11^62 . . £«_ QS . OUTER PING WEST OF CENTRAL MA 13.40 15.85 VV2 12.50X 14.78X 40 (PK NO. 120+ 9 1) A4 1 9.00 10.^64 ACBL 9.10 10.76 MA 11.60 13.72 14.90 17.62 BEGIN NGC 246 (PK NO. 118-74 1) 0.02 (RADIU-H BETA) 13.40 15.85 VV 2 12.50X 14.78X WAVE IDENT N RG OBS I AVE 0 CORR I AVE C HE I ACBL 0.61 0.61 0.72 0.72 3869 (NE III) I C 60.00 65.00 60.72 65.77 3964 ACBL 0 .0 0.0 0.0 .0 1 W 70.00 70.83 3967 (NE III) ACBL 0.65 0.65 0. 76 0.76 3970 2 C 25.00 25.27 3969 H I A4 1 13.00 -13.04 15.17 15.21 2 W 24.00 24.2b ACBL 13.20 13.04 15.40 15.21 3970 ? C 25.00 25.27 C ma 11.90 13.04 13.88 15.21 2 W 24.00 24.26 1 $ MA I5.a-Q_ 13.04 17.62 15.21 4101 —1 C 20.00 . 18.50 20.16 18.67 1 12.00 14.00 17.00 18.50 17.15 13.67 2 VV 2 14.90X 17.38X 4340 40.00 38.00 40.25 38.23 (NE III) 2 VV 2 14.90X 17.38X _36.00 38.00 —3_6«_2-2_ 4009 HE I ACBL 0.14 0.14 0.16 0. 16 150.00 126.83 150.32 127.10 4026 HE I ACBL ■ 1.40 1.40 1.62 1.62 150.00 126.83 150.32 127.10 4068 ( S II ) ACBL 2.30 2. 30 2.64 2.64 121.00 176.83 121.25 -127. 10 4076 II ACBL 0.80 0.80 0.92 0.92 90.00 126.83 90. 19 127.10 4101 I A4 1 25.00 22.88 28.47 26.06 1 C 160.00 126.83 160.34 127.10 ACBL 23.00 22.38 26.19 26. 06 1 W 90.00 126.83 90. 19 127.10 1 C 22.50 22.88 25.62 26.06 1 C HE 100.00 100.00 100.00 100.00 1 S 24.10 22.88 27.45 26.06 1 WE HE 100.00 100.00 100.00 lO'ï.OO 1 W 19.80 22.88 22.55 26.06 _J C_ K A 2 100.00 100.00 100.00 100.00 VV 2 31.90X 36.33X 1 N KA2 100.00 100.00 100.00 100.00 4120 HE I ACBL 0.0 0.0 0.0 0.0 1 W KA 2 100.00 IOC.00 ICO.00 lO'-'.no 4143 HE I ACBL 0.0 0.0 0.0 0.0 1 c 100.00 100.00 100.00 100.00 A4 1 48.00 43.04 52.4b 47.04 100.00 100.00 100.00 100.00 ACBL 43.00 43.04 *6.99 47.04 III) 1 C 100.00 116.00 99.90 115.89 C MA 43.00 43.04 46.99 47. 04 200.00 116.00 199.81 115.89 MA 44.00 43.04 48.09 47.04 150.00 116.00 149.85 115.89 MA 37.20 43.04 40.65 47.04 1 C 30.00 116.00 29.97 115.89 VV2 70.20X 76.72X 1 W 100.00 116.00 99.90 115.89 4363 (0 III) ACBL 0.30 0.30 0.33 0.33 1 C 250.00 292.50 249.63 292.07 4388 HE I ACBL 0.50 0.50 0.54 0.54 1 WE 500.On 292.50 499.27 292.07 4471 HE I ACBL 3 ? ¿0 3.20 3.42 3.42 __L_£ -LQQ.QQ 292.5Q 99. S5... ...292.07- 4562 (MG II ) ACBL 0.50 0.50 0.53 0.53 4571 MG I ACBL 0.90 0.90 0.95 0.95 4658 C IV ACBL 0.80 C. 80 0.83 0.83 REGION KEY (REGI ON.RE FFRENCE.EXPLANATI ON) 4686 HE II VV 2 40.40X 'tl. 65X C. HE CORE 4701 o n ACBL 0.30 0.31 WE, HE WESTERN EDGE _47 Qi (■JF.E ...111 ) ACBL 0.30 Q. 31 KA2 WHOLE NEBULA 4713 ACBL 0.60 0.60 0.62 0.62 Cf K42 , 40 ARCSEC APERTURE NEAR CENTER 4861 A4 1 100.00 IOC.00 100.00 100.00 N, KA2 , 40 ARCSEC APERTURE, 50 ARCSEC N OF STAR -ACBL 1QQ.QQ 10Q.0Q- 100.00 100.QQ Ct M , . C.E.NTER 100.00 100.00 100.00 100.00 100.00 10n.00 100.00 100.00 -EM) 2A6 LPK NO. 118-7.4 1) 40 (PK NO. 120+ 9 1) 529 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued BEGIN NGC 650 IPX NO. 13Q-I0 I) 0.15 (RAOIQ-H BETA)_ N££ 6J1Q (PK NQ. 13Q-IQ 1) WAVE IDENT N RG REF OBS I CORR I WAVE IDENT N RG REF OBS I AVE CORR I AVE C 3726 (0 II) I AGP 236.00 3.L7 » ^■61 _H I LL M 100.» QO 10&.t^0_ IQP.OO 100.00 670.00* 742.82* 100.00 100.00 100.00 100.00 250.00 277. 17 MI 73 100.00 100.00 100.00 100.00 800.00 886.95 yyi 1600.OO^A 1600.00*A 1 B1 MO 1.00* 1.11* 4921 3 C 3.00 3.00 2.99 2.99 1 B2 MG 1.00* l.ll* 4959 (0 III) 1 AC P 447.00 381.40 443.75 378.62 1 B3 MO 1.00* 1.11* L 1 C 290*00 381.4.0 . 277*9$ 378.62 1 B4 MO 1.00* l.ll* 280.00 381.40 277.96 378.62 1 B5 MO 1.00* l.ll* 560.00 381.40 555.92 378.62 1 El MO 1.00* 1.11* 340.00 381.40 337.53_ -3.7ft.tA?- 1 E2 MO 1.00* l.ll* VVl 1600.00*A 1568.35*A 1 VV1 110.00* 121.96* (0 III) AC P 1249.00 1235.38 1245.93 _LQ Li L 1 B1 MQ 1.34* 1.49* C BOO 85.10* 84.17* 1 B2 MO 1.23* 1.36* BDO 89.10* B . 13* 1 B3 MO 1. 15* 1.2 7* S BDO 126.00* 124.63* 1 B4 MO 1.22* -J.35-», C M 1570.00 1552.88 L B 5 MO 1.23* 1.36* 960.00 949.53 1245.93 1 El MO 1.36* 1.51* SM 100.00* 98.91* 1 E2 MO It 3.4* 1.49» VVl 1600.00»A 1582.55»A 3 83 5 H I AC PG 7.60* 8.34* (N I ) 1 1 C 5.00 5.33 4.87 5. 19 3858 AC P 123.00 134.58 C 5.00 5.33 4.87 5.19 3868 (ne nn ACP 123.00 -114. JL. 6.00 5.33 5.84 5.19 1 169.00* 184.73* HE II l 1 C 6.00 5.75 5.75 1 C 130.00 120.00 142.10 131.17 l 2 C 6.00 5.75 5.75 1 Y notpo 120.00 120*24 131.17 _L 3 C . 6.00 6.00 5.75 5.75 VVl 52.00* 50.84* 5517 (CL III) 1 2 C 4.00 4.00 3.80 3.80 ACP 123.00 134.15 5537 (CL III) 1 2 C 5.00 5.00 4.75 4.75 ACPO -26t7..Qj_ 29.12* 5755 _LN II ) 1 1 C 13.00 14.00 12.16 13.10 VV 1 52.00+ 5ö.72* 2 C 15.00 14.00 14.04 13.10 ACP 123.00 134.15 3 C 14.00 14.00 13. 10 13.10 AC PG 26.70* 29.12» 5876 1 C 19.00 19.33 17.64 17.95 VVl 52.00* 56.72* 2 C 20.00 19.33 18.57 17.95 ACP 35.00 37.91 3 C 19.00 19.33 17.64 17.95 AC PG . 6 5 » 7-0 *_ 71.16» _LN Li 1 1 1 C 150.00 149.33 133.9Q 133.31 VVl 18.00* 19.50* 2 C 120.00 149.33 107.12 133.31 ACP 35.00 37.90 3 C 178.00 149.33 158.90 133.31 AC PG 65.70* 7-1.14» VVl - 460.QQ* A 41Q.63*A 2 C 45.00 48.73 1 C 430.00 387.00 383.54 345.18 2 Y 33.00 35.73 2 C 360.00 387.00 321.10 345.18 _2 -18.QQ* 19.49» 413.00 3 82» QO— 368.37 34^.. 3970 2 C 45.00 48.73 1 MI 73 345.00 307.72 345.18 2 Y 33.00 35.73 3 VVl 460.00*A 410•29*A , 4068 _J ACP-G- ét-*. 4.38» II ) 1 J C 474.00 422.29 4072 (S II i 3 C 9.00 9.65 2 C 387.00 453.67 344.78 404.18 4076 ( S II) ACPG 7.56* 8.11» 3 C 500.00 453.67 445.46 404.18 4097 N LU A£_P 22.60 24.18 VV 1 46Q.Q0tA 409.82» A 4101 ACP 22.60 24.17 6717 ( S 11)1 1 A E 2 1.14* 1.01* ACPG 22.60* 24.17* l 2 AE 2 1.02* 0.90» 25.00 ¿6.74 6730 _LS H)l 1 A F 7 1.00» 0.88* 27.00 21.80 28.88 23.32 2 1.00+ 27.00 21.80 28.88 23.32 1 C- 1 4. 00 14.97 23.3? RFPTON KFY t R PO T ON . R F PF R E NO E . F X PI AN A T I ON ) 14.00 21.80 14.97 23.32 1» AE2 , PA = 216 DEG., 26 ARCSEC FROM STAR vi 73 23.80 21.80 25.46 23.32 2, AE2 , PA=164 DEG., 23 ARCSEC FROM STAR v.y i— 4« QQ* _4.28* C. BDO . f.FNTRAI PORTION ACP 21.90 22.93 N, BDO , NORTHERN PORTION ACPG 55.10+ 57.69* S, BDO , SOUTHERN PORTION C 41.00 43.72 42.93 45.77 1, C , NORTHEAST END OF BAP C 43.00 43.72 45.02 45.77 2, C , CENTER C 45.00 43.72 47.12 45.77 3, C , SOUTHWEST END OF BAR -43.xfl0 43.72 -AÏ*Q2 45i 77 CENTER 43.00 43.72 45.02 45.77 Y, M , SOUTHWEST EDGE MI 73 47.30 43.72 49.52 45.77 Bl, MO , NORTHEAST TIP OF BAR v.y.i ,00* —6,28* 92j MQ . TOWARD NORTHEAST PART QF BAR 2 ACP 21.90 22.8 MO , NEAP MIDDLE OF BAR 1 C BDO 1.00* 1.04 + MO , TOWARD SOUTHWEST PART OF BAR 1 N BDO 1.00* 1.04» SOUTHWEST TIP OF BAR S BDO 1.00* 1.04* El, MO SOUTHWEST PART OF ENVELOPE 1 C 19.00 16.20 19.85 16.93 E2 , MO SOUTHWEST PART OF ENVELOPE, NEAR BAR 2 C 17.00 16.20 17.76 16.93 1 3 C 19.00 16.20 19.85 16.93 NGC 650 (PK NO. 130-10 l) 1 C V 16.00 16.20 16.72 16.93 10.00 16.20 10.45 16.93 SM 0.74* 0.76+ VV 1 6.00* 6.27» BEGIN NGC 1360 (PK NO. 220-53 1) 0.02 (DUST MODEL) 1 c 5.00 5.18 2 C 6.00 5.00 6.21 5.18 WAVE IDENT N RG REF OBS I CORR I 3 C 4.00 5.00 4. 14 5.18 4686 HE II l D0R2 12.00* 12.03* 1 C 4.00 4.00 4.12 4.12 4861 H I 3 D0R2 100,00* 100.00* 1 2 C 4.00 4.00 4. 12 4.12 4959 (0 III) D0R2 100.00* 99.90* l 3 C 4.00 4.00 4. 12 4. 12 5007 (0 III) OOP 2 100.00* 99.85* 1 ACP 52.50 59.90 53.33 60. 85 6563 H I DO R2 37.00* 36.44* 1 C 61.00 59.90 61.97 60.85 2 C 63.00 59.90 64.00 60.85 NGC 1360 (PK NO. 220-53 l) 3 C 63.00 59.90 64.00 60. 85 60.00 60.95 VVl 15.00* 15.24+ 4711 (AR IV ) 2 A_C_PG_ -51._6_0_1 BEGIN NGC 1501 (PK NO. 144» 6 1) 1.10 (RADIO-H BETA) 2 1 3.00 3.04 2 2C 4.00 <,.05 WAVE IDENT N RG PEF OBS I AVE 0 CORR I AVE C —2 3 6.00 6.08 3869 (NE III) 1 M 45.00 45.00 86.35 86.35 ACPG 51.60+ 52.30» 3970 17.00 30.48 l C 3.00 3.04 3970 (NE III) 2 17.00 30.48 _2_C 4.00 4.05 4340 H I 1 40.00 40.00 56.02 56.02 C 6.00 6.08 1 ACP 102.00 68.00 114.50 76.33 1 C 4.00 4.00 4.04 4. 04 1 M 34.00 68.00 38.17 76.33 2 C 4-, .Q_Q_ 4.00 4.04 4.04 _1 AILE 1QQ.QQ 100.00 1QQ..QQ 1QQ.QQ C 4. 00 4.00 4.04 4. 04 100.00 100.00 1C0.0C IOC.00 ACP 100.00 100.00 100.00 100.00 100.00 100.00 100.00 100.00 1 c 100.00 IQO.tOQ 1QQ.QQ 10Q.QQ 4959 _LQ III) 401,00 390.50 380.08 370.13 100.00 100.00 100.00 100.00 M 380.00 390.50 360.18 370.13 100.00 100.00 100.00 100.00 (0 III ) l ACP 1264.00 1344.00 1166.33 1240.15 NGC 650 (PK NO. 130-10 l) NGC 1501 (PK NO. 144+ 6 1) 530 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued NGC 1501 (PK NO. 144» 6 1> NGC 1535 (PK NO. 206-40 1) IDENT N RG REF OBS I AVE 0 CORR AVE C WAVE IDENT N RG REF □BS I AVE 0 CORR I AVE C 5QQ7 _LQ LLU 1_ CQAL i&qa.oo JL3M. üû_ L24Q.15 3757 0 III _I AÇPÇ . ^21 2.48 4.59 70 1 1070.00 1344.00 987.32 1240.15 AW 0.75 2.48 0.82 2.70 6717 (S II > 1 AE2 0.78* 0.32* 3759 III AW 2.80 2.80 3.05 3.05 6710- _LiL U ) 1— _ôll_ 1.00» Ot*l» 3770 _J AC PG 8.22 6^51 8.96 7.09 AW 4.80 6.51 5.23 7.09 END NGC 1501 lPK NO. 144+ 6 1) 3797 AC PG 12.70 9.50 13.81 10.33 6.30 9. 50 6.85 10.33 3819 AC PG 2.36 1.78 2.56 1.93 AW 1.20 1.78 1.30 1.93 BEGIN NGC 1514 (PK NO. 165-15 1> C = 0.74 (RADIO-H BETA) 3835 ACPG 14.50 10.07 15.71 10.91 1 AW 8.00 10.07 8.67 10.91 WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 1 R MA 7.70 10.07 8.34 10.91 _2MS_ (NE. Ill) 1 ACPG 55.30 82.65 85,77 129-19 3868 (NE un 1 BR A 74,00 84.65 79.93 91.44 M 110.00 170.61 3 A41 118.00 127.46 3889 I ACPG 11.30 17.34 l LA 96.00 84.65 103.70 91.44 399.9. HE...I ACPG _U , 3_0_ 1 0 MA 79.60 84.65 85.98 91.44 3967 (NE III) 1 ACPG 24.40 24.40 36. 16 36.18 MA 89.00 96.13 91.44 3970 H I 1 ACPG 9.63 9.63 14.26 14.26 VVl 106.5 0X 115.04X 32.Qfl_. 47*39 BR A 21.00 22.64 3970 (NE IIIÏ 2 32.00 47.39 2 ACPG 26.70 28.79 4101 H I 1 ACPG 17.30 16.15 24.11 22.50 3 A41 118.00 127.22 _JÜ 15.00 19*1? 2Q.*9Q « 50 _2 Lâ 29.00 31.27 ACPG 31.50 33.83 39.51 42.44 MA 25.00 26.95 C 40.00 33.83 50.17 42.44 MA 21.80 23.50 —M— 30.00 33.83 37.63 42.44 VVl 25.80X ¿7.82*. (0 III) 1 ACPG 8.02 15.34 9.96 19.05 2 BR A 21.00 22.64 1 C 22.00 15.34 27.33 19.05 2 ACPG 26.70 28.79 _L_ _M 16.00 15.34 19.87 19.05 __2 AU 24*00 —25*88 - HE II 1 ACPG 8.04 16.52 8.69 17.86 3 A41 118.00 127.22 1 C 25.00 16.52 27.02 17.86 2 LA 29.00 31.27 4711 (AR IV ) 2 AC PG... 8.12 8.68 -2 D 6tA 25.00 26.95 _ C 9.00 2 R MA 21.80 23.50 HE I ACPG 8.12 2 VVl 25.80X 27.82X 9.00 9.62 _2 _AU 24.00 -23.88 4740 (AR IV ) ACPG 5.63 8.81 5.94 9.30 3923 HE II 0.31 0.31 0.33 C 12.00 8.81 12.66 9.30 3967 (NE III) 30.00 32.15 4861 ACPG 100.00 100.00 100.00 100.00 3Q.QQ —3.Q. QQ 32. 15 32.15 C 100.00 100.00 100.00 100.00 A41 45.00 48.23 GE K 100.00 100.00 100.00 100.00 LA 55.00 58.94 KA? 100.00 100.00 1QQ.QQ 100.00 —MA 40.00 100.00 100.00 100.00 100.00 2 VVl 61.30X o5.69X 4959 (0 III) l ACPG 302.00 413.00 291.31 398.38 2 BR A 30.00 32.15 305.00 413.00 294.20 398.38 L8..QQ 19.29 1 385.00 413.00 371.37 398.38 A41 45.00 48.22 1 660.00 413.00 636.64 398.38 2 LA 55.00 58.94 ITT) 1 629.00 1153.00 595.88 1032.28 2 n -MA 39.80 42.65 C 960.00 909.44 2 R MA 40.00 42.87 GEK 870.00 824.18 2 VVl 61.30X 65.69X 1870.00 177L..52 (NF TIT) ? n MA_ 39.80 4009 HE I ACPG 0.47 C. 47 0.50 0.50 4026 HE I ACPG 4.33 3.81 4.62 4.07 END NGC 1514 (PK NQ. 165-15 1) _AW 3.30 3.81 3.52 . 4.07- (S II ) 1.32 1.16 1.40 1.23 1.00 1. 16 1.06 1.23 40 76 -LS LL-l— ACPG n. 28 .23 -Q.24 . Q.24 BEGIN NGC 1535 (PK NO. 206-40 1) C = 0.13 (RADIQ-H BETA) 4097 III 2.37 2.23 2.51 2.37 2.10 2.23 2.23 2.37 WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 4101 I 21.00 28.97 22.26 30.71 3121 0 III 1 ACPG 2.39 2.39 2.75 2.75 22.20 28.97 23.53 30. 71 3203 HE II 1 BR A 23.00 23.00 26.29 26.29 32.00 28.97 33.92 30.71 3341 0 m 1 ACPG e.u 8.41 9.^9 9*^9 AAI 31.QQ 25.97 32.86 --3.Qt.7L- 3 KOS 135.OOX 152.29X 36.40 28.97 38.58 30.71 3343 (NE III) 3 KOS 135.OOX 152.27X 28.40 28.97 30.10 30.71 334.6. (NE V l 2 BR A 8*Q.Q 9.02 28,80 28.97 30.53 30.71 3 KOS 135.OOX 152.23X PT P 21.80 A 23.11 A 3346 0 III 2 BR A 8.00 9.02 R2 32.00 33.92 3426.- (NE V L _2 KOS ?e*Q-Qx 6+.95X VVl 25.80X _2.7_..35x_ 3429 III 1 ACPG 2.52 2.52 2.82 2.82 4121 HE I ACPG 0.61 0.61 0. 0.65 3444 III 1 BR A 9.50 5.63 10.62 6.30 4144 HE I ACPG 0.65 0.65 0. 0.69 1 ACPG _L«. 76— 5.63 1.97 6.30 42QQ HE II ACPG 0.84 0.84 0.88 0.88 KOS 58.OOX 64.85X 4227 (FE V ) ACPG G.58 0.58 0.61 0.61 3679 1 ACPG 0.47 0.47 0.52 0.52 4267 C II ACPG 0.97 1.08 1.01 1.14 368.3 1 ACPG 4*61 4.67 ?*1¿ ?*ia AW 1.20 1.08 1.26 1.14 3687 1 ACPG 1.15 1.15 1.26 1.26 49.00 50.99 3692 1 ACPG 1.59 1.59 1.74 1.74 73.50X 76.49X 3697 1 ACPG 2.07 1.28 2.27 1.41 55.00 57.23 1 AW 0.50 1.28 0.55 1.41 1 60.00 48.75 62.4* 50.73 3703 H I 1 ACPG 4.28 4.28 4.69 4.69 1 0 50.40 48.75 52.45 50.73 3703 HE I 2 AW 2.20 2.41 51.60 48.75 53.70 50. 73 3703 2 AW 2.20 OCR 39.80 48.75 41.42 50.73 3712 1 ACPG 3.06 2.43 3.35 2.66 PT P 41.70 48.75 43.39 50.73 1 AW 1.80 2.43 1.97 2.66 VVl 71,OOX 73.88X 3715 HE II 0.50 0.55 1 BR A 19.00 17.22 19.74 17.89 3715 C III 0.50 0.55 1 ACPG 18.50 17.22 19.22 17.89 3721 H I 3.98 4.35 _1 AN 2¿*6QX a3,48X_. 2 AW 2.10 2.30 22.00 22.85 17.89 3721 2 ACPG 3.98 4.35 A41 55.00 57.14 _JL_ 2.10 2.30 LA ZP.tQQ -¿-Qt.78 17.89 BR A 8.00 8.75 15.50 17.22 16. 10 17.89 1 ACPG 10.20 11.15 MA 16.40 17.22 17.04 17.89 _J AU— -?.?fl_ 6.Q1 QCB 16.20 .22 16*83 . 17.89 A41 13.70 14.98 PTP 10.20 10.bO 1 PTP 9.25 A 10.12 A VVl 9.70X 10.08X _1 VVl 12.60X U*78X 4387 HE I ACPG Q *89 - C*89 0.92 ■Q.92_ 1 ACPG 6.71 7.34 BR A 6.00 5.52 6.19 5.69 1 AW 3.10 3.39 ACPG 6.88 5.52 7.09 5.69 3734 _b I_ _1 AC-PG- ?«Q5 3,31. 3.32 -4*23 AJtl UQ *52 .69_ 1 AW 2.70 3.87 2.95 4.23 LA 5.40 5.52 5.57 5.69 1 ACPG 6.53 5.16 7. 13 5.64 MA 7.20 5.52 7.42 5.69 J- . 3*8Q_ 5.16 4.15 5.64 PTP 4.57 A 4.71 A 1 ACPG 2.04 2.04 .23 VVl 6.50X 6.70X 1 AW 1.60 .75 ACPG 2.01 2.0b NGC 1535 (PK NO. 206-40 1) NGC 1535 (PK NO. 206-40 1) 531 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. TABLE 8—Continued NGC 1535 (PK NO. 2Q6-40 1 ) NGC—2022 (PK NO, 196-10 1) WAVE IDENT REF OBS AVE 0 R I AVE C WAVE IDENT N RG REF OBS I CORR I 4541 H_E LL- VA 4. 3.15 ¿LL- 3.24 3203 HE II _L_L MA_ 44.00X 4630 AW70 0.15 0.15 3299 III AC 70 3.40 3.40 3.78 3.78 4634 AC PG 0.95 0. 97 3312 III 1 AC 70 7.00 7.00 7.77 7.77 AW70 0.95 0.97 1 L HA 8.00X 8.88X AC PG 2.81 2.86 3340 0 III 1 AC 70 8.50 8.50 9.41 9.41 AW 70 2.81 2. 86 3345 (NE V ) 1 AC 70 22.00 22.00 24.35 24.35 _1_B MA_ 2» 1 t MTV 26.20X 29.00X 4647 AW70 3381 IV 1 AC70 1.10 1.10 1.21 1.21 4649 AC PG 0.66 3385 IV 1 AC 70 1.30 1.30 1.43 1.43 AW 70 3411 IV 1 AC 70 1.00 1.00 1.10 1.10 4650 O II 4 AW70 (NE V ) 1 AC 70 50.00 50.00 55.02 4651 C III 4 AW 70 LA 59.00 64.93 4657 (FE III)_3_ AW70 3428 (NE V ) 1 L MA 53.2QX 58.53X 4658 IV A W 70 0. 0. 3428 III 1 AC 70 .00 3.00 3.30 3.30 4661 II 3 AW 7 0 0, 0. 3444 III 1 AC 70 16.00 16.00 17.59 17.59 4685 JJ !_ __A _24j iig.38_ 24. 2 LA 59.00 64.85 .90 18.38 19. 18.64 1 L 10.90X 11.98X .OOX 34. 47X 3676 1 AC70 0.30 0.30 0.32 0.32 A 4L .00 18.38 JJ 18.64 _ 3679 _1 AC 7_Q . Q «-4Q— 0.40 0.43 l .60 18.38 18.64 3682 AC 70 0.60 0.60 0.65 0.65 1 P .80 18.38 18. 64 3686 AC70 0.70 0.70 0.76 0.76 RLE 3691 AC 70 1.08 VV1 10X . 32X 3697 2 AC70 1.30 1.41 (AR IV I 2 AW 70 00 .08 3697 2 AC 70 1.30 1.41 uàü- 37Q3 . AC7Q 1.84 .70 6.70 .78 6.78 3703 HE II 2 AC 70 1.70 1.84 ACPG .70 6.70 .78 6.78 3712 H I 2 AC 70 1.60 1.73 AH-LQ JtQiL- . 08 - 3112 _ÜE .11 -2 AGIO 1.6Q -1.13 LA 3715 0 III 2 AC 70 0.90 0.97 (AR IV ) l ACPG 5.44 5.49 3715 HE II 2 AC 70 0.90 0.97 AW 7.0.. 5.44_ 5.49_ 3721 -3 AC7Q ■JO . 3.34 3 6, ,66 2 AW 1.70 1.83 1 5, 5.44 25 5.49 3721 (S III) 2 AW 1.70 1.83 1 BR. A 100, 100.00 LOG. ,00 100.00 3121- HE IJ .3 AC7Q 3.10 ,3.34 AN 100. OOX 100 OOX 3721 ( S III) 3 AC 70 .10 3.34 A41 100. 00 100 ,00 3726 (0 II ) 1 AC 70 .20 4.53 KQS 1Q01 OCX —LOÛ. iQÛX . UO- 6.58 LA 100 ,00 100.00 100 ,00 100.00 1 11.90 12.84 LA54 100 ,00 100.00 100 .00 100.00 1 L MA 15.40X 16.61X -HA 1 00 1QQ.QQ- 1Q0 1QQ..QQ - AC-ZD 3.60 3.8B 100. 100.00 100. 100.00 1 AW 3.90 4.21 OC B 100. 1OC.00 100. 100.00 3732 HE II 2 AC 70 2.70 2.91 PT P 1 00. 1 00.00- i no. 1QQ.QQ . 3734 —H I 2 AC 70 2^70 _ 2.91 R2 100. 100. 00 3740 HE II 1 AC 70 0.60 0.65 VV1 100. OOX 100, OOX 3748 HE 11 2 AC 70 3.30 3.55 HE. _L A W 70 2, DÛ 2.QQ- 99 ^7sn 2 AC 70 3^3Q_ 3.55 4931 III) 1 A W70 ,25 0. 25 1 AC 70 1.20 0.92 1.29 1.00 4959 III) L AN 498 , OOX 494. 86X 1 AW 0.65 0.92 0.70 1.00 1 A4 1 286. J1Û 343.20. ?R4. _L9 _J AC 7.0 3.60 2.72 -3.87 2.93 LA 362. 345.20 359, 343.02 1 AW 1.84 1.98 LA 54 385. 345.20 382. 343.02 3769 HE II 2 AC 70 3.70 3.98 -MA 363. 345.211 360, 343.02 3770 —H I _2 AC 70 3^70- 3.98 P2 00 345.20 327. 92 343.02 1 AW 2.52 2.52 2.71 2.71 VV1 0 XA 345.20 0, 0 XA 343.02 3774 0 III 1 AC 70 1.10 1. 10 1.18 1.18 -W im i AN 1399. OOX 1385. 77X 3781 - JH F .11 — _J AC 70 0^60.- 0.60 0.64 0.64 A41 800. 1049.00 792. 43 1 039.08 3783 ( FE V ) AC 70 .20 0.20 0.21 0.21 LA 12 00. 1049.00 1188. 65 1 039.08 3791 0 III AC 70 0.50 0.50 0.54 0.54 LA54 1155, 1049.00 1144. 07 1 039.08 3796 HE II AC 70 5.20 5.58 PT P l 100. 1049.00 1089, 59 l 039.08 3797 AC 70 5.20 5.58 R2 990. 1049.00 980. 64 1 039.08 AW 4.05 4.05 4.35 4.35 VV 1 _Ûj O XAl049.00 û. .Q XAI Q39.Q8- 3-813 . - -HE..JJ AC7Q Q i7Q Q«7Q„ -Q.L5 Q«-7?_ 5411 HE II l A W 70 .20 2.20 12 2.12 3833 HE II 2 AC 70 7.00 7.49 l VV 1 12 . 90X 43X 3835 I 2 AC 7 0 .00 7.49 5517 1 CL HD--L- AHJQ_ ¿9— g. 5-9_ —1— .30 _fe,_3_0- 6*7.^ 5592 III AW 70 0.18 0. 17 3858 HE II 1 AC 70 0.60 0.60 0.64 0.64 5630 (FE VI AW70 C . 23 0.22 3868 (NE III) 1 AC 70 38.30 38.30 40.88 40.88 - J>717— (FE VI J_ l_ AW 70 0.58 0.55 J LA 61.20 -i>5._3_3,_ 5721 (FE VID 1 AW 70 0.40 0.38 1 L MA 35.60X 38.OOX 5754 (N II ) 1 AW 70 f .90 0.85 1 MW MA 36.70X 39.17X 5790 - HE ÎJ L_ AAWW 70 0.90 1 VV 1 75.50X 80.59X 5801 C IV 1 70 0.80 ,75 0.75 3887 HE II 2 AC 70 10.50 11.19 5806 HE II 1 A W 70 0.36 ,34 0.34 3888 H I 2 AC 70 10.50 11. 19 5812 C IV 1 A W 70 1 ♦ 1.0 -19.57 ,00 1.04 18.35 2 3 AW LA 9.70 61.20 10.34 65.22 19.57 26 18.35 2 L MA 8.70X 9.27X 19.57 78 18.35 2 MW MA 8.30X 8.85X 1 VV1 22, 60 X 21. 19X 2 VV 1 42.70X 45.SIX 6300 ) 1 VV 1 37, 40X 34. 28X 2 AW 9.70 10.34 6562 1 0 174, 00 157. 58 3 LA 61.20 65.22 361. 291.75 326. 264.22 2 L MA 8.70X 9.27X OCR 316. 291.75 2 86. 264.22 2 MW MA 8.30X 8.85X PT P 3,16. 291.75 286. 264.22 2 VV 1 42.70X 45.51X 2 vv i 267. 80X 242. 53 X 3923 HE II 1 AC 70 i.oo 1.00 1.06 1.06 6563 (N II ) 2 Wl 267. 80X 242. 53 X 3967 H I 2 MW MA 21.40X 22.69X 7065 - he J L_ PT P 1s 3J _3a_Jl_ 2_j 3.9$ 7 (NE III) 1 aliq l.Q-»50.. _1U13._ UU13- 7325 (O II ) 1 2 30.10 31.91 2 L 20.6OX 21.84X REGION KFY (REGI ON.REFER ENCE.EXPLANATION) 2 MW MA 2it4QX ¿2.69X BR A BRIGHT RING 2 VV 1 46.40X 49.20X 0, ma , OUTER RING 2 LA 30.10 31.91 R. MA . BRIGHT RING -2_1 MA- 2Q„6QX. -21..a4X 2 VV 1 46.40X 49.20X NGC 1535 (PK NO. 206-40 1) 3968 HE II 2 AC 70 14.50 15.37 3-970 _H_ _2 A£JQ . 14.50 . _ 15_«-3 7_ 4009 HE I 1 AC 70 0.20 0.21 4024 HE II 2 AC70 1.60 1.69 BEGIN NGC 2022 ( PK NQ. 196-10 1) 0.1.1 (H.YDRQGEN LINES? 4026 HE 1 2 AC 70 1.60 1.69 1 AW 1.50 1.50 1.58 1.58 WAVE IDENT N RG PE F OBS I AVE O CORR I AVE C 1 AC 70 1.30 1.40 1.37 1.47 3132 0 III 1 AC 70 30.00- A 33^76_à _1 AW L» 50 1.40. 1.58 L.47- 1 L MA 45.OOX 50.64X 4097 N III 1 AC 7 0 1.05 1.10 1.10 1 AC 70 43.00 48.15 48.15 4100 HE II 2 AC70 25.00 26.27 NGC 2022 (PK NO. 196-10 1) NGC 2022 (PK NO. 196-10 1) 532 © American Astronomical Society • Provided by the NASA Astrophysics Data System TABLE 8—Continued 197 6ApJS. . .31. NGC ?a?? (PK ND. 196-10 1) NGC ZQZZ (PK NQ« i9^-lQ_l) WAVE IDENT N RG REF OBS I CORR I WAVE IDENT N RG REF OBS I CORR I 4101 _H I _2 AC7Q_ 25^0 26.26, -6730 LS Li. J 1 B_A£.2. 1.00» 0_.-g_i» I LA 30.50 32.04 1 L MA 15.BOX 16.60X REGION KEY (REGION?REFERENCE,EXPLANATION) 1 MW MA 19.4QX 20.3BX A. AE2 . REGIONS A AND B ON DIFFERENT SCALES VV 1 45.50X 47.BOX MA LICK OBSERVATIONS 4122 (K V AC70 0.40 0.40 0.42 0.42 MA MOUNT WILSON OBSERVATIONS .4163 (K V -AC7Q 0.50 0.50 0.52 0.52 4187 C III AC 70 0.50 0.50 0.52 0.52 NGC 2022 (PK NO. 196-10 1) 4199 HE II AC 70 2.10 1.95 2.19 2.03 _AW 1.8Q ■ 95 _L. 2.Q3 4227 (FE V ) AC 70 1.30 1.20 1.35 1.25 AW 1.10 1 .20 1.15 1.25 BEGIN NGC 2346 IPK NO. 215+ 3 1) 0.87 (RADIO-H BETA) 4267 C II AC 70 1.50 1.67 1.56 1.74 AW 1.85 1.67 1.92 1.74 WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 4280 AC 70 0.60 0.60 0.62 0.62 3691 H I 1 PG AKI 0.80 0.80 1.48 1.48 4338 —Hf IJ _ A C 7 Q_ 47.00 f.6_L_ 3697 _H I 1 PG AKI 1 tQO 1.00 l,ai> 1.85 I AC 70 47.00 48.61 3703 H I 2 PG AKI 2.90 5.34 AN 58.10X 60.09X 3703 HE I 2 PG AKI 2.90 5.34 LA 60.00 62.06 .3711 _b L_ 1 PG AM -JLt7Q 1.70 3.12 -3tl2 . 1 L MA 39.1 OX 40.44X 3722 I 2 PG AKI 0.80 1.46 1 MW MA 41.7 OX 43.13X 3722 (S III) 2 PG AKI 0.80 1.46 _J, W 1_ 109.90X 113.67X —3726. _LQ Li L L PE AK,I 311.QP 365.78 (0 III) 1 AC 7 0 11.30 12.60 11.67 13.01 1 PG AKI 105.00 191.02 1 AN 17.60X 18.18X 3729 (0 1 PG AKI 120.00 217.94 L_ AW 9.50 17.00 12.60 9.81 17.56 13.01 —3734 . H 1 PG AKI -L..6Q ■ 1.60.. 2-«.90 —2.90 1 LA 3770 1 PG AKI 3.80 3.80 6.74 6.74 1 L MA 11.20X 11.57X 3797 H I 1 PG AKI 6.30 6.30 11.01 11.01 1 MW MA 10.50X 10.84X 3819 HE. I L PG AKI 3.00 .. QQ— 5.18 _S-t.18 . VV 1 27.30X 28.19X 3835 1 PG AKI 10.00 10.00 17.09 17.09 4379 N III AC70 0.75 0.75 0.77 0.77 3868 I PE AKI 74.00 70.50 123.98 118.11 4471 HE I AC70 0.74 0. 74 0.76 0.76 1 PG AKI 67.00 _7D .50- 112.25 118.11 AN 23.00X 23.60X 3889 H I 2 PG AKI 21.50 35.57 AC 70 4.50 6.00 4.60 6.13 3889 HE I 1 PG AKI 21.50 35.57 -LA 7.50 6.00 7.66 6.13 —3.967 . (NF ITT) 2 PG AKI 53-. QQ 84.23 1 MW MA 3.40X 3.47X 3970 H I 2 PG AKI 53.00 84. 10 4625 ( AR V ) 1 AC 70 0.10 A 0.10 A 4026 HE I 1 PG AKI 2.90 2.90 4.47 4.47 4634 —U ULL _I AL.70- 0.90 0.91 0.91 4101 _JH I_ 1 PG AKI 27.40 27.40 40.47 40.47 4640 N III AC 70 1.30 1.32 4340 H I 1 PG AKI 35.70 35. 70 46.60 46.60 4647 C III AC 70 1.20 1.22 4363 (0 III ) 1 PG AKI 11.00 11.00 14.19 14.19 445.0 C IV AC7Q- 1.20 1.22 4471 HE-I 1 PG AKI 5.20 5.20- 6.37 4658 C IV AC 70 1.10 1.10 1.11 1.11 1 PE AKI 12.00 21.00 13.15 23.01 4685 HE II AC 70 107.00 128.50 108.25 130.00 1 PG AKI 30.00 21.00 32.87 23.01 LA 150.00 128.50 151.75 .130.00 I PF AKI 1 00.00 1QQ.0Q- 100.00 i nn.nn 86.00X 87.00X 1 PG AKI 100.00 100.00 100.00 100.00 l MW MA 101.00X 102.18X 1 P£ AKI 335.00 33C.50 321.10 316.79 1 VV 200.OOX 202.33X 1 PG AKI 326.00 -33Q.5Q- 312.48 316.79 1 AC 70 12.00 12.12 6717 ( S II) AE 2 1•60* A 0.79*A 2 LA 14.30 14.44 6730 ( S II ) AE 2 1.00» 0.49* 1 MW..MA 13.20 X 13.33X 4712 HE I LA 14.30 14.44 REGION KEY J5.Q— -5,17_ 6. 80 5.40 100.00 1QQ.QQ, 100« 00— 100.00 B ACPG 0.40 0.64 0.42 0.67 1 M 100.00 100.00 100.00 100.00 1 El ACPG 0.88 0.64 0.92 0.67 l MI73 100.00 100.00 100.00 100.00 3835 _J B .-ACPG— -7. 30 . 7.62 . _Z.29._ -J 0 1QQ.QQ. IflC.OQ ion-no 1nn.nn l FI ACPG 5.15 6.98 5.38 7.29 l 0D62 100.00 100.00 100.00 100.00 1 F ACPG 8.50 6.98 8. 87 7.29 1 ORF 100.00 100.00 100.00 100.00 3858 HE I I _J B ACPG 0- 20 0-21 49.59 -XO LLLL -1 AGP— 239.00 271.63 238.19 27Q.7Q 1 El ACPG 52.60 67.42 54.83 70.28 1 B ACPG 204.00 271.63 203.31 270.70 1 F ACPG 41.00 67.42 42.74 70.28 l El ACPG 252.00 271.63 251.14 270.70 _i y 67.4? 70.2B _J F ACPG 227.00 22A.23- 0 83.10 86.62 265.00 271.63 264.10 270.70 VV5 9.10* 9.49* 360.00 271.63 358.77 270.70 B Af.PG_ .10.00 10.41 31-6. 00- 314.92- 270.70 2 FI ACPG 15.30 15.93 1 ORF 310.00 308.94 ? F ACPG 14. 00 14. 58 2 VV5 114.00* 113.61* —2 B-ACPG. _io mi -I —ACE— 657.00 653.65 7-11.12- 2 FI ACPG 15.30 15.93 El ACPG 830.00 714.77 825.76 711.12 2 F ACPG 14.00 14.58 F ACPG 454.00 714.77 451.68 711.12 1 -B-ACP-G- 0.60 1 010.00- 71.4.77 - 1004.84 ZU . 12 - 3967 (NE III) 1 El ACPG 20.90 21.69 l 0D62 758.60 714.77 754.73 711.12 2 VV5 2.50* 2. 59* l ORF 579.00 714.77 576.04 711.12 -3.070 y i J B ACPG 2-0.00 _2 V-V-5 114.00* 113.42* 1 El ACPG 15. 80 21.93 16.40 22.76 5411 HE I I 1 C 12.00 11. 76 1 F ACPG 30.00 21.93 31.14 22.76 5517 (CL III) l A AE2 1.00* 0.98* 5537 (Cl III) 1 A AF? 1.00* n.9&* 2 39. 80 41. 31 5876 HE I C 24.00 24.00 23. 18 23.18 2 2.50* 2.59* 6563 H I C 355.00 292.67 336.55 277.46 _( NF .1 II) _? A4.00 -A5.6Z MI 73 ri 4-nn 292.67 297.68 . 27.7.46 - 2 39.80 41.31 1 0 209.00 198. 14 1 B ACPG 1.40 1.61 1.45 L • 66 2 VV 5 36.00* 34.13* 1 M &CP G 1.72- 1 .61 - 1 « 7ft - 1 -66 —LN T I ) -2 VV5 36.00* 34.13A 1 F ACPG 1.70 1.61 1.76 1.66 6717 ( S II ) l B AE 2 0. 78* 0.74* l B ACPG 2.00 1.09 2.07 1.95 6730 (S I I ) l B AE2 l .00* 0.94* 1 El ACPG 1.97 1.89 2.04 1.95 7325 l 0 II ) l 0 19.00 17. 72 1 F ACPG 1.70 1.89 1.76 1.95 4097 N III 1 El ACPG 1.5o 1.56 1.61 1 .61 REGICN KFY (REG ION,PEFERENCE,EXPLANAT ION) 4 10 1 H T _1 ft ACPG 20-00 26- 79 20.64 27.64 B, ACPG, FRIGHT PART l El ACPG 21.30 26.79 21.98 27.64 El, ACPG, PLATE ES1441 1 F ACPG 28.00 26.79 28. 89 2 7.64 F, ACPG, FAINT PART _! C xq.-Q<2- 26.79 -¿-9,92 - ¿7.64 A. AE2 . REGIONS A AND B CN DIFFERENT SCALES 27.00 26.79 27.86 27.64 MI 73 27. 40 26.79 28.27 27.64 NGC 2371 (PK NO. 189+19 1) _g 34.80 26.79 35.91 27.64 1 VV5 4.60* 4.75* 4144 HE I 1 El ACPG 0.6ft 0.68 0.70 0.70 4200 HI 11 . _J B ACPG. 1.40 .80 1.44 .85 BEGIN NGC. 239? ( PK NO. 197+17 1) C. = 0.74 (RADI0—H BETA) ACPG 2.20 1.80 2.26 1.85 1 B ACPG 0.40 O. B7 0.41 0.90 WAVE IDENT RG REF OBS I AVE O CORR I AVE C I El ACPG 1.35 Q.E7 -l.M- 0.90 3203 HF I I CP MA 26.00 26.00 33.29 33.29 I B ACPG 35.00 A 35.76 3341 (NF V ) 1 CR MA 36.00 36.00 44.97 44.97 1 El ACPG 35.ÛQ 46.2 7 35. 76 47.27 3426 (NE V ) 1 ACP 62.90 73.45 77.51 90.51 1 F ACPG 55.00 46.27 56. 19 47.27 2_ .LA -JQ.Qfl 86.26 47.00 46.27 48.02 47.27 CR MA 84.00 73.45 103. 46.00 46.2 7 47.00 47.27 3444 LA 70.00 86. 45.60 46.27 46. 59 47.27 3703 1 MA 1.40 L 1 0 49.00 50.06 47.27 3703 HE I 2 1.40 ? VV5 5. 86* 5.98* 3712 H I 1 1.50 1.77 4363 _LQ III) A B- AC.PJL 16.40 12.00 12. 25 ¿Q.38 3726 -J_C II. -Ll « Qû* ia* 1 Fl ACPG 19.97 16.74 20.38 AUV 1.00*A , 18*A l F ACPG 17.00 l 9.97 17.35 20.38 LA 111.CO 130, .92 _J £ 32.00 19.97 3.2,66 ¿0 « 38 1 MA -Jl.-Qfl __ai l24 1 M 21.00 19.97 21.44 20.38 2 MA 56.50 66. 1 0 21.40 19.97 21.84 20.38 3 MA 29. 10 34. 2 VV 5 5.85» 5.97* a yA_ 79.50 _ü. 4379 N III l P ACPG 0.80 0. 80 0.82 0.82 60 MA 55.20 65. 4471 HE T 1 B ACPG 1.00 1.89 1.02 1 .92 CP MA 76.00 89. 1 El ACPG 3.57 1.89 .63 -1.92 DK MA 168.QQ* 198. F ACPG 1. 10 1.69 1.12 1.92 3.00* 3. 1 B ACPG 3.50 4.79 3. 55 4.85 104.70 123. El ACPG. 2.85 .79 2.89 C TAM 58.àQ 69« 1 F ACPG 4. 80 4.79 4.85 1 0 TAM 91.00 l C 8.00 4.79 8. 11 4.85 1 W TAM 56.50 4634 1 P ACPG 1.00 0.90 1.01 0.91 3729 (0 I I ) I AH _ Q«.4J* 0.55* 0.80 0.90 0.81 0.91 0.46*A 4637 III 95.60 95.50 96.40 96.40 3 734 2. 10 2.47 4.64.0 I I I A B ACPG 2.20 1.52- 2.22 1 .53 3750 1 1 MA ¿«9Q VL_ - 3.41 1 El ACPG 1.26 1.52 1.26 1.53 3760 1.70 1.70 .99 1.99 1 F ACPG 1.10 1.52 1. 11 1.53 3770 4. 80 5.10 .62 5.97 NGC 2371 (PK NO. 189+19 1) NGC 2392 (PK NO. 197+17 1) 534 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued NGC 2392 (PK NO. 197+17 1) NGC 2392 (PK NO. 1974-17 1) WAVE IDENT N RG REF OBS AVE O CORR I AVE C WAVE IDENT N RG REF OBS I AVE O CORR I AVE C 3770 H I I 60 MA 5.4 5.10 6.33 5.97 4340 H I 1 5 HA 50.60 48.12 54.46 51 .79 1 ACP 10.90 7.60 12.72 8.87 1 CR MA 53.00 57.04 1 l MA 5.60 7.60 6.53 8.87 i OK MA 50.00* 53.81* 6. 30 7.60 .35- 8.87 1 WK OMA - 80» 1.94* 1 ACP 16.90 10.35 19.59 12.00 1 45.70 48.12 49. 19 51.79 1 LA 4.90 10.35 5.68 12.00 l ORF 44.00 48.12 47.36 51.79 __L_1 HA 7.70 10.35 .93 12.00 _J tL.TAM 42.90 48.12 46.17 -51.79 1 2 MA 12.60 10.35 14.61 12.00 1 0 TAM 58.10X 62.53 X 1 3 MA 13.30 10.35 15.42 12.00 1 W TAM 63.70X 68.56X 1 60 MA 6. 70 10.35 7.11- -L2-.-0.fl. .4363- (0 III) _2 ACP 61.00 _&.5j.44 ACP 101.20 79.35 116.68 91.49 1 42.40X 45.49X LA 85.60 79.35 98.70 91.49 l LA 29.00 29.51 31. 11 31.66 MA 78.00 79.35 89.93 91.49 1 1 MA 26.40 29.51 28.32 31.66 l 2 MA 75.20 79.35 86.70 91.49 1 2 MA 35. 60 29.51 38. 19 31.66 1 3 MA 64.20 79.35 74.02 91.49 I 3 MA 35.80 29.51 38.41 31.66 1 4 HA- 82.90 79.35 95.58 91.49 1 4 HA- 28.60 29.51 30.68 31.66 l 5 MA 81.10 79.35 93.51 91.49 1 5 MA 33.40 29.51 35.83 31.66 1 CR MA 78.00 79.35 89.93 91.49 1 60 MA 18.30 29.51 19.63 31.66 1 OK MA 73.00* 84.17* _Q— 28.20 29.51 30. 75 31 -A4 1 WK MA 3.40* 3.92* 1 ORF 27.00 29.51 28.97 31.66 I □ 89. 10 79.35 102.73 91.49 1 C TAM 32.80 29.51 35.19 31.66 _1 C TAM 63.10 79.35 72.7-5- 91 .49 _J 0 TAM 26.60 29.51 28.75 31.66 i 0 TAM 82.00 79.3 5 94. 54 91.49 1 W TAM 32.20 34.55 1 W TAM 71.80 79.35 82.78 91.49 I AN 2.00X 2. 12 X 3888 —2 ACP .20 12.87- _L_1 HA 2.70 2.86 2.75 2 LA 10. 10 11.60 l 60 MA 2. 50 2.60 2.64 2.75 2 1 MA 17.40 19.99 4541 1 ACP 6.02 3.81 6.31 3.99 2 2 HA— 25.20 28.95 _1 1 HA 2.70 3.81 _2j. 83 2 3 21.00 24. 13 1 60 MA 2. 70 2.83 2 4 23.80 27.35 2 ACP 9.81 10.14 ? 5 16.70 _ 19.19 1 1 HA 0.0 A_ 0^0 2 60 MA 17.00 19.53 2 9. 81 10. 13 2 0 21.30 24.47 1 1 1. 10 1.35 1. 14 —2 C—1AM 18.00 20.68- 1 60 MA _U .35- 1.65 W TAM 19.60 22.52 4658 C IV 1 1 MA 2.40 2.95 2.47 3.04 HE I ACP 11.20 12.87 1 60 MA 3. 50 2.95 3.60 3.04 -LA 4685 - HF II _J AAI— 46.nnx 98.46X 2 1 MA 17.40 19.99 I 63.00 61.73 64.61 63.31 2 2 MA 25.20 28.95 1 1 MA 57.00 61.73 58.46 63.31 -2—3 HA— 24. 13. 1—2 HA- A7 , hr> 69.23 2 4 MA 23.80 27.35 1 3 79. 50 61.73 81.53 63.31 2 5 MA 16.70 19. 19 1 4 62. 90 61.73 64.51 63.31 ? 60 MA 14. 50 _6J . 73— 76.41 63.31 0 21.30 24.47 1 CR MA 60.00 61.54 C TAM 18.00 20.68 1 OK MA 30.00* 30.77* W TAM 1 9.60 -U 60.30 61.84 41.60 47.27 1 ORF 62.00 61.73 63. 59 63.31 36.90 41.93 1 C TAM 59.70 61.73 61.23 63.31 ■30.50 _J n TAM 4-2-. 90 44.00 12 MA 38.80 33.82 44.09 38.43 1 W TAM 51.50 52.82 1 3 MA 33.60 33.82 38. 18 38.43 2 LA 6.00 6. 13 —1—4 HA— 33.82 38.63 1 J HA 10. 00 1 0.22 1 5 MA 33.40 37.95 1 2 MA 21.80 17.73 22.28 18.12 2 CR MA 30. 00 34.09 1 3 MA 21.40 17.73 21.87 18.12 ? OK MA 74-nn* 79-54* 7 An MA 9.20 9.40 C TAM 32.50 36.93 2 0 11.00 11.24 0 TAM 44.50 50. 57 2 LA 6.00 6. 13 W TAM 31.30 35.57 2 60 MA 9.20 9.40 ACP 41.60 47.26 2 Q 11.00 11.24 LA 36.90 41.92 (NE IV ) 1 1 MA 2.00 2.04 CP MA 30.00 34-08 L 6Q.MA 3.QQ 3.06 2 OK MA 26.00* 29.54* (AR IV ) 1 LA 6. 50 11.92 6.61 12.12 2 0 36.30 41.24 MA 9.20 11.92 9.36 12.12 _2 C TAM —32».50 1 2 MA_ LZ..8Q 11.92 18.11 12.12 2 0 TAM 44.50 50.56 1 3 22.40 11.92 22.79 12.12 2 W TAM 31.30 35.56 1 60 MA 6.90 11.92 7.02 12.12 397Q (NF III) _2 Q— 36.30 41-73 _L □ _a...7Q 11.92 8.85 12.12 l 1 MA 1.70 2.25 1.92 2.53 100.00 100.00 1 60 MA 2.80 2.25 3. 15 2.53 100.oox 100.OOX 4069 -LS II ) -LJ. HA— -4.-5Q- 4.5Q 5. (14t. -5.04 ia.CL.QQ 100.00 100.00 100.00 2 0 15. 10 16.90 1 PF RR 100.00 100.00 100.00 100.00 4072 II ) 1 60 MA 4. 10 4.10 4.59 4.59 l SI BR 100.00 100.00 100.00 100.00 4076 II ) _1_1 ma_ U2P 1.20 1.3-4- —1,34 1 GU 100.00 100.00 100.00 100.00 0 15.10 16.88 1 100.00 1 00.00 100.00 100.00 4097 III ACP 26.80 29.86 l 1 100.00 100.00 100.00 100.00 41Q1 _I ACP 26.80 29.84 —1 2 MA- 10Q.Q0 1QQ.0Û 1QQ.QQ 1Q0.QQ 1 25.00 2 7.52 27.84 30.64 l 3 MA 100.00 100.00 100.00 100.00 1 1 MA 28.00 27.52 31. 18 30.64 l 4 MA 100.00 100.00 100.00 100.00 1 2 MA- -33.5Q 27.52 37.3-1— 30.64 _L_5 MA— 100.00 -LaQ.QQ— _I.QQtQQ IQQ.QQ 3 34.60 27.52 38. 53 30.64 100.00 100.00 100.00 100.00 4 MA 33.40 27. 52 37. 19 30.64 1 ORF 100.00 100.00 100.00 100.00 _J2 HA— 32.20 27.52 35.86 30.64 _J C TAM IQQ.QQ IQQ.QQ -LQQ.QQ IQQ.QQ 1 60 MA 19.80 27.52 22.05 30.64 1 0 TAM 100.00 100.00 100.00 100.00 1 CP MA 23.00 27.52 25.61 30.64 1 W TAM 100.00 100.00 100.00 100.00 1 PK MA 26.00* 28.95» _L0 III ) J ACP 385.00 33 7. 15. 380.53 333.24 1 WK MA 1.20* 1.34* 1 AN 378.OOX 373.61X 1 0 23.40 27.52 26. 06 30.64 l PE BR 352.00 337.15 347.91 333.24 _J C TAM 28.30 27.52 31.52 -30.64 LA R4 WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I CORR I AVE C 5006 (0 III) 1_1 MA 1100 Üfi 1070.92 1080. M 1Q52.3.Q. 6310 (S III I 1 F 2 BR 4. 10» l 2 MA 989 00 1070.92 971. 81 1052.30 2 PE BR 2. 70 2.30 l 3 MA 943. 1070.92 926. 61 1052.30 1 SI BR 2. 10 1.79 1 A 1020 00 1070.92 1002. 27 1052 t 3 P.. 1 S2 BR 1.90* 1.62* 1 5 MA 1080. 00 1070.92 1061. 23 1052.30 8. 70 7.40 I ORF 1660. 00 1070.92 1631. 15 1052.30 2 60 MA 9.40 8.00 1 C TAM 698. m 1070.92 685 ¿I lQ.52.i.Q_ 6364 _iO i L 1 Fl BR 0.97 0.83 0. 74 . 0.71 1 n TAM 759. 00 1070.92 .81 1052.30 F2 BR 4.40* 3.73* l W TAM 904. 00 1070.92 .29 1052.30 1 SI BR 0.80 0.68 5145 ( F.E VI. 1. 1 A AW70 CL, £3 0.24 .03 0.23 1 S2 BR ■ 60* 1.36* 1 BR AW70 .45 0.24 .43 0.23 (N II) Fl BR 8.36 2 0.28 6.97 16.91 (FE VII) 1 A AW70 .02 0.15 .02 0.15 3 PE BR 443.00 369.42 1 RR AW70 .29 . 0. 15 .28 0.15. 1 SI BR 32.20 70.28 26-.8_5_ 16.91 l A AW70 0.20 . 12 0.19 l S2 BR 13.50* 11.26* l BR AW70 0.20 .26 0.19 3 PE BR 443.00 368.93 1 A AW70 n. ? i 0.70 _] CAM 1.00» 0.83* 1 B AW70 0.21 0.20 10.00* 8.33* l BR AW70 0.21 0.20 380.00 327.86 316.47 273.04 1 R AW70 o. A A» 314.00 327. 86 261.50 273.04 1 BR AW70 ,13 ,12 1 3 271.00 327.86 225.69 273.04 l OR AW70 ,20 19 1 4 357.00 327.86 297.31 273.04 1 Fl Bft ,50. Q.66 . 48 ■ ■Q.6A- 1 5 312.00 327.86 2 591 84__ 273.04 1 PE BR 0. 0.64 l 0 331.00 327.86 275.66 273.04 1 SI BR 0.66 0.64 l ORF 330.00 32 7.86 274.83 273.04 5270 IFE..I LI ). J A AH.7.Q... Q. QZ— . .0.6.7 _..Q. 0.7... 0.63 6583 _LN LI L .1 Fl BR 735.50 142.70 195.78- 118.63 1 BR AW70 0.67 20 0.63 3 PE BR 443.00 368.28 5277 (FE VII) l BR AW70 0.23 22 0.22 l SI BR 88.60 73.66 5309 CCA V L 1 PB AW7Q, 0.13 12— 0.12 1 S2 BR 27t30*_ 22.70* 5335 ( FF VI ) 1 RR AW 70 0.31 0.29 l CAM 0.37* 0. 31* 5411 HF I I 1 A AW70 3.08 2.88 l ORF 104.00 86.46 1 B A W 7 fl 3.Q8 7.88 1 F2 BR 4.50* .. 3.71* 1 BP AW 7 0 3.08 2.88 l PE BR 1. 10 0.91 1 OR AW70 3.08 2.88 1 SI BR 1.00 A 0.83 A 1 Fl BR . 7.B8 1. S2 BR 2.20* 1.82» 1 PE BR 3.08 2.88 3.30 2.93 2.72 2.42 1 SI BR 3.08 2.88 1 60 MA 4.40 2.93 3.63 2.42 J L_ 3.Q8 7.88 —LS II.) 1. .1 B. AF7 0.61*— 0.5a*- l 60 MA 3.08 ,26 2.88 1 2B AE2 0. 90* 0.74* 1 A AW70 0. 14 ,03 0.13 1 Fl BR 7.21 5.93 1 R A W 7 fl 0. 1 4 J3 0.13 1 F2 BR ■33.-5Ü.*— 27.56*- 1 BP AW70 0.14 0.13 7 PE BR 4.90 4.03 l A A W70 0.09 0.08 1 SI BR 6.90 5.68 1 B AW70 -Q..Q9 0.08 1. S-2. BR. 7.40* 6.09-*- 1 BR AW70 0.09 . 18 0.08 2 1 MA 21.20 17.44 1 OR AW 70 05 0.09 .05 0.08 2 2 MA 25.20 20.73 -LT.l -I-LU- 1 1, A AE2 21 » 2- 3 MA- 19.40 15.96 1 2A AE2 .92* 2 0 18.60 15.30 l A AW70 0.68 .58 0.62 6723 ( S II ) 1 60 MA 19.20- 15.79 -J R A W 70 -0.A8 0.62 6730 -LS- T I ) 1 IB AE2 1.00*- 0.82* 1 BR AW70 . 19 0.68 0.62 I 2B AE2 1.00* 0.82* 1 OR AW70 .20 0.68 0.62 l Fl BR 8.43 6.93 1 F 1 RR 0-68 n.6? 1 F2 36.00* 29.58« 1 SI BR 80 74 2 PE BR 4.90 4.03 1 IA AE2 00* 92* 1 SI BR 6.80 5.59 1 2A AE2 00* 97* 1 S? BR 7.30*■ 6.00*- l A AW70 0.61 0.37 0.56 2 1 21.20 17.42 l B AW70 0.61 0.39 0.56 2 2 MA 25.20 20.71 l BP AW70 0.61 1.09 0.56 2 3 MA 19.40 15.94 1 OR AW70 0.61 0.24 0.56 6734 2 0 18.60 15.28 1 Fl BP 0.61 0.46 0.56 6827 1 F2 BR 0.90* 0.73* ! S1--BS 0.90 0.61 0.83 0.56 1 S2 BR Q.70* 0.57* 5577 (0 1 ) 1 Fl BR 1.85 1.69 6835 1 F 2 RR 0.50* 0.41* 1 SI BR 1.85 1.69 1 S2 BP 0.50* 0.41* __5i>30 _ (FE VI ) J A AW7Q 6 86 5 1 F 2 BR 1.20*- 0.98* l BR AW70 0.28 0. 1 7 0.25 0.16 1 S2 BR 0. 70* 0.57* 5677 1 A AW70 0.06 0.17 0.05 0.15 7006 (AR V 1 0 30. 20 24.32 1 BP AW70 - o^-ia.- -..Qm.LT-.. 0.25 0.15 7065 HE I 1 F2 BB 4.10*- 3.29* 5754 1 A AW70 1.60 1.44 l S 2 BR 1.80* 1.44* i B AW70 1.60 1 .44 1 Fl BR 5. 80 4.63 1 B R. -A-WJ-Q— 1.60 1 .44 1 F2 BR 8.60* 6.86* 1 OR AW70 1.60 1.44 1 PE BR 5.90 9.50 4.71 7.58 1 Fl 8R 1.60 1.44 1 SI BR 9. 00 9.50 7. 18 7.58 1 SI BR 1.60 1.44 -L S-2- BR. 5.10* 4.07« l S2 SR 20* 08* 17. 30 13.81 5721 (FF VII) l BP AW70 10 A 09 A 7319 (0 II ) 13.50 10.64 -5.79.0 . HF II J B AW7Q 25 22 732 5_ (0 U ) 19. 10 19.10 15.05 15.05 l BR AW70 20 0.22 0.20 7330 (0 II) 13. 50 10.63 1 A AW70 10 0. 10 0.09 7751 (AR III) 4. 30 4.30 3.29 3.29 1 BR AJrl.7.0—. 20 A 18 A 9069 (S III) 38.00 38.00 27.25 27.25 5858 HF I I l BR AW 70 9532 H I LAP 1.95* 1.37* 5875 HF I l A AW70 6.30 5.60 9539 (S III ) 0 104.70 73.70 1 B AW70 6.30 5.60 .9539 _Q— 104.70 73. 7Q l BR AW70 6.30 5.60 9546 _b (S LIII) LAR 1.95* 1.37* 1 OR AW70 6.30 5.60 10829 HE I GU 20.00 40.85 13.52 27.61 1 Fl BR 6.30 5.60 _Q 61.70 40.85 41.71 27.61 1 F 2 BR 20* ,39* 1 PE BR 20 6.30 39 REGION KEY (R EG ION,REFERENCE»EXPLANATION) 1 SI BR J2Û- 6.30 .66 1A t A E2 . 180 DEG.. 6 ARCSEC FROM STAR A,B ON DIF. SCALES l S2 BR .50* 2A, AE2 , PA = 158 DEG., 16 ARCSEC FROM STAR — A,B ON DIF. SCALES l 1 .90 6.30 5.60 A, AW70, KNOT WITH STRONG NITROGEN EMISSION 1 60 MA .50 6.30 8.44 5.60 B» A.M.7Q» KNOT WITH WEAKER NITROGEN . EMISSION l F 2 BR . 30* .26* BR, AW70, BRIGHT RING SOUTH OF STAR 1 S2 BP .40* .34* OR, AW70, PORTION OF OUTER RING 63QQ _LÜ I L 1 FI BR .QQ 2.2 Q ■JZO 1.87 FI, FILAMENT IN NORTH OUTER SHFI L 1 F2 BR 40* BR , FILAMENT IN SOUTH OUTER SHELL 2 PE BR , 70 PE, BR , PHOTOELECTRIC (FROM ALLER AND CZYZAK.1972, UNPUB.) 1 SI BR xAO SI. BR . INTERFILAMENT BETWEEN SHELLS NORTH OF STAR 1 S2 BR 60* .77* S2, BR , INTERFILAMENT IN SOUTH OUTER SHELL 1 CAM 01 *A • 01 *A 1, MA , BRIGHT PART OF RING SOUTH OF STAR ? 1 MA -ZQ -IQ ARCSEC FROM REGION 1 2 60 MA .00 MA flO ARCSEC FROM REGION 1 1 FI BR .21 MA -15 ARCSEC FROM REGION 1 NGC 2392 (PK NO. 197fl7 1) NGC 2392 (PK NO. 197+17 1) 536 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued NGC 2392 (PK NO. 197+17 11 NGC 2440 (PK NQ. 234-»- 2 1) 5, +15 ARCSEC FROH REGION 1 WAVE IDENT N RG REF OBS I CORR I AVE C WH SON 60 INCH 3715.00 0 III 2 C CAK1 0.23 0.35 CR, LICK CROSSLEY (3721.80 (S III) 2 C CAK I 2.51 3.82 OK, MA OUTER KNOT 13721.80 H I 2 C CAK 1 2. 51 3.82 HKt. MA WEAK KNOT . 3726.00 (O UL). 1 C CAK1 -JL3.,AQ 51.12 W, TAM , WHOLE NEBULA 1 83.00 126.27 C, TAM , CENTRAL PORTION 1 1 CAK1 24.00X 36.51X 0, TAM , BRIGHTEST PART OF OUTER RING _J 2 C.AK1 124.OQX 188.64X CAK 1 151.OOX 229.72X NGC 2392 (PK NO. 197+17 1) CAK1 144.OOX 219.07X _LA 141.00 -2141.51- 1 OS l.oo* 1.52* 1 VV5 68.00 103.45 BEQIN NGC 2438 (PjL.ljQt * 2) - 0.58 (RADIO—H BETA) 3729,QQ (Q LL-L _L C C.A.K i 25.20 L8, 2.9 _ 1 1 CAK1 27.OOX 41.03X AVE O CORR I AVE C l 2 CAK1 103.OOX 156.51X 3727 _LQ II ) KA2 390. 580.98 _1 3 QM.-L . 139,OOX .211,21X_ 3868 (NE III) KA2 87.00 87.00 122.72 122.72 1 4 CAK1 130.OOX 197.54X 4686 HE I I KA2 41. 00 41.00 43.58 43.58 1 OS 0.64* 0.97* 4961 _H I ,KA2. 100.00 100.00 100.00 100.00 3734.QQ ti L_ _J C QAK1 1.91 -1.91 2.90 0D63 100.00 100.00 100.00 100.00 3736.00 □ IV 1 C CAK1 0.46 0.46 0.70 0.70 4959 (0 III) 1 KA2 460.00 460.00 447.19 447.19 3741.00 O II 1 C CAK1 0.05 0.05 0.08 0.08 5007 (0 III) 1 QD63 1096.QQ 1096.00 1050.50 1050.50 3750.70 b I _J C CAK1 2.37 2-3 7 6717 (S AE2 1.02* 0.64* 3754.70 0 III 1 C CAK1 0.95 0.95 1.43 1.43 6730 (S AE2 1.00* 0.62* 3757.00 0 III 1 C CAK1 0.33 0.33 0.50 0.50 3759.9-0 Q HI J C CAK1 3.19 3.19 4.79 4.79 NGC 2438 (PK NO. 231+ 4 2) 3770.60 H I C CAK 1 2.72 2.72 4.07 4.07 3774.00 0 III C CAK 1 0.33 0.33 0.49 0.49 3781.7Q HE II C CAK 1 ■ ■0.24 0.24 - 0.3.6 _ 0.36 3791.30 0 III l C CAK1 0.32 0.32 0.47 0.47 BEGIN NGC 2440 lPK NO. 234+ 2 1) 0.61 (RADIO-H BETA) 3797.90 H 1 C CAK1 4.39 4.39 6.49 6.50 J LA 4.40 4. 39 . 6.51 _ 4.50 WAVE lDENT N RG REF OBS I AVE 0 CORR I AVE C 3803.60 O II 1 C CAK1 0.03 0.03 0.04 0.04 3109.00 (AR III) 1 C CAK1 0.84 0.84 1.63 1.63 3806.00 HE I l C CAK1 0.03 0.03 0.04 0.04 3121.20 0 III 1 C CAKL 0.70 —Q-. 7Q_ 1.35 L.35 _3.ail.50 HE. II _J C C.AK1 0.46 0.46 0.68 . _ja.6B C CAK1 22.90 33.45 44.07 64.38 3819.30 HE I C CAK1 0.74 0.74 1.08 1.08 44.00 33.45 84.68 64.38 3835.00 H I C CAK 1 6.40 6. 75 9.32 9.83 0. 80 0.8 0 1.51 1-^51 LA .7.10 10.34- 9.83 3187.40 HE I C CAK1 3.48 3.48 6.56 .56 1 MW MA 10.10X 14.71 X 3203.10 HE II C CAK 1 19. 70 19.85 36.91 37.19 3850.80 0 2 C CAK1 0.07 0. 10 2D_ on 1 9.85 37.47 37.19 3850.80 Q- _2 C C-AK-l-.. 3231.50 S III 1 C CAK1 0.87 0.8 7 1.61 1.61 3858.10 HE II C CAK l 0.43 0.62 3233.50 S , I I I 1 C CAK1 0. 87 0.8 7 1.61 1.61 3862.50 SI II C CAK1 0. 16 0.23 3240.90 (NA IV ) J C- CAK.l..- 1.44 2.65 -2.65 3862.50—0 U- C LAK-1 . 3287.70 O II 1 C CAKl 0.20 0.20 0.36 0.36 (NE III) l A 83.00 119.18 3291.00 O II 1 C CAK1 0. 28 0.28 0.50 0.50 1 1 CAK1 69.OOX 99.08 X 3299.40 0 T II i r. r.AKi 2.90 5.20 J 2 CAK 1 143.59X— 3312.30 C CAK1 6.20 6.75 11.05 12.03 3 CAK1 141.OOX 202.47X A 7.30 6.75 13.01 12.03 4 CAK1 92.OOX 132. UX f. CAK1 7.90 _ Z.90-- 13.91 -13.91 -LA- 1.04.00 LA 69. 00 121.53 1 VV5 24. 00 34.46 3342.00 (NE III) C C AK 1 28.30 49.80 3889.00 H I 2 C CAK 1 10.40 14.80 -33-45 LAIE—U L 2 2 C AK 1 13.OOX 1 B. 50X.. 69.00 121.27 CAKi 16.OOX 22.77X 3346 0 III 67.00 117.71 C AK 1 10.OOX 14.23X 3362.40 0 III 2 C C AK 1 Q« 32— Q. 56 -LA -1.2.00 17.08 3362.40 IV CAK 1 0.32 0. 56 MW MA 20.40X 29.04X 3380.50 IV CAKI 0.83 1.44 VV 5 29.00 41.28 3385.20 III CAKI 0.55 0.95 3889.00 HE I C CAKI 10.40 14.80 3385.20 IV CAKI 0. 55 0.95 1 CAKI 13.OOX 18.50X 3403.60 IV CAKI 0.63 0.63 1.08 1.08 2 CAKI 13.OOX 18.50X 3409.10 J2 i_y_ CAKI 0.39 Q, 39 0.67 Q.67 ÇA.Kj 16.OOX 22.77X 3411.00 O IV l CCAKl 0.55 0.55 0.94 0.94 4 CAKI 10.OOX 14.23 X 3414.70 H III 1 C CAKI 0.30 0.3 0 0.51 0.51 LA 12.00 17.08 3425 (NF V L _2 A 160.00 - 272^18. MW MA 20.40X -?9_^P-4X_ l LA 158.00 158.00 268.78 268.78 2 VV 5 29. 00 41.28 3425.90 D III 3 C CAKI 0.0 0.0 0.0 0.0 3889 H 2 1 CAKI 13.OOX 18.50X ? A 160.00 272.18 3905.50 SI 1 C CAKI 0.08 0.11 9.11 3425.90 O III 3 C CAKI 0.0 0.0 0.0 0.0 3923.50 HE II C CAKI 0. 55 0.55 0.77 0.77 3425.90 (NE V ) 3 C CAKI 0. 0 0.0 0.0 0.0 3926.30 HE I C CAKI 0. 10 0. 10 0. 14 0.14 3432 0 C CAKI Q, 32 0.32 Q.54 Q, 54 3944.80 O IV C CAKI 0.05 0.07 3443.90 0 III l CAKI 0.0 14.33 0.0 24.21 3947.70 C II 1 C CAKI 0.11 0.11 A 16.00 14.33 27.02 24.21 3956.70 Q IV 1 C CAKI 0.04 0.04 LA 27.00 14.33 45,60 . 24.21 3964.00 HE I _J C—LAJÜ— 0,69 0,69 0.96 0.96 3466.00 (N I CAKI 0.61 1.02 3967.50 (NE III) 2 C CAKI 21.70 30.03 3479.10 HE I C CAKi 0.37 0.62 37.00 51.20 3479.10 C CAKI 0.37 0.62 15.OOX ?Q.76X 3483.30 N IV 1 C CAKI 0.21 0.21 0.35 0.35 2 CAKI 34.OOX 47.05X 3487.60 HE I 1 C CAKI 0.21 0.21 0.35 0.35 3 CAKI 33.OOX 45.66X 3499.80 _Q LL 1 C CAKI 0.26 0.26 0.43 0.43 4 CAKI __2L_Q-0-%- L5_.9aX_ 3530.90 HE I 1 C CAKI 0.06 0. 06 0. 10 0.10 LA 45.90 63.51 3554.40 HE I 1 C CAKI 0. 27 0.27 0.44 0.44 VV5 33.00 45.66 3568.00 NE II 1 C CAKI 0.18 0.18 0.29 0.29 3970.00 C CAKI 21.70 30.Q3 - 3586.80 HE I 1 C CAKI 0.30 0.48 37.00 51.20 3608.70 C III 2 C CAKI 0.06 0. 10 l 1 CAKI 8. OOX i 1.07 X 3608.70 -£ LLL 2 C CAKI 0« 0.6 0.10 _L 2 CAKI 14.OOX 19.37X _ 3614.10 HE I l C CAKI 0. 10 0. IC 0. 16 0.16 CAKI 12.OOX 16.61X 3623 0 C CAKI O. 0.15 0.24 0.24 15 4 CAKI 10.OOX 13.84X 3634.50 -Hf I 1 C CAKI P. 0.31 p^a. 0.49 31 45.9Q 63.51 3653 0 C CAKI 0.-25 0.25 0.39 0.39 L MA 37.OOX 51.20X 3653.00 HF I 1 C CAKI 0.25 0.25 0.39 0.39 MW MA 46.OOX 63.65 X 3674.QQ H L _1 C CAM 0.48 VV5 3676.00 l C CAKI 0.66 0.66 1.02 1.02 2 L MA 37.OOX 51.20X 3679.00 1 C CAKI 0.76 0.76 1.18 1.18 2 MW MA 46.OOX 63.65 X 3682.00 C CAKI 0. 89 0.89 1.38 1.38 3995.20- IV -J C CAKI _JLÛ5 Q.Q7 Q.Q7 3686.00 1 C CAKI 1.02 1.02 1.58 1.58 3999.00 N III l C CAKi 0.06 0.06 0.08 0.08 3691.00 1 C CAKI 1.05 1.05 1.62 1.62 4003.50 N III 1 C CAKI 0.08 0.08 0.11 0.11 3697.QO _J f. CAKI 1. 12 1-1 ? L77 ■ 1.12 4008.20 (FE I II) 1 C. CAKI 0.07 0.07 0-10 0-10 3704.00 H I l C CAKI 1.26 1.26 1.93 1.93 4009.60 HE I 1 C CAKI 0.07 0.07 0. 10 0.10 3705.00 HE I 1 C CAKI 0. 50 0.50 0.77 0.77 4026.20 HE I l C CAKI 1.74 1.74 2.36 2.36 3707.00 JD LLL JL C CAKI 0.28 0.28 0.43 0.43 4050 0 r. CAKI -Q.Q3 Q. 03 0^04 . ..0^4. 3712.10 C CAKI 1.55 2.37 4059.70 (FE IV ) C CAKI 0.07 0.07 0.09 0.09 3715.00 C CAKI 0.23 0.35 4068.60 (S II ) C CAKI 2.40 2.40 3.20 3.20 NGC 2440 (PK NO. 234+ 2 1) NGC 2440 (PK NO. 234+ 2 1) 537 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued NGC 7440 (PK NQ. 23^+ Z 1) NGC (PK NQ. 234+ 2 1) WAVE IDENT N RG REF AVE 0 CORR I AVE C WAVE N RG REF OBS I AVE 0 CORR I AVE C 4072.00 0 I I 1 C CAK I -0. 1,2_ 0.16 0.16 4636 0 C CAK 1 8.39 8.39 9.11 9.11 4076.40 (S II ) 1 C CAK 1 0.73 0.97 4640.60 N III C CAK1 8.39 6.94 9.10 7.53 1 MW MA 3.00X 3.98X A 10.00 10.84 4097.QQ N LUL 1 C CAK1 2.40 —2.4.Q_ -3.16 3.1A . AW7-Q- 5.-50 6.94 7.53 14.90 22.40 19.59 29.45 1 L MA 10.00X 10.84X 26.00 22.40 34. 18 29.45 1 MW HA 8. 70X 9.43X 19.00X 24.98 X 4647.50 C III _1 C GAUL Q^45 0*15- 0.49 0.39 1 2 CAKi 16.00X 21.03X 1 AW70 0.26 0.35 0.28 0.38 1 3 CAKI 23.00X 30.24X 4648.90 O II 1 C CAKI 0.45 0.45 0.49 0.49 1 4 CAKI 24.00X 31.55X 4649 O III _3 AW7-Q Q.3Q 5.1Z 26.30 22.40 34.57 4649 C II 3 AW70 0.30 0.32 26.OOX 34.18X 4649.90 C III 1 C CAKI 0.45 0.49 25.QQX 32.86X 3 AW70 ±10 0.32 4119.40 0 I I 1 C CAKI 0. 13 0.13 0.17 0.17 2 LA 12.40 13.40 4121.40 HE Ï 1 C CAKI 0.29 0.29 0.38 0.38 4657 (FE III! 1 AW70 0.53 0.53 0.57 0.57 4121.40 (KV ) 2 C CAKI 0. 16 0.21 4659.3 0 .S U_ _1 C CAKI 0.59 0.47 0*51.. 4128 C CAKI 0.04 0.04 0.05 0.05 AW70 .37 0.47 0.40 0.51 4133.50 0 I I C CAKI 0.05 0.05 0.06 0.06 4676.10 O II C CAKI .07 0.07 0.08 0.08 4143.BC JdE i C CAKI . 0-77 0.27 -Q.35 0.35 4fcflft.OO HF TT CAKI -_6Ü_ 71. 62. 4B 76.15 4153.10 C CAKI 0.03 0.04 A 76i 00 71.42 81.04 4156.40 C CAKI 0.03 0.04 AN 74, OOX 78.90X 4156.41! □ I_L_ C CAKI 0- 03 -Q.Q4 KA2 LA _LL IQ .50 71.42 71.42 75.71 76.24 76.15 4163.30 (K V ) C CAKI 0. 15 0.15 0. 19 0.19 l 76.15 4166 C CAKI 0.03 0.03 0.04 0.04 1 VV5 .00 71.42 85.30 76.15 4169.50 n 11 r. CAKI 0.07 Q« 0?. - Q. 03 o -03 4712.60 (AR IV > ? CAKI 4175 0 C CAKI 0.04 0.04 0.05 0.05 A 16.90 4186.60 III 1 C CAKI 0.20 0.2 0 0.25 0.25 AW70 9.40 4195.90 III _1 C CAKI . 0.08 Q. 08 —Qj lfl_ o.io —LA 10.46 4199.80 HE II C CAKI 1.33 1.33 1.68 1.68 1 L MA 16, OOX 16.90X 4227.40 ( FE V ) C CAKI 0.21 0.21 0.26 0.26 l MW MA 16. OOX 16.90X C CAKI Q » 05 .. 0.05 0« 06 0.06 . 4712.60 HF I _2 C CAKI 5., M 5.32 4237.50 I I 1 C CAKI 0.05 0.06 16.90 4241.20 I I 2 C CAKI 0.03 0.04 AW7 0 9.40 4241.20 N LL_ 2 C CAKI _LA 10.46 4267.20 C I I . 1 C CAKI 0.38 0.38 0.47 0.47 4724.00 (NE IV ) l C CAKI 1.29 4311.50 0 I I 1 C CAKI 0.03 0.03 0.04 0.04 1 AW70 1.79 4314.10 C I I _1 C CAKI _ 0.03 0.03 . -0.04 0.04 4740.QQ (AR IV 1 J C CAKI 7.B4 4317.30 C I I C CAKI 0. 03 0.04 16. 16.72 4317.30 II C CAKI 0.03 0.04 AW70 7. 8. 10 7.42 8.46 C CAKI— _LA SL 8-10 10-13 8.46 4319.50 0 I I 1 C CAKi 0.03 0.03 0.04 0.04 l MW MA 50 X 15.15X 4340.00 H I l C CAKi 2 8.80 41.27 34.72 49.74 4804 (FE VI ) 1 WYSE 00 A 2.04 A _1 A 49.74 4848 J W*S£_ -00 A. .0?. 48.50X 58.46X 4851 (FE VI ) 1 WYSE 3. oo A 3.01 A 1 CAKI 48.50X 58.46X 4854 l WYSE 4. oo A 4.01 A 2 C. A K 1— 4861 -30 tí L J C. C.AKI inn. no ï nn.nn 100.00 100.00 1 3 CAKI 48.50X 58.46X 1 100. 00 100.00 100.00 100.00 l 4 CAKI 48.50X 58.46X 1 100. OOX 100.OOX _J LA 43.00 -51.83 1 Fl i on- 00 1 00.00 inn.nn inn.nn L MA 52.OOX 62.68X l F2 RP. 100. 00 100.00 100.00 100.00 VV5 50.OOX 60.27 X 1 F3 BR 100. 00 100.00 100.00 100.00 C CAKI 0. OA 1 SI BR 100. HO 1 00.00 inn.no 100.00 4363.00 (O III) C CAKI 18.00 26.42 21.52 31.60 1 KA2 100. 00 100.00 100.00 100.00 A 29.00 26.42 34.68 31.60 l LA 100, 00 100.00 100.00 100.00 AN 25.4QX. 30.37X _LJ 61A 100. HÛJÉ 1 QQ. OOX ^ CAKI 24.OOX 28.70X 0D63 100. 100.00 100.00 100.00 CAKI 19.OOX 22.72X VV5 100. 100.00 100.00 100.00 CAKI 28.OOX 33.48X WYSE 100. 100.00 CAKI 24.OOX 28.70X 4910 WYSE 4. 3.94 LA 25. 70 30.73 4921.90 HE I C CAKI 0. 0.66 0.36 0.65 MA 29.OOX 34.68X AW7Q £L Q.66 0.93 0-65 SM 0.65* 0.78* 1 WYSE 3.93 A VV5 33.00 26.42 39.46 31.60 4930.60 (0 III 1 1 C CAKI 0.33 0.15 0.33 43 Z9,JJ2__ c C CAKI 0.32 Q. 32 0.38 Q .38 J AH7Q Q. 33 0.51 0.33 4384.10 N I I l C CAKI 0.06 0.06 0.07 0.07 A W70 .25 0.24 4387.90 HE I 1 C CAKI 0.29 0.2 9 0.34 0.34 WYSE .00 A 3.90 A 4jtl4, 70 . JL C CAKI 0.02 0.02 Q.Q2 4943 _J2 LL HYSE .00 A 3.90 A 4417.10 n 11 C CAKI 0.05 0.05 0.06 0.06 4959.00 (O III » 509. 00 529.25 494.10 513.76 4421.00 NE I I C CAKI 0.02 0.02 0.02 0.02 750. 00 529.25 728.05 513.76 443 5 C CAKI Q. 05 0.05 0.06 0.06 AN 488. OOX 473.72X 4446.00 NF I I l C CAKI 0.06 0.06 0.07 0.07 l Fl BR 473. 30 529.25 459.45 513.76 4452.60 n 11 l C CAKI 0. U 0. Il 0. 13 0.13 l F3 584. 46 529.25 567.35 513.76 4471.70 -HE I _1 C CAKI 3.10 3.10 -1*. 3.58 1 SI BP 456. OÙ 529.25 442.65 513.76 2. 70 3. il KA2 505. 00 529.25 490.22 513.76 AN 11.OOX 12.69X LA 427, 00 529.25 414.50 513.76 LA - 3.50 3.10 4.04 3.58 VV5 2460. HO— 2387.99 1 L MA 2.70X 3.11 X l WYSE 370. 00 A 359.17 A l MW MA 4.20 X 4.84X 4959 (O II 1 1 F2 BR 511. 60 511.60 496.62 496.62 4511.50 N LLL 4 C CAKI 0.24 -0.27 4972 (FE VI ) 1 A W7 0 Oj 14 Ot 14 5L14 Q. 14- 4511.50 NE I I C CAKI 0.24 0.27 4994 (S VII) WYSE 4. 00 A 3. 84 4511.50 NF II C CAKI 0.24 0.27 4994 N II WYSE 4. 00 A 3. 84 A 4511.50 LK IV ) C CA KL 0.24- 0.27 5007.00 (G III) C CAKI 1502. -QQ 1337.00 1436. M 1278.82 4515.90 III C CAKI 0.15 0. 17 l SI BR 1012. 00 1337.00 967, 1278.82 4515.90 C III C CAKI 0. 15 0. 17 1 LA 1320. 00 1337.00 1262. 1278.82 4515.90 C III C CAKI 0*li> 0. 17 _J QD63 1514. OÙ 1337.00 1448. 1278.82 4519 C CAKI 0. 18 0.1 8 0.20 0.20 SM 100. 95, 65* 4522.80 I I I 1 C CAKI 0.08 0.08 0.09 0.09 VV5 2460. 2352, 95 4534.8.0. III _1 C CAKI 0.06 0.06 0.07 0.07 WYSE 1170. QQ A 1119.09. A 4541.00 HP II 3. 10 3.23 3.49 3.64 5015.70 HE I 1 C CAKI 0.53 0.51 3.00 3.23 3.38 3.64 1 AW70 0.53 0.51 LA 3.60 -L23- 4.05 -L.64 5Q4L- SI II- _l A W70 0.12 0.11 1 L 3.OOX 3.38 X 5047 HF I AW70 .09 0.09 .08 1 MW MA 2.20X 2.48X WYSE .00 A .71 A 4562 0 C CAKI 0.08 0.08- -0.09 -Q..Q9 .. 5-056 SI II AH7Q ±0h 0.06 .06 4571.20 ( MG I ) C CAKI 0. 17 0.17 0. 19 0.19 5074 N II WYSE 00 A 74 A 4607.00 (FF III) C CAKI 0.69 0.69 0.76 0.76 5092 A W70 ,10 0.10 09 0.09 462 C C CAKI Q. 05 0.05 0.05 0-05 5131 AW70 -22 0.22 20 Q.2Q 4626.00 I I l C CAKI 0.07 0.07 0.08 0.08 WYSE .00 A 67 A 4635.20 III l C CAKI 8.39 5.73 9. 12 6.23 5145 (FE VI ) 1 AW70 .14 0.14 13 _2_ 10.00 -10.87 5153 WYSF -on a A AW70 3.08 3.35 6.23 5158 (FE VIII 1 A W70 .17 0.17 15 LA 12.40 13.47 5168 WYSE .00 A 62 A NGC 2440 (PK NO. 234+ 2 1) NGC 2440 (PK NO. 234+ 2 1) 538 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued -NGC -2MQ (PK..NQ^.234±-¿ 11 - NGC—2.440 ( RK -Nn^..?14t ? H WAVE IDENT N RG REF OBS I AVE O CORR I AVE C WAVE IDENT N RG REF OBS I CORR I AVE C 5176 (FE VI 1 AW70 0.18 0.18 0. 16 0.16 6363 (01)1 S BR 9.90* 6,49* WYSE 5.00 A 4.52 A WYSE 30.00 A 19.67 A 5186 WYSE 5.00 A 4.50 A 6364 MW MA 16.00 16.00 10.49 5191 AW70 0.46 0.46 0.41 0.41 6403 WYSE 3* 00 A -U9§_ 5192 3 WYSE 5.00 A 4.49 A 6435 (AR V ) 1 00 A 6.46 A 5198 (N I ) 1 A W70 7.50 24.31 6.73 21.81 6498 1 40* 6.63* 24.3 L- 17.40 _gR_ 30* 3.38* 1l Fl BR F2 BR -61. 19.40 IQ 24.31 _54l £û_ ¿1.81 21.81 6501 WYSE ,00 A 1.91 A l F3 BR 9.26 24.31 8.30 21.81 6548 (N II ) 1 Fl 8R 1057 50 748.60 666.48 471.80 _J WYSE.. 3Q.QQ-A-, 26.90 A F 2 BR 411 40 748.60 259.28 471.80 5200 AW70 5.90 5.29 F3 BR 321. 50 202.62 471.80 5207 WYSE 3.00 A 2.68 A PE BR 2182. 00* 1375.18* - 5212 WYSE 3.00 A .68 A S BR -43-L.6Q* 2L2.QI*-. 5232 (FE VI ) l WYSE 3.00 A 2.66 A SI BR 1204. 00 748.60 758.81 5236 AW70 0.07 0.06 W 0, 76* 0.48* 5252 WYSE . 3.QQ-A .6? A WYSE 23Q.QQ A - 14jt.95—A 5270 (FE III) AW70 0. 10 0.10 0.09 0.09 6563 FI BR 546. 00 554.07 342.95 348.02 5277 (FE VII ) AW70 0.07 0.07 0.06 0.06 F 2 BR 410. 00 554.07 257.53 348.02 5278 (FE VI ) WYSE 3.00 A 2.62 A F 3 BR -340*30 554.07 20.75 . 348.02 5278 WYSE 3.00 A 2.62 A PE BR 2182. 00* 1370.55* 5286 WYSE 3.00 A 2.62 A S BR 309. 90* 194.65* 53Q3 WYSE . 2*00 -A... 1.74 A SI BR 920. 00 554.07 -.517.87 3.48.02 5309 (CA V ) AW70 0. 13 0. 11 CAM 1. 00* 0.63* 5323 (CL IV ) AW70 0.20 A 0.17 A VV5 2515. 00 A 1579.72 A 53.87 WYSE . 1.00 A 0.85 A 1.00* 0.63* 1 AW70 7.70 6.48 WYSE 270. 169.59 A 1 F3 BR 3.00 A 2.52 6563 (N II ) 2 VV5 2515. 1579.72 A i-Si 36.QQ 18.23 30.27 15.33 6583 _LN II ) 3 PE BR 2182.00* -136.4.41* 1 MW MA 11.00 9.25 SI BR .00 2758.00 1724.58 17 WYSE 25.00 A 21.02 A CAM .90* 2.44* 5426 (FE VI_L J WYSE 4. on A .35 A ..30* -2.06* (CL III) 1 AE2 0.74* 0. WYSE 810. 00 A 506.49 A 1 AW70 1.05 0.86 6614 WYSE 6. 00 A 3.73 A _L_ WYSF 4. QQ A -3-.26— 6678 £ BSJ 3LÜ. -4jQ4 1 8.65* (CL III) 1 A AE2 1.00* 0.81* S BR 11. 7. 13* AW7 0 1.15 0.93 MW MA 12. 12.00 7. 36 WYSF 4-00 A 3.24 A HYSF 4.91 A 5563 1 WYSE 4.00 A 3.21 A 6713 ( S- II ) 2 MW MA .70 26.01 5577 1 Fi BR 40.60 26.12 32.48 20.90 6717 ( S II ) 1 8 AE2 . 66* 0.40* 1 -F2 BR 23*40 74. 1 2 1 8. 72 70.QQ 170.69* 1 F3 BR 22.90 26.12 18.32 20.90 FI BR 122, 97.60 74. 51 59.41 l SI BR 17.60 26.12 14.08 20.90 F2 BR 45. 97.60 27.94 59.41 -J WYSE JL- JL3- Bfi- 22. 58 59.41 5592 □ IV A W70 0.24 0. 19 PE BR 57, 00* 34.70* 5592 0 III WYSE 5.00 A 3.98 A S BR 73. 00* 44.44* 5604 IK VI ) WYSE 4.00 A 3. 17 A 11-2. 62 5634 WYSE 5.00 A 3.94 A 6723 ( S 11)1 WYSE 12. 00 A 7.30 A 5702 WYSE 4.00 A 3.10 A 6730 ( S II ) l A E2 1. CO* 0.61* -573-4- WYSE 4.00 A 1_ _U_SL JOt. 191.69* 1 A W70 28.00 21.37 FI BR 121. 40 86.08 73. 71 52.27 l F BR 24.90* 19.00* F2 BR 54. 53 86.08 33.11 52.27 1 -Fl B-R 26.70— -E3 Rfi- 1-SU67- 52*7 7- l F2 BR 11. 90 23.35 9.08 17.82 PF BR 57. 00* 34.61* 1 F3 BR 10. 10 23.35 7.71 17.82 S BR 56. 40* 34.25* _i s añ- 12. 90*. 9.85* S.1 BB- 136. -00 R6.08 . . a2.-58 SI BR 37.40 23.35 28.54 17.82 MW MA .70 25. 93 MW MA 28. 00 23.35 21.37 17.82 6827 F BR .00* 11.92* WYSE 50.00 A 38.16 A BR .00* 10.13* AW70 21.00 15.54 6835 BR .60* 5.72* F BR 23.30* 17.24* BR .60* 6.91* FI BR ¿3.J-2Q 11*7.2 , 12*16_ 13.11 -Efi- *3.0 *— 9.66* l F2 BR 13. 50 17.72 9.99 13.11 S 27, 50* 16.29* 1 F 3 BR 9.91 17.72 7.33 13.11 F 19. 20* 11.20* 1 PE BR 18.40* 13.61» _s aß_ —36-1 20* 21.11* 1 S BR 11.70* 8.66* F RR 80*A 4. 52*A l SI BR 24.00 A 17.76 S BR , 80*A 8.00+A 1 MW MA 21.00 17.72 ..ll*5fr- 13.11 7065 f l3_P* -13... 87* WYSE 3 0.00 A 22.20 A ( AR III) 1 F BR 42, 00* 23.68* 5885 WYSE 4.00 A 2.95 A PE BR 60, 00* 33.83* 58900 3428 0 III C AKI 3.00 3.00 5.86 5.86 KA2 100.00 100.00 100.00 100.00 E AKI 3.00 3.00 5.86 5.86 (0 III) DDK 270.00 236.00 268.69 234.85 3444 0 III C AKI 20.00 24.00 38.76 46.51 KA2 202.00 236.00 201,02 234.85 1 E AKI 28.00 24.00 54.26 46.51 4991 (0 I II ) l CLZ2 750.00 750.00 745.17 745.17 3691 H I 1 E AKI 1.30 1.30 2.25 2.25 5007 (0 I II) l DQK 72 0.00 720.00 714.76 714.76 363.7 _ü I_ _J C AKI .80 2.QG . 1.38 3.45 6548 (N II ) I DQK 0.76* 0.70» E AKI 3.20 5.51 CLZ 2 285.00 285.00 264.08 264.08 2 C AKI 1.70 2.92 l A DQK 1.00* 0.93* _2 E AKI -3t2iL 5-t.39.. . 6-5-15 _LN Il J 1 CU2 7QQ.QQ- 700.00 648.33 648.33 HE I 2 C AKI 1.70 2.92 6584 (N 11)1 A DQK 2.43* 2.25* 2 E AKI 3.20 5.49 6717 ( S 11)1 A DQK 0.22* 0.20* 3712 _H I_ 1 C AKI 1. 10 2.4Q 4*10..- ■ 6731 _LS II J l A DQK 0. 17* 0.16* E AKI 3.70 6.33 Z12Z C AKI 4. 70 8.00 REGION KEY (REG ION.REFERENCE,EXPLANAT ION) F AKI 6.00 10.21 A. DQK . MEAN OF 19 MEASUREMENTS. BOTH LOBES 3722 ( S II) 2 E AKI 6.00 10.21 B, DOK , MEAN OF 5 MEASUREMENTS, SOUTH LOBE 3722 lfl - (NE IIP 1 KA2 - 28.00 35.71 35.71 P III C AKI 4.90 4.80 8. 19 8.02 3967 (NE III) VV5 3.80* .73* E AKI 4.70 4.80 7.85 8.02 3970 2 VV 5 3. 80* 4.72* H T C AK I _5. LQ_ _ 5.32 8.47 EL.BQ.- 4340 2 W5_ ■3.20* 3.63*- F AKI 5.50 5.30 9. 13 8.80 (0 III) l KA2 9.00 A 10.15 A C AKI 5.70 7.10 9.35 11.64 2 VV5 3.20* 3.61* E.-A-K .1— _8.50- - 7.1-0 - 13.-94 11-.64— NF T 1 VV5 J.flOL* 1.98* 3819 HE T F AKI 2.00 2.00 3.24 3.24 KA2 95.00 95.00 99.18 3835 H I C AKI 7.70 8.30 12.37 13.34 VV5 10.00* 10.44* E AK 1 - 8.90. B. 30 14.30 1 3.34 3868 (NE III) 1 C AKI 56.00 5 5.00 88.42 86.84 1 0063 100.00 100.00 100.00 100.00 1 E AKI 54.00 55.00 85.26 86.84 (0 III) 1 KA2 170.00 170.00 166.64 166.64 H I 2 15.90 - 24_83 ■ C A-K T - E AKI 16.00 24.98 (0 III) 1 0D63 407.40 407.40 395.37 C AKI 15.90 24.83 2 VV5 31.00* 30.08* A-K. ! - 16. 00 24.98 3967 (NE III) E AKI 28.00 28.00 42.19 42.19 NGC 2610 (PK NO. 239+13 1) 3970 H I E AKI 16.00 16.00 24.08 24.08 4026 HE I f. AKI ?- 4n 3.5? 1 E AKI 2.50 2.45 3.66 3.59 l C AKI 3.10 4. 10 4.45 5.89 BEGIN NGC 2792 IPK NO. 265+ 4 1) 0.69 (RADIO—H BETA) -J F AKT -5..ÍQ. Z—3? . 4076 ( S II) l C AKI 2. 10 2.3 0 3.00 3.29 WAVE IDENT N OBS I CORR 1 E AKI 2.50 2.30 3. 57 3.29 3727 (0 II ) l 26.00 41.77 4097 N UU_ J C—AK 1 _ 1.80 . 1« B.Q 2 >55 2.55 . 3 868 (NE ILL) J_ h 1 -00 91.85 AKI 1.80 1.80 2.55 2.55 3970 27.00 38.94 4101 H I AKI 23. 10 22.55 32.63 31.85 3970 (NE III) 27.00 38.94 AKI 22.00 22.55 31.07 31.85 4101 H I AF 22.00 29.98 4200 HE I I AKI 3.00 2.55 4.04 3.43 4340 H I AF 51.00 63.00 AKI 2. 10 2.55 2.83 3.43 4363 (0 III) 51.00 62.43 4340 H I AKI 39.60 -39.JLÎ.Q 50.13 49.75 4471 HE I AF -8.QG- 93.50, 8.QQ 9.40 39.00 39.30 49.37 49.75 4686 87.00 93.54 100.53 4363 ( C I 11 ) 1 C AK I 15.00 15.00 18. 80 18.80 100.00 93.50 107.52 100.53 15.011 15.00 18.80 18.80 4712 (AR IV ) 2 14.00 14*J9 HF I 1 C AK I 2.40 3.45 2.87 4.13 4740 (AR IV ) 2 AF 14.00 14. 71 1 F AKI 4. 50 3.45 5.39 4.13 4861 I 1 AF 100.00 100.00 100.00 100.00 45.41 HE II _1 C AM— 1 » 70. 2.35 1*97 WB 100.00 100.00 100.00 100.00 E AKI 3. 00 2.35 3.48 2.73 4959 (0 I 11) l 400.00 400.00 386.78 386.78 C AKI 2.70 2.50 3.00 2.78 5007 (0 I II ) 1 1220.00 1220.00 1159.98 1159.98 E AKI 2.30 2.50 2.55 2.78 N III 1 C AKI 3.70 3.95 4. 10 4.37 NGC 2792 (PK NO. 265+ 4 1) 1 E AKI 4.20 3.95 4.65 4.37 4686 HE II _L C AKI 58. QG ...52>30 62.89 5ÍL.92- 1 E AKI 47.00 50.96 56.92 2 C AKI 7.00 7.50 BEGIN NGC 2818 (PK NO. 261+ 81) C = 0.25 (RADIO-H BETA) 2 E AKI , 30 8*89 4713 HE I 2 C AK I 7.00 7.49 WAVE N RG REF OBS I AVE O CORR I AVE C 2 E AKI 8.30 8.89 4340 l J 45.00 45.00 48.58 48.58 4740 (AR TV ) .1 C. AKI.. 5.2Q 5.80 5.50 6.13 4363 _LQ III) 1 3Q.QÜ . 30. QQ 32.28 37. AKI 6.40 5.80 6. 76 6.13 4686 J 78.00 78.00 80.08 80.08 C AKI 100.00 100.00 100.00 100.00 4861 J 100.00 100.00 100.00 100.00 E AKI 100.00 100.00 100.00 . I o.Q.t..O-0— QD63- 100.00 .JJJQtG-O 100.00 100.00 1 PE AKI 100.00 100.00 100.00 100.00 4959 (0 III) J 265.00 265.00 261.79 261.79 1 0D6 3 100.00 100.00 100.00 100.00 5007 (0 III) J 617.00 896.00 605.83 879.77 49.59 _LQ IIP _l C-AKJ 356.00 374.00 -342*90 36Q.*23 —QP63- 1175.00 896.00 1153*72 879.71- F AKI 356.00 374.00 342.90 360.23 6548 (N II ) 3 483.00 399.74 PE AKI 410.00 374.00 394.91 360.23 6563 483.00 399.19 ■-5ÜQZ- _LQ LLLL 1 PF AKI 1213.00 1236.00 1146.60 L 168.34 6583 (N II ) 3 483.00 -39.8a.45— l 0D63 1259.00 1 1190.09 1 6717 (S I ) 2 126.00 102.81 5517 (CL III) 1 A AE2 1.50*A 1. 16*A 6731 (S II ) 2 126.00 102.69 5537 -ILL LLP J A—AE2 1.QQ* (L>2Z* 6717 ( S I I ) 1 B AE2 0.63* 0.34* NGC 2818 (PK NO. 261+ 6730 (S I ) B AE2 1.00* 0. 53* REGION KEY (REG ION,REFERENCE,EXPLANATION) A, AE? , REGIONS A AND B ON DIFFERENT SCALES BEGIN NGC 2867 (PK NO. 278 -5 1) 0.44 (RADIO-H BETA) C « —A KI a CENTER DF NEBULA AKI EDGE OF NEBULA WAVE IDENT N RG REF OBS I CORR I PE, AKI PHOTOELECTRIC CBSERVATIONS 3727 (0 II ) 1 AF 86.00 116.36 3797 1 AJE 4aOQ_ 5_.31 NGC 2452 (PK NO. 243 -1 1) 3835 AF 6.00 6.00 7.87 7.87 3868 (NE III) l AF 96.00 96.00 124.63 124.63 NGC 2867 (PK NO. 278 -5 1) 540 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued NGC 2 867 (PK NQ.-278 -5 1) NGC 3132 (PK NO. 272*12 1) WAVE IDENT N RG REF OBS I AVE 0 CORR I REGION KEY (PEG I ON,REFERENCE» EX PLANATION) -3-97 Q_ _2 A£ 31.QO 39.. I5_ C. AKI , CENTER OF NEBULA 3970 (NE III) 31.00 39. 15 E, AKI , FDGE OF NEBULA 4026 HE I 2.00 2.00 2.49 2.49 -4J.6.8— _LS LL -L A-E_- 4.00 4.00 4. 92 - -4.92- END NGC 3132 ( PK NQ. 11Z±XZ 1) 4101 AF 24.00 24.00 29.23 29.23 4340 AF 41.00 41.00 46.91 46.91 4363 _LQ III) 1 Af LQj»-QQ— 1 0-00 .11-^.8 - 11.38— 4471 HE I AF 4.00 4.00 4.43 4.43 BEGIN NGC 3195 (PK NO. 296-20 1) 0.09 (RADIO-H BETA) 4541 HE II AF 3.50 3.50 3.81 3.81 4686 HE II -Af 32.QQ_ 36.85 33.51 38. SO AVE O CORR I AVE C 1 WB 41.70 43.67 3727 (O II ) AF 270.00 287.23 4712 (AR IV ) 2 AF 4.00 4.16 3868 (NE III) AF 68.00 71.73 4740 (AR IV ) 2 AF 4. 00 4.13 3-970- (NE J H L.2- Af— 20.00 20 .-98 AF 100.00 100.00 100.00 100.00 3970 H I AF 20.00 20.98 WB 100.00 1 CO.00 100.00 100.00 4101 H I AF 29.00 29.00 30. 19 30.19 .4959 -JLÜ HI) _A£_ 480.00 480.00 469.82 469.82 4340 H T 1 AF 35-.-QQ. 35.QQ 35.98 35.98 ( 0 I II ) 1 1470.00 1470.00 1423.47 1423.47 4363 (0 III) 5.00 5.00 5. 13 5.13 4686 HE II 20.00 20.00 20. 19 20.19 NGC 2 867 (PK NO. 278 -5 1) 4861 H I_ 100.00. 1-00.00 1 no.on 1 WB 100.00 100.00 100.00 100.00 4959 (0 III) 1 AF 176.00 176.00 175.23 175.23 5007 LO III ) _1 A£_ 550.00 541.00 546.39 SB7.17 BEGIN NGC 2899 (PK NO. 277 -31) C = 0.74 (RADIO-H BETA) 627.86 587.12 IDENT N RG REF OBS I END NGC 3195 tPK NO. 796-20 11 3425 ( NE V ) 1. 80 B 3.43B 3727 (0 II) RM 38. OOB 63.19B .1068. JNE -III L RM QOB -29..46 B- 3889 I 50B 3.8 BEGIN NGC 3211 (PK NO. 286 -41) C = 0.34 (RADIO-H BETA) 3889 HE I RM 50B 3.84B 3-967. (NE III) —RM— 6QB— 11..27B I DENT. _.N RP—RE£ OBS ( AVF 0 CORR I AVF 3970 .60B 11.26B 3340 (NE V ) 2 32.00 43. 87 4101 . 50B 3.48B 3340 0 III 2 32.00 43.87 4340 . 60R —5.77B 3425 (NE V )—2_ —A F— _73-^Q Q _ 98- 16 4363 (0 III ) RM 30 A 2.86 A 3440 III 73. 00 97. 85 4686 HE I I RM 60B 4.97B 3727 (0 II) 32.00 40.42 4flS] 10.00 A ( NF T T T 1 WB 100, 00 100.00 100.00 3970 H I 2 29.00 34. 74 4959 (0 III) RM 35. OOB 33.76B 3970 (NE III) 2 29.00 34. 74 5006 _LQ_ -LULL 94.77 A 1050.00 1050.00 995.13 995.13 4340 AF 43.00 43.00 47. 72 47.72 5754 (N II) RM 2.70B 1.95B 4363 (C I I I ) 1 AF 17.00 17.00 18.78 18.78 SR7A HE I _ELM_ 2.4DB 1.66B 4640 6300 (P 3.05 l 75.00 65.25 77.73 67.62 6363 (C 0.0 R l 55.50 65.25 57.52 67.62 —LN II L- 1 (AR TV ) 2 6563 I 1 RM 72. OOB 40.96 B 4740 (AR IV ) 2 13.40 13.73 6584 II ) 1 RM 300. OOB 169.68B 4861 H I 1 100.00 1 00.00 100.00 100.00 621 7_ II 1. J RM LZ. OOB 6.57B 100.00 -l-QOUXQ - 6731 (S II » 1 RM 12.C 4959 (P 111)1 AF 530.00 530.00 521.30 521.30 5007' (0 I IT ) I AF 1650.00 1600.00 1609.49 1560.72 END NGC 2899 (PK NP. 277 -3 1) . H B... 155Q.QQ JLGCÛ^QQ- 1511.9-5 1-5 6 ÍU 72 - NGC 3211 (PK NO. 286 -4 1) BEGIN NGC 3132 (PK NO. 272+12 1) 0.25 (RADIO-H BETA) WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE BEGIN NGC 3242 (PK NO. 261+32 1) C = 0.21 (RADIO-H BETA) 3726 (0 II ) 1 AF 420.00 498.80 1 AKI 100. 00 118.76 WAVE IDFNT N RG REE OBS I AVE 0 CORR I AVE 3729 _LQ U ). I A Kl— 100« QQ. 118.71 3132 «9. Q O I I T CAKE 2.30 2.88 45.29 3734 I l AK I 4.00 4.00 4.74 4.74 1 BR A 70.00 36. 15 87.70 45.29 3750 H I l AK I 6.00 6. 00 7. 10 7.10 3187.80 HE I 1 CAKE 3.30 3.30 4. 10 4.10 3771 —H I— _1 AK1 .00 7.00 8 .-25 8-.Z5 - -3203«10- HE II -1 CA KF 8.30 14.15 -LQ.3Û 17.56 3797 H I AK I 8.00 8.00 9.39 9.39 1 BP A 20.00 14.1 5 24. 83 17.56 3819 HE I AK I 3.00 3.00 3.51 3.51 3211 0 CAKE 0.30 0.30 0.37 0.37 3835 10.00 10.00 . 11 t_fe6 -lU.fr.6_ 3218..QQ _Q LL_ _1 0.30 0.37 (NF III) _1l A Kl. AF 160.00 1 16.00 185.58 134.54 3234.00 S T11 1 CA KJ CAKE QjlOQ— 0.40 0.40 0.49 0^37 0.49 1 AK I 72. 00 1 16.00 83.51 134.54 3241.70 (NA IV ) l CAKE 0. 30 0.3 0 0.37 0.37 3889 2 AK I 25.00 28.89 3261.00 O III 1 CAKE O* 40 . _a..4Q_ 0.4.9 0.49 3889 HE I 2 AKI 25. 00 28.89 3265.40 O III 1 CAKE 0.40 0.40 0.49 0.49 3967 (NE III) 1 AK I 30.00 34.27 3287.00 O II l CAKE 0.20 0.20 0. 24 0.24 3.9 7Q _ H I 2 40.00 45.68 3299.30 Q LLL_ _lAF— CAKJ— 5.50 5.50 -6.12 6.72 18.00 20.55 3312.30 0 III l CAKE 10.80 I C.90 13. 18 13.30 3970 (NE III) 40.00 45.68 l BR A 11.00 10.90 13.42 13.30 4026 HE I AK I U-8-Q- 4.80. 5.43 U-43 . 3340.-80 Q LUL J C A KJ 14.40 14.40 -17.50 -17 UQ (S II ) 1 8.00 7. 15 9.00 8.04 3345.90 (NF V ) 1 CAKF 0.0 0. 0 1 AK I 6.30 7.15 7.08 8.04 2 BR A 16. 00 19.43 (S II ) 1 AKI 4. 50 4.50 5.05 5.05 3346 _0 LU— 2 BP A -16.QQ 19.43 l AF 23.00 24.50 25.73 27.41 3355.00 HE l 2 CAKE 0.20 0.24 1 AK I 26.00 24.50 29.08 27.41 3355.00 NE II 2 CAKF 0.20 0.24 . .41.40. __ü I_ _J AJE— 33.00 . 36.50 35.63 39.40 _ 34.05.1Æ. JQ L1I_ _1 CAK-E— -Q.-3Q -0.30 Q. 36 0.36 1 AK I 40. 00 36.50 43. 18 39.40 3410.00 2 CAKF 0.20 0. 24 1 AF 5.00 5.75 5. 38 6.19 3410.00 0 IV 2 CAKF 0.20 0. 24 -L AK.I 6.50 _ 5.75_ 6.99 6.19 3415.20 Q— III CAKF -Q«¿0 0.77 4471 HE I AKI 5. 80 6. 15 3425.97 (NE V ) 1 CAKF 0.0 0.0 4541 HE II 1 AKI 2.00 A 2.10 A 2 BR A 5.50 6.60 4¿AQ - _N III J AKI 2.00 A 2.07 A JLOS— 31 .QQX 37.77 X 27.00 A 27.72 A 3425 III 2 BR A 5. 50 6.60 24. 00 24.64 24.64 3444.00 III I CAKF 0.0 I 6. 50 0.0 19.76 471 1 (AR IV ) 2 —Alt I— 5.11 1 BF—A. . 33.-QQ 16.50 39.52 -19U6 4713 HE 2 AKI 5.00 A 5.11 A KOS 31.00X 37.13X 4740 (AR IV ) 1 AKI 2.00 A 2.04 A 3530.60 HE 1 CAKF 0. 10 0.10 0. 12 0.12 4-861 - H I _1 AF -100.QQ 1QQ.QQ 100.00 3554.30 1 CAKF 0. 20 Q «24 l 100.00 100.00 100.00 100.00 3568.50 NF II CAKF 0. 10 Û.10 0. 12 0.12 1 100.00 100.00 100.00 100.00 3574.30 NE II CAKF 0. 10 0. 10 0. 12 0.12 _LQ III ) -L- 330.QQ 293.50. 326.« 01 -289^95 3587.30 CAKF 0.30 -0.35 257.00 293.50 253.89 289.95 3591.00 C II 1 CAKF 0. 10 0. 10 0. 12 0.12 1020.00 935.00 1001.53 918.07 3591.00 C II 1 CAKF 0. 10 0. 10 0.12 0.12 85Q.0Û - 935.00 834.6l1 91 8-.07 3600.00 HF T 1 CAKF 0. OR _Q..Q9 Q.Q9 3604 0 CAKF 0.08 0.08 0.09 0.09 NGC 3132 (PK NO. 272 + 12 1) 3613.60 HE 1 CAKF 0. 10 0. 10 0. 12 0.12 -3619 0 CAKF Q . 05 Q.Q5- Q. 06 0.06 NGC 3242 (PK NO. 261+32 l) 541 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. TABLE 8—Continued NGC 3242 (PK NQ. 261+32 1) NGC 3242 (PK NQ. 261 + 32 11 WAVE N RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REf OBS I AVE 0 CORR I AVE C . 36.3J? O CAKF Qt IQ... Qt.Lfl. Q.i2 0.12 4186.90 -C III -1 CAKF _ Q.2Q_ Q.2J1 0.22 0.?? 3634 20 HF I l CAKF 0. 30 0.30 0.35 0.35 4189.80 0 1 CAKF 0.05 0.05 0.05 0.05 3671.5C 1 CAKF 0.46 0.46 0.54 0.54 4195.60 N 1 CAKF 0.03 0.03 0.03 0.03 3673. lil _L CAK.E_ .53 _Q. 53 0.62 Qjl62_ 4199.90 Hg. I 1 CAKF .13.70- -0.70 0.76 Q-.J6 3676, CAKF 0.52 0.52 0.60 0.60 4227.40 (FE V 1 CAKF 0. 20 0.22 3679. 1 CAKF 0.60 0.60 0.70, 0.70 4237.00 N I 2 CAKF 0.03 0.03 3692.8-0- _1 CA K.F— 0.65 0.65 . Q.16 . Q.76- ^237.00 L _2 CAKF Q. 03_ . 0.03 3686 ,80 CAKF 0.86 0.86 1.00 1.00 4241.20 2 CAKF 0.06 0.06 3691 ,50 CAKF 0.93 0.93 1.08 1.08 4241.20 2 CAKF 0.06 0.06 3 69-4 . HF I I CAKF 0.20 0.23 . 436.7. IQ _C L _Jl CAKF Q« 60- 0.80 0.86 Q-.86 3694. 40 ME II CAKF 0.20 0.23 4275.60 I 1 CAKF 0.08 0.09 3697, 20 H I CAKF 1.20 1.20 1.39 1.39 4276.70 I 2 CAKF 0.0 0.09 3703.80 H T CAKF 2.20 2.20 2t 55 ^276*70 12 L _2 CAKF 0* 08- 0.09 3704, 80 HE I 1 CAKF 2.20 2.20 2.55 2.55 4283.30 l CAKF 0.03 0.03 0.03 0.03 3707, 20 O III 1 CAKF 0.30 0.30 0.35 0.35 4294.90 l CAKF 0.05 0.05 0.05 0.05 3712. 1 CAKF 1.75 1.75 2.03 4303.90 _1 CAKF _ -0. 07 0.07 0.07 0.07 3715. 10 0 III 1 CAKF 0.50 0.58 4313.95 0 I 1 CAKF 0.03 0.03 0.03 0.03 3721 90 H I 2 CAKF 2.00 2.31 4317.20 0 I l CAKF 0.06 0.06 0.06 0.06 37.2,1, 90 (S III) 2 CA k_E_ 2.00 2.31 . 4325.80- 1] L 1 CAKF _Û.Û2_ _Q. 02- 0.02 Q.>D2 3726.00 (O II I 1 CAKF 5.80 6.70 4331.40 I 2 CAKF 0.02 0.02 l BP A 17.00 19.64 4331.40 0 I 2 CAKF 0.02 0.02 1 C -KA2- 17.00 19.64 434Q.4Q _H L _1 CAKF 40.50 53.45 _43_^L9 . l W KA 2 21.00 24.26 1 BR A 63.00 67.18 1 OS 1.00* 1. 16* 1 AN 49.50X 52.79X -1 V-V 1- 7. 40* 8.55X _J MI 7 3 47.30 50.44 3728.70 (0 II) 1 CAKF 2.90 3. 35 1 R2 63. 00 53.45 67. 18 1 OS 0. 72* 0. 83* 2 VV 1 70.30X 74.97X 1 CAKF 0. IQ 0- 1 2 4349.40 0 TT _J CAKF . 0.06 3734. I CAKF 2.00 2.00 2.31 2.31 4363.20 (O III » l CAKF 11.00 11.70 3740 II 1 CAKF 0.05 0.05 0.06 0.06 1 AN 15.10X 16.06X 3750. __L_ _L CAKF 2-30 2.30 2.65 .65 . J Sü » - 00* 1 .06» 3754, III I CAKF 0.80 0.80 0.92 0.92 2 VV 1 70.30X 74.76X 3757. III I CAKF 0.20 0.20 0.23 0.23 4379.20 N III 1 CAKF 0.20 0.20 0.21 0.21 3759, I II C_A K F_ 2.80- -2..8J3 3.-22 3.22 4387.90 HF. I _J CAKF 0.45 0.45 0.-48 0-48 3770, I 1 CAKF 2.70 2.70 3.10 3.10 4391.00 1 CAKF 0.04 0.04 0. 04 0.04 3774. III 1 CAKF 0.30 0.30 0. 34 0.34 4408 0 CAKF 0.02 0.02 0.02 0.02 3 78 1.6X3 HE. I I_ -4 C-A-K-E— 0.41 4414.90 _J CAKF 0.06 3791 III CAKF 0.30 0.30 0. 34 0.34 4431.00 NE II I CAKF 0.03 0.03 0.03 0.03 3796. II l CAKF 0. 10 0.10 0.11 0.11 4437.50 HE I 1 CAKF 0.04 0.04 0.04 0.04 J CAKF 3.1-0- 3.85 4.453 _0 CAKF 3805. CAKF 0.06 0.06 0.07 0.07 4458 0 CAKF 0.02 0.02 0.02 0.02 3813. CAKF 0.20 0.20 0.23 0.23 4471.40 1 CAKF 3.70 4.45 3.89 4.67 3819. CAKF n. 70 0. 70 O. 80 0.80 .. 1 PR A -4.45 4.67 3827. 1 CAKF 0.02 0.02 I AN 6 • 00 X 6.30X 3833, 80 HE II 2 CAKF 0.20 0.23 1 VV I 3. COX 3. 15X 3833.80 HF T _2 CAKF— 0.20- 0^23— 4481.20 HG. II _J f.AKF n.n? 3835. 40 H l CAKF 5.40 5.40 6. 15 6.15 4511.00 N III 2 CAKF 0.09 0.09 3839. 60 (FE l CAKF 0. 07 0.07 0.08 0.08 4511.00 (K IV ) 2 CAKF 0.09 0.09 38-5 1. PC 0 U_ -3 CAKF -0 .-02- Q .-02 - 4517.00 _C III J CAKF— n-03 0.03 3851. 10 0 3 CAKF 0.0? 0.02 4523.60 N III 1 CAKF 0.03 0.03 0.03 0.03 3851. 10 (FE 3 CAKF 0.02 0.02 4534.60 N III CAKF 0.06 0.06 0.06 0.06 38-5 8.0-0 HE I I —1 CAKF . -0^-20- Q.-23- HS U -CAKF- 3866 CAKF 0. 11 0.11 0. 12 0.12 4562 (MG I ) CAKF 0.10 0.10 0. 10 0.10 3868. 70 (NE I [T 1 CAKF 73.00 95.00 82.68 107.59 4570.90 MG I CAKF 0.06 0.06 0.06 0.06 1 RP. A 117.00 95.00 1 32.51 107.59 4611.QQ (AR V L_ CAKF . ■0.05. - 0.05 0. 05 0-05 VV 1 181.30X 205.33X 4620.00 C I I CAKF 0.02 0.02 3871. CAKF 0. 10 0. 11 4620.00 n 11 CAKF 0.02 0.02 3838. CAKF 13.40 15. 13 4634.10 N III CAKF 1.80 1.85 VV 1 181.30X 204.73X A 6.60 6.79 3888.80 HE I CAKF 13.40 15. 13 AW7 0 1.30 1.55 1.34 1.59 VV 1 181.3QLX -¿Q4.-J3X . CAKF 2.60 2.75 _2-i_67_ 2.83 3920. l CAKF 0. 08 0.08 0. 09 0.09 2 BR A 6.60 6.79 3923. 50 HF T I 1 CAKF 0.20 0.20 0.22 0.22 l AW70 2.91 2.99 _iL926. 90 HE I _I CAKE- 0.02 0.07 0. OB Q.QB III AH 7 Q— -Q.8I- 0.89 3935 CAKF 0. 04 0.04 0.04 0.04 4649.10 1 CAKF 0. 50 0. 51 3944, II 1 CAKF 0.05 0.05 0.06 0.06 4 AW70 0.87 0.89 39-48-. II- _1 CAKF 0.06 0.07 CE 07 _ 4650 _A AW7Q Q. 87 0.89 3964. 80 HF I CAKF 0. 50 0.50 0. 56 0.56 4651 C III AW70 0.87 0.89 3967. 50 (N^ III) CAKF 22.70 22.70 25.38 25.38 (FE III) 3 AW70 0.30 0.31 2 BR A 50m-QÜ 55. 91 4658.00 __C LV J CAKF Qm 05 Qm 05 Q.Q5 .IE 05- CAKF 10. 70 11.97 3 AW7 0 0.30 0. 31 2 BR A 50.00 55.91 l CAKF 0.06 0.06 _2 VV L- 55« 5QX 62.06X 3 AW70 0.30 Q..31 3970 (NF III) 2 VV 1 55.50X 62.04X 4669 0 CAKF 0.03 0.03 0.03 0.03 4009, 20 HE I 1 CAKF 0.15 0. 17 4676.10 0 I I 1 CAKF 0.06 0.06 0.06 0.06 4026, 00 HE I 2 CAKF U 2.00 46,85.7 0 HE II _ CAKF 32.00 -^36.50 - 32jlJ2_ 37.32 4026. 00 HE TI ? CAKF 1.80 2.00 1 BR A 51.00 52. 14 4041 40 N II 2 CAKF 0.03 0.03 1 AN 59.00 X 60.32X _2 CAKF . 0.03 1E-Q3 _J C KA2 36-00 4056. 00 C III CAKF 0.02 0.02 0.02 0.02 W KA2 27.00 27.60 4060. 20 (FF IV ) l CAKF 0. 10 0.10 0. II 0.11 1 VV 1 27.40X 28.01X 4069,60 (S I L 1 1 CAKF .0.89 0.80 0.^-8 8 Q. 68 4712.00 ( AR, IV ) -2 CAKF 5.20 Su-39 4072, IC II l CAKF 0.40 0.40 0.44 0.44 2 AW70 5.20 5. 30 4076. 20 ( S I I ) l CAKF 0. 20 0.20 0.22 0.22 4712.00 HE I CAKF 5.20 5.30 4085.20 P _Li 1 CAKF 0.06 Q.-Q6 -CE-Q7 (EQ7 AH70 5.20 5.30 4089. 20 I CAKF 0.13 0.13 0. 14 0.14 4725.00 (NF IV ) l CAKF 0.06 0.06 4097 , 30 N III 1 CAKF 1.50 1.50 1.65 1.65 1 AW70 0.22 0.22 4101. 1H b I J CAKF. 22.50 . 2 8.85 24.7? 31 t 70 4740.10 (AR IV ) 1 CAKF 5.00 4.40 5,08 4.47 1 PR A 32.00 28.85 35. 16 31.70 l AW7 0 3.80 4.A0 3.86 4.47 1 MI73 28.90 28.65 31.75 31.70 1 CAKF 100.00 100.00 100.00 100.00 1 R2 32.00 28.65 35. 16 31.70 1 RR A 190.00 -LQ 0.-09 . 100-00 100-00 I VV 1 27.80X 30.54X 1 ACP 100. 00 100.00 100.00 4112. P II 1 CAKF 0.01 0. OL 0.01 0.01 l AN 100.OOX 100.OOX 4120. HF I l CAKF 0. 20 0.20 Q.t.22 _a.22- 1 PE BR -190.-0-9 1QP.PQ -I0pt-00 -■ 1QQ..QQ 4143, 80 HE I CAKF 0.30 O. O. 0.33 1 S BR 3 100.00 100.00 3 100.00 100.00 4153. 30 C III CAKF 0. 0 0.0 0.0 0.0 1 COAL 100.00 100.00 100.00 100.00 4153, 99 Q U CAKF 0.0 P. P. o.o —Gil - i on.on —LO0. HO P 100.00 100.00 4156, 30 C 111 CAKF 0.03 0.03 1 C KA2 100.00 100.00 100.00 100.00 4156. 3 C 0 11 CAKF 0. 03 0.03 1 W KA2 100.00 100.00 100.00 100.00 41 63. ?n (K CAKF 0.0? 0.0? _J KQS 1QQ.QQX 1Q0.QQX 4168, 90 HFr I CAKF 0.05 0.05 0.05 0.05 l MI 73 100.00 100.00 100.00 100.00 4180. 90 (F V CAKF 0. 04 0.04 0.04 0.04 R2 100.00 100.00 100.00 100.00 NGC 3242 < PK NO. 261 + 32 1) NGC 3242 (PK NO. 261+32 1) 542 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued NGC 3242 (PK NO. 26l + 3¿ 1) NGC 3242 (PK ND. 261+32 H WAVE IDENT N RG REF OBS I CORR I WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 4861.00 H I VV 1 100.00X 100.OOX 6949 I S BR 2.10 2.10 1.74 1.74 4922.00 HE I 1 CAKF 0.30 0.51 0.30 0.51 HE I 1 F BR 7. 10* 5.85* 1 AW70 0.72 0.51 0.72 0.51 l S BR 6.60 6.60 5.44 5.44 4931.00 (0 III) J CAKF Q,Q5_ Q.ll Q.Q5 Q.ll 7136 (AR im 1 PE 12*70 14*55 10.43 U *94 l AW70 0. 18 0.11 0. 18 0.11 1 S BR 16.40 13.46 4941 l AW7 0 0.12 0.12 0. 12 0.12 7136 (AR IV ) l F BR 15.90* 13.05* 4959.00 (0 HT ) 1 CAKF 470.00 414.50 415.73L- 410.28 7236 (AR IV ) 1 S 2*20 —2.». 20. 1.80 -1.60 A 590.00 414.50 584.00 410.28 7236 (AR III) 1 F 1.60* 1.31* ACP 307.00 414.50. 303.88 410.28 7263 (AR IV ) 1 F 0.90*A 0.73*A _ALI 340.OOX 336.54X 1.80 mAI 1.47 1 PE BR 420.00 414.50 415.73 410.28 8750 H I J. S GU a£_ 0.72 0. 72 0.54 0.54 1 W KA2 410.00 414.50 405.83 410.28 10830 HE I GU 58.00 58.00 41. 17 41. 1 R2 340.00 414.50 336.54 410.28 1 VV 1 136.90X 135.51X REGION KEY (R EG ION,REFERENCE,EXPLANATION) 4992 1 AW70 0.30 0.30 0.30 0.30 BR, A , BRIGHT RING 5006.90 (Q III ) A CAKF. . 1280.00 1244.50 1260.51 275.55 A. AE2 , REGIONS A AND B CN DIFFERENT SCALES 1 BR A 1350.00 1244.50 132*9.45 1 225.55 F, BR , FILAMENT IN SOUTHEAST PORTION OF OUTER SHELL 1 ACP 1097.00 1244.50 1080.30 1 225.55 PE, BP ♦ PHOTOELECTRIC (FROM ALLER AND CZYZAK 1972, UNPU3.) 1 PE BR 1280.00 ■1244.50. 1260.51 L 225.55 S. BR . INTERFILAMENT IN SOUTHWEST PORTION OF OUTF R SHELL COAL 1445.00 1244.50 1423.00 1 225.55 KA2 , WHOLE NEBULA R2 1015.00 1244.50 999.55 1 225.55 C, KA? , INNFR 27 ARCSEC 100.00* 98.48* 1 VV 1 0.0 XA 1244.50 0.0 XA1 225.55 NGC 3242 (PK NO. 261+32 1) 5015 HE I 1 A W70 0.63 0.63 0.62 0.62 5047 HE T 1 A W70 0.24. H*. 0-74 0.24 5131 1 A W70 0. 14 0.14 0.14 0.14 5191 (AR III) 1 AW70 0.09 0.09 0.09 0.09 BEGIN NGC 3587 (PK NO. 148+57 1) C = 0.01 (RADIO-H BETA) 5199 _ÜÜ I L _L_E ÛE 0.40* 0.39* 5345 AW70 0. 11 0.11 0. 10 0.10 WAVE IDENT N RG REF OBS I CORR I 5411 HE I VV 1 26. 70 26.70 25. 15 25.15 3726 (0 II) 1 M 320.00 322.21 5411 -HE II AU70 5.60 7.23 3.39 2.10 _J A ..OS l.QO* 1.01*- 1 PE BR 2.80 2.23 2.64 2. 10 B OS 1.00* 1.01* 1 S BR 0. 30 2.23 0.28 2.10 C OS 1.00* 1.01* _1 A. AF2 0.80* A-. 75* D QS_. 1.00* 1.01 * AW70 0. 0.40 43 OS 1.00* 1.01* BR 1. 10* 1.03* OS 1.00* 1.01* _B£ 1.00 0.93 1.00* 1.01*- 5537 1 A AE2 i.oo* 0.93* I OS 1.00* 1.01* 1 AW70 0.44 0.41 OS 1.34* 1.35* i—e—afi 0.90* -0^84* 1.3B* 1.39*_ 1 S BR 1.20 1. 12 C OS 1.40* 1.41* 1 F BR 7.20* 6.67* D OS 1.32* 1.33* _L_S û&_ .5.50 5.09 1.27* 1.28*- 5592 0 III AW70 0. 18 0.18 0. 17 0.17 l F OS 1.37* 1.38* 5754 (N II) AW70 0.13 0.13 0.12 0.12 1 G OS 1.30* 1.31* n, un* 0.46* 1.37*- 1 S BR 0.20 A 0. 18 A (NE III) l W KA2 73.00 81. 50 73.43 81.98 5801 1 A W70 0.43 0.43 0.39 0.39 1 M 90.00 81.50 90.54 81.98 5812 -1 -AW7Q. 0.55 . 0.55 0^50 0.50 H T 4). nn 41.27 - 5836 HF II AW70 0.10 A 0.09 A 3970 (NE III) 41.00 41.22 5 864 (MN V ) l AW70 0.50 0.50 0.45 0.45 4101 H I 23.00 23.00 23. 10 23.10 HF T 1 AU7n 7A- 50 71.45 73^89 19.34 -4340- - H T 40.00 - 40.00 40.12 - 40.12 1 F BR 24.10* 21.72* 1 C BDO 1. CO* 1.00* 1 PE BR 11.20 21.45 10. 10 19.34 l N BDO 1.00* l.oo* _l^_s afi_ 70.30 71-44 18.30 . 19.34 _] M i 3. nn i 3. n4 27. 80 25.06 □ D65 1.00* 1.00* 6098 0.60* 0.53* SM 0. 74* 0.74* 0.60 0.53 0.53 4471 HE I W KA2 3.60 3.60 3.61 3.61 6234 0.60* 0.52* 4686 HE II C KA2 21.00 19.43 21.02 19.45 0.60 0.52 0.52 W KA2 10. 30 19.43 10.31 19.45 6286 _S LL 0.30*A 0. 26 »A ..27,00 19.4.3 27.03 - -44 1 S BR 0.10 A 0.09 A 4740 (AR IV ) I W KA2 2.80 2.80 2.80 2.80 6300 HE I l VV 27.80 24. 15 4861 H I ACP 100.00 100.00 100.00 100.00 6300 _L0 I L _L_E Bfi- 3.30* 2.87* 1ÛQ.0Ü inn-nn i no.on -100,00 1 1.20 1.04 l COAL 100.00 100.00 100.00 100.00 l CAM 0.00*A 0.00*A 1 C KA2 100.00 100.00 100.00 100.00 6306 I F BR ' Q.4Q». 0.35* _L w ka.2 100.00 100.00 100.00 100,00 s 0.40 A 0.35 A 100.00 ICO.00 100.00 100.00 1 F BR 2.00* 1.74* 4861 H I 100.00 100.00 100.00 100.00 -LS afi_ 1.70 1.70 1.48 4959 (0 III) ACP 250.00 323.07 249.88 322.92 6357 N II 1 F 0.40* 0.35* l RR 449.30 323.07 449.08 327.92 1 S 0. 10 A 0.0<^ A 1 W KA2 2 53.00 323.07 252.88 322.92 —LO I L 1 F 1.20* . n4* 340.00 323.07 339. 83 -3-22 ,-9¿ 1 S BR 0. 50 0.43 1 ACP 674.00 673.51 6423 l F BR 0.60* 0.52* l C BDO 74.10* 74.05* 6465 -LE BJL - nn* n. 86» _J N BDO 151.QQ* 150*89»— 1 S BR 1.40 1.20 1.20 COAL 645.70 756.57 645.23 756.01 1 F BR 8.30* 7.08* M 950.00 756.57 949.31 756.01 3 PE BR 354.00 301,98 0065 101.00* 1QQ.93*- l S BR 4.30 3.67 SM 100.00* 99.93* 3 PE BR 354.00 301.63 5199 (NI ) 1.20 1.20 _L CAM 1.00* (L85* 5322 (CL IV ) 0.90 A 0. 90 1 M I 73 294.00 250.51 5412 HE I I BR 1.40 1.40 1.40 1.40 2 VV 1 777.00 662.06 5517 (CL III) BP 1.60 1.60 1.59 1.59 6563 —LM II ) 1 CAM 0.01* 0.01* 5538 -LGL. III.L 2,10 2,09 . 2.09 2 VV 777.00 662.06 5577 (0 I BR 25.20 A 25.11 A 1 F BR 21.80* 18.54* 5755 (N II BR 1.90 1.90 1.89 1.89 3 PF BR 354.(10-. 3QL14 5876 HE I BR 12.30 12-30 1?. 74 1? .74 1 S BR 5.90 5.90 5.02 5.02 5914 HE II 1.20 A 1.19 A l F BR 10.30* 8.71* 5932 HE II 2.00 1.99 1.99 _LS 8B_ LQ. 8.0 10.80 9.13 9.13 5953 HE II 2.20 7.19 2.19 (S II ) 1 0. 51* 0.43* 5977 HE I I 1. 1.80 1.79 1.79 1 F BR 2.60* 2. 19* 6005 HE II 1. 30 1.30 1.29 1.29 .6710— _LS LI 1- J B—AE2 1.00* D-*84* 6098 1.00 A 0.99 A 1 F BR 3.40* 2.86* 6234 BR 3. 70 3. 70 3.68 1 S BR 1.00 0.84 6254 BR 1.30 1.30 1.29 . l—E Bfi_ 0.70* fl* 59* 6286 _i LL B£_ 1.40 1.40 1.39 . 1.39 1 S BR 1.50 1.26 6300 (n i BR 11.60 A 11.52 A 1 F BR 0.50* 0.42* 6306 s 11 BR 3. 70 3.70 3.68 3.68 1 -S ,09 6310 ( s ni ) BR 3,40 3.40 3 ..IB -3-*18„ 1 1.20* 1.00* 6345 BR 2.50 2.50 2.48 2. 1 S 1.70 1.42 6347 BR 1.90 1.90 1.89 1.89 NGC 3242 (PK NO. 261+32 1) NGC 3587 (PK NO. 148+57 l) 543 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued NGC 3587 (PK NtL^14B + 57 1) .. (PK NO, 294+ 4 l) WAVE IDENT N RG REF OBS I AVE 0 AVE C WAVE IDENT N RG REF OBS I CORR AVE C 6357 LL_ 1 BR 3.8a 3.8Q.. 3.77 .191Q (NE III> 2 A£ 4¿.QQ_ 5A.V7.. 6364 (01 ) BR 3.70 3.67 2.00 2.39 2.39 6371 SI II BR 2.90 2.90 2.88 EV 1.50 1.79 6423 BR 2.8.Q. 2.8Q- (S II I 1 AF StOOL. _^92 -P.»9_2 6465 3.20 3.20 3.18 3.18 EV 1.50 1.78 6498 3.50 3.50 3.47 3.47 4097 N III 1 EV 3.00 3.53 .6548 _JLN Li—L 30. 5Q 30.50 . 3fl.27_ -30.21- 41Q1 H.I L_ AF 28.QP _¿8.QQ. 32.90 32.9Q 6563 463.60 463.60 460.08 460.08 1 EV 20.00 23.50 6584 ( N II BR 126.40 126.40 125.43 125.43 4199 HE I I 1 EV 1. 50 1.72 6678 HE-.L BR 6.90 6.9.0 6. ñ4 4267 _£ U L_ EV ^Q_ 6717 II ) 20.10 20. 10 19.94 19.94 1 AF 46.00 51.36 6731 II ) BR 16. 10 16.10 15.97 15.97 l EV 29.00 32.38 6827 &£. 6.80 _ 4554 1 PG HAC 1.70 A 1.76 A 4659 C IV 1 PG HAC 2.00 2.05 4.685 HF I I L_ 25..QQ» 25.81* P HAC 138.00 118.00 140.79 120.39 BEGIN NGC 5979 (PK NO. 322 -5 1) = 1.39 (RADIO-H BETA) PG HAC 101.00 118.00 103.04 120.39 KA2 115.00 1 18.00 117.32 120.39 AVF □ CORR I AVF VV 5 35.00* 35. 71* 4340 H I 48.00 48.00 73.47 73.47 (AR IV ) 4 P HAC 14.30 14.55 4861 H I 100.00 100.00 100.00 100.00 2. PG HAC . 8.90 9.05- —5-007 - -CO III) 1050.00 1050.00 948. 54 948.54 4713 P HAC 14.30 14.54 PG HAC 8.90 9.05 NGC 5979 (PK NO. 322 -5 1 ) 477«; (NF TV ) 4 HAC 14.30 14. 52.. PG HAC 3.20 3.25 (AR TV ) 4 P HAC 14.30 14.50 L Pf» HAC 6.60 —6.69— BEGIN NGC 605 8 ( PK NO. 64+48 -D 0.20 (HYDROGEN L INES) KA2 6.10 6. 18 A 60.00* 60.00* WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C P HAC jno.nn 100.00 -3203 - HF I T 1 AV ACPG 37.76 -37.76- —46.39 46.39 PG HAC 100.00 100.00 100.00 100.00 3727 (0 II ) 1 AV ACPG 5. 38 6. 17 KA2 100.00 100.00 100.00 100.00 3729 (0 11 ) 1 AV ACPG 3.34 3. 83 -1-00.00- 100.00 - 100.00 100.00 1 AV ACPG I II ) 3 60.00* 59.45* 3755 III 1 AV ACPG 4.43 5. Oö 5.06 1 90.00 94.50 89.17 93.63 3759 III 1 AV ACPG 3.92 4.48 4.48 1— 99-nn 94.5 0 .98.09 93.63 3770 - J 1 AV ACPG 150.00* 148.62* 1 B ACPG 4. 12 4.56 4.70 5.20 (O I II ) 3 60.00* 59.17* 1 AV ACPG 4.84 3.43 5.50 3.90 1 .275^00 iln-ns 271.21- -J a.J^f.P.G -2-.Q2 -3.43- 7.30 3.90 0062 346.70 341.93 3835 AV ACPG 6.01 5.49 6.80 6.21 2 VV5 150.00* 147.93* B ACPG 4.97 5.49 5.62 6.21 6563 I 2 VV 5 117.00* 101.22* 3868 (NF III) ACP 90.90 90. 17 102.35 101.53 6563 II ) 2 VV5 117.00* 101.22* AV ACPG 97.60 90.17 109.89 101.53 B ACPG 89.20 90.17 100.43 101.53 REGION KEY (PEG ION.REFERENCE.EXPLANATION) 83.QQ 90. 1 7 93.45 101-53 HAC » PHOTOELECTRIC 3 VV5 79.00 88.95 HAC , PHOTOGRAPHIC 2 AV ACPG 25.50 28.63 _2 B - ACPG 15.50 17.40 NGC 4361 (PK NO. 294+43 1) 3 VV5 79.00 88.69 2 AV ACPG 25. 50 28.63 _2 B- ACPG 15.50 17.40 3 VV5 79.00 8.69 BEGIN NGC 5189 (PK NC. 307 -31) C = 0.82 (RADIO-H BETA) 2 ACP 43.80 48.72 L. AV-ACPG ¿9.70 28.65 33.04 31.87 WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C ACPG 27.60 30.70 3727 (O II ) 1 RM 0.0 B 0.0 0.0 B 0.0 VV5 50.00 55.62 3868 (NE III) 1 Q.Q B 0^0 0.0 B 0.0 3970 —H L_ _A£P 43. 48.71 3967 (NF I II ) 2 RM 0.0 B 0.0 0.0 B 0.0 1 AV ACPG 31.70 26.00 35.25 28.91 3970 HI 2 RM 0.0 B 0.0 0.0 B 0.0 1 B ACPG 20.30 26.00 22.57 28.91 4861 ti I 1 ÉLM— 1Q.QQB IQ.QQñ _2 y 37.00 41.14 4959 (O III) 1 RM 62.00R 59.57B 2 50.00 55.60 5007 (O III) l RM 180.OOB 169.53B 3970 (NE III) 2 37.00 41.14 6548 (N II ) 1 B_M ¿¿.OOB . 11.83-B 4026 HF I 1 AV ACPG 4.25 4.69 6563 I l 41.OOB 21.94B l AV ACPG 23. 10 23.23 25.27 25.41 6584 II ) l 43.OOB 22.87B 1 B ACPG 27.60 23.23 30. 19 25.41 _L_ LSj.QQ 23.23 20.78 25.41 END NGC 5189 (PK NO. 307 -3 1) 2 ACP 113.00 120.14 1 AV ACPG 44.20 44.60 46.99 47.42 -J 8 ACPG 51.20 44.60 54.43 47.47 41.00 44.60 43. 59 47.42 BEGIN NGC 5307 (PK NO. 312+10 1) 0.59 (RADIO-H BETA) 42.00 44.60 44.65 47.42 VV 5 68.00 -J-2*.3Q WAVE IDENT N RG REF OBS I CORR I AVE C 2 ACP 113.00 119.82 3727 (O II ) 1 AF 24.00 36.00 1 AV ACPG 14.80 21.20 15.69 22.48 3868 (NE 111)1 AF 89^-00 . 89.0.0 126.22 126.29 _1 8 ACPG 16.80 ¿1.20 . 22.48 3970 H I 2 33.00 45. 13 C 32.00 33.93 3970 (NE III) 2 AF 33.00 45. 13 2 VV5 68.00 72. 10 4101 td I 1_ AF 7 1 .00 21.00 27.36 1 AV ACPG 6-45 4340 HI 2 AF 54.00 64.69 1 ACP 93. 50 73.88 95.49 75.45 4363 (O I II ) 2 AF 54.00 64. 19 l AV ACPG 62,80 73.88 64. 13 75.45 4471 HE I 1 A£ 5,00 5. 74_ 5,74 _1 B ACPG 6-5. QQ 73.88 66.38 75.45 4686 HE II 1 26. 00 26.00 27.66 27.66 C 83.00 73.88 84.76 75.45 4861 H I l 100.00 100.00 100.00 100.00 M 46.00 73.88 46.98 75.45 4959 (O MI) 1 400,00 400.00 3B8.67 3B8.67 VV5 93. QQ -73.88- -94.98 75.45 (0 I II ) 1 1230.00 1230.00 1178.07 1178.07 l ACP 100.00 100.00 100.00 100.00 l AV ACPG 100.00 100.00 100.00 100.00 _ENß NGC 5307 ( PK NO. 312 + 10 1) NGC 6058 (PK NO. 64+48 1) 545 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. TABLE 8—Continued 546 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued NGC 62IQ I PK NQ. *3t37 11- NQC ^2.10 ( EK_Nfl. 43t37_L) WAVE IOENT REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C . n LL ACB 0,Q9 .09 0.09 . Q-1-Q9— 5411 HE II 1 VV2 4.20 2.95 ^.09- —2 .29-- 4189 0 11 l ACB 0. 11 0.11 0. 11 0.11 5517 (CL III ) A AE2 0.87* 0.84* 4227 (FE V ) 1 ACB 0.11 0.11 0.11 0.11 5528 (CL III) C 2.00 1.94 42.67— ACB Q«u5Q .25 0.52 1.29- -553.7 (CL-UU A AE2 1.00» -0^27*- 1 c 2.00 1.25 2.06 1.29 5755 (N II) 1 C 3.00 3.00 2. 2.88 4291 Oil l ACB 0.90 0.90 0.93 0.93 5876 HE I 1 C 47.00 35.30 44.95 33.76 4303 on i ACB 0.13 0.13 0. 13 Q. 13- 1 ttY2_ -23.6C .35.30 22.57 33.76 4317 0 II ACB 0.11 0. 11 6300 (O I ) 1 CAM 0.01* 0.01* 4317 C II ACB 0. 11 0. 11 1 VV2 15. 30 15.30 14.40 14.40 4327 ACB Q. IQ Q. IQ .1Q_ 6548 (N II ) 1 QCB— 8.15 _a*-15- 7.61 7.61 A41 40.00 41. 12 1 C 473.00 441.64 ACB 36.01 37.02 l CAM 1.00* 0.93* . A.M- 59.50X 61.16X 1 LAR 10.00* 9.34* C 39.00 42.90 40.09 44.10 1 OCB 282.00 263.30 352.47 LA 55.00 42.90 56.54 44.10 2 VV2 221.00 206.35 QCfL 39.80 42.9Q 40.91 44.1Q- -J65A3- (N II ) _2 VV2 221.00 2Q6..35 VV2 44.70 42.90 45.95 44.10 1 C 68.00 43.75 63.45 40.82 4345 ACB 0.29 0.29 0.30 0.30 l CAM 0.07* 0.07* 4348 ACB Q. 1 7 0. 17 Q. 17 _1 QCB 1915Q 43.75 18.19 40.82 (0 III) 2 A41 40.00 41.07 6678 HE I 1 C 23.00 23.00 21.40 21.40 1 ACB 6.20 7.37 6.37 6717 (S IT ) 1 B AE2 0.66* 0.61* 1_ -AM— 11.90X 12.22* 6724 (S II ) 1 C 14.00 14.00 13.01 13.01 BOO 1.00* 1.03* 6730 (S 1 B AE2 1.00* 0.93* C 10. 00 7.37 10.27 7.57 8750 H 1 GU 0.86 0.76 0.76 8.40 7.37 8.62_ 7.57, 9532 H -2 LAR 1.36» 1.19* OCB 6.45 6.62 9546 (S III ) 2 LAR 1.36» 1.19* SM 0.49* 0.50* 10830 HE I 1 GU 33.00 28.49 5.80 8.96 1 LAR 6.12* 5.28* 4366 ACB 0.29 0.2 9 0.30 0.30 10 MU (S IV ) 1 4369 ACB 0.26 0.26 0.27 0.27 4373 n.4Q 0.49 n. sn 0.50- RFGION KEY I REG ION.RFFFRFNCF.FXP1 ANATION I 4379 ACB 0.44 0.45 0.45 REGIONS A AND 6 PN DIFFERENT SCALES 4382 ACB 0. 15 0. 15 0.15 4387 1. 0.71 1.1? . -END NGf. 6210 (PK NO. a C , 50 1.09 1.54 1.12 4392 NE II ACB ,09 0.09 0.09 0.09 4417- - NF—I-1— 0. 10- BEGIN NGC 6302 (PK NO. 349+ 1 1) C = 1.33 (RADIO-H BETA) 4417 C II 2 ACB 0. 10 4467 O II 2 ACB 0. 10 4467- _S U-I 2_ 0. 10. I PENT HE I 1 A41 . 00 6.30 4. 09 6.44 3 299 0 III l A ÛA 15.00 15.00 53.50 53.50 1 ACB .02 6.30 6.15 6.44 3340 0 III l A OA 18.00 18.00 61.80 61.80 ]_ 12.26X -3345 (NF V ) 1 A □ A -aa^oo- 84.3? ^nn.69 288.13 C 6.30 10.21 .44 C OA 88.80 84.32 303.42 288.13 LA 6.30 7.15 .44 E OA 97. 50 84.32 333. 15 288.13 - VV-?— ¿.An Fm 63-. QQ. . 84.32 ¿15.27 288.13 4481 MG II 1 ACB .20 0.20 0.20 0.20 (NE V ) l 229.00 181.28 728.82 576.96 4491 0 II 1 ACB . 10 0. I 0 0. 10 0.10 l OA 91.70 181.28 291.85 576.96 NF- II 1— Q. 11— DA -?7a.na .1 a 1.-? a. 859.31 516.96. 4590 II 1 ACB 0.31 0.31 0.31 D OA 159.00 181.28 506.04 576.96 4596 II 1 ACB 0.22 0.22 0.22 E OA 208.00 181.28 661.99 576.96 4633- 1— Q. 16- 0.16- F HA 130.QQ 181.28 413.74 576.96 ACB .51 0.52 A OA 24.00 18.15 75.24 56.90 C .00 4.05 C OA 16.40 18.15 51.41 56.90 4637 _C LUL— 4.05 F OA 18.20 18.15 57.Q5 56.9Q 4640 N III ACB 1.20 1.21 OA 14. 00 18.15 43.89 56.90 4641 0 11 ACB 0.43 OA 3.30 10.77 8.40 27.39 4641 N IV ACB 0.43 OA 25.00 10.77 63.60 27.39 4647 NE II ACB 0.28 0.2 8 0.28 0.28 OA 4. 00 10.77 10. 18 27.39 4649 0 II ACB 0.50 0.50 0.51 0.51 2. 20 2.90 5.56 7.33 465.7- AR II L_ ACB 0.14 Q. 14- 0. 14 _QjJl4_ 3.6Q 2.9Q 9. IQ 7.33 4661 0 11 1 ACB . 17 0.17 0. 17 0.17 7. 10 17. 78 4685 HE II 1 ACB 2.93 3.34 2.96 3.38 8.40 21.04 L_ 5. QQ 3.34 5.Q5-- 3.38 10-10 25. 30 VV2 3.34 2.12 3.38 2 7.00 17.53 4711 (NE IV ) 1 ACB 1.63 1.64 1.64 I I I ) 2 A OA 7. 10 17.78 4112- (AR IV ) 2 4. QQ 4.03 2_ C QA 8.4Q- 21.04 HE I 1 ACB ,63 0.63 0.64 0.64 OA 10.10 25.30 2 C ,00 4.03 OA 7.00 17.53 (AR IV ) 1 ACB , 87 2.93 1.88 2.95 (Cl 11)1 EV 1.50 A 3.74 A C .00 2.93 4.03 2.95 A OA 41.30 103.08 4781 ACB .92 0.92 0.92 0.92 C OA 81.90 204.4? 4861 A 41 IQ-Q.Qfl 1QQ.QQ- 100.00 LQQm.00 - -Q..QA 430.00 1073.26 ACB 100. 00 100.00 1 39.50 98.59 AN 100. oox 100.OOX 1 72.70 181.46 1QQ.0Q 1 QQ.QQ— 100.00 1QQ.QQ II ) 1 18.70 46.16 CPDA 100, 00 1 00.00 100.00 100.00 C OA 41.50 103.34 GU 100, 00 100.00 100.00 100.00 D OA 265.00 659.87 100.00 100.00 1QQ.QQ- LQQ^QQ - E QA 39.IQ. 97.36 LA54 100 100.00 100.00 100.00 OA 49. 124.01 OCB 100 00 100.00 100.00 100.00 OA 3.40 4.60 8.43 11.40 VV2 100 ,00 100.00 100.00 100.00 E OA 6. 50 .AO .16. LI IJL. 4Q_. HE I 1 ACB .69 2.84 1.69 2.84 F OA 3.90 4.60 9.67 11.40 1 c .00 2.84 3.99 2.84 A OA 3.60 5.17 8.80 12.63 - 4918 . (Q in.) L A41 340.00 360.42 338.51 3.58 ».85 . E OA 6. 10 5.17 14.92 12.63 377. 00 360.42 375.35 358.85 OA 5.80 5.17 14. 18 12.63 292. OOX 290.72X 3759 EV 0. 0 7.10 0.0 17.22 CPDA. 363. 10 360.42 361.51 QA 8.00 7.IQ 19.40 - LlmZZ LA 337 ,00 360.42 335.53 358.85 C OA 7.60 7.10 18.43 17.22 LA54 385, ,00 360.42 383.32 358.85 E i 7.70 7.10 18. 67 17.22 VV2 155Q.ÜQ A- 1543.23-A F QA 5 .-LQ . - 7.10 12.37 U-.22 (0 III ) l A41 920 00 1037.00 913.97 1030.20 EV 0.0 6.17 0.0 A 14.82 l ACB 1051, 00 1037.00 1044.II 1030.20 A OA 5.40 6.17 12.97 14.82 BDD 234.00» 232.47». -E- QA- 7^30 - 6.17 17.54 1.4.82 BE 1000, 00« 993.44* F OA 5. 80 6.17 13.93 14.82 CPDA 1096 00 1037.00 1088.81 1030.20 A OA 1.20 3.64 2.83 3.59 LA 993.00 1Q37« QQ- 986.49 1Q3Q.2Q C OA 3t_lQ . 3.64 «-3.2— 3.59. LA54 1125. 00 1037.00 1117.62 D OA 10.00 3.64 23.60 8.59 SM 100. 00* 99.34* E OA 2.00 3.64 4.72 8.59 -VV2 155Q. QQ A 1539.83 A F QA ■ 1.90 -3^64 4.48 8.59 5017 HF I l BE 26* 2.24* 3 796 HE I I 1 OA 1.40 1.40 3.29 3.29 5411 HE II 1 C 50 1.46 3797 H I 1 EV 0.0 7.60 0.0 17.84 NGC 6210 ( PK NO. 43 + 37 1) NGC 6302 1PK NO. 349+ 1 1) 547 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. TABLE 8—Continued NGC 6302 CPK NO. 349+ l 1) NGC-6302 (PK NQ. 3LÉ9t 1 11 WAVE ÎDENT N RG REF □ BS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 3797 H I 1 A OA I» 31L- 7,6Q 17.13 17.84 4387 HE I _1 EV Q.Q _L.33. CM? - 3.38 1 E OA 9.30 7.60 21.83 17.84 A OA 1.50 2.33 2.17 3.38 1 F OA 6.20 7.60 14.55 17.84 E OA 2.40 2.33 3.48 3.38 _1 ELY— ^Q_ .5.-43 . - QML A 12.50 -f OA 3. 10 . 2.33 .-49 3.38 A OA 2.60 5.43 5.98 12.50 l A W70 7.70 10.51 l E OA 4.40 5.43 10. 12 12.50 1 EV 0. 10 0.14 1 F OA 9.30 5.43 21.40 12.50 â_Q4 -8.70- 9.14 11.87 -12.41 EV 0.0 10.97 0.0 24.87 1 B OA 11.80 9.14 16.11 12.47 OA 10.00 10.97 22.68 24.87 1 C OA 4.95 9.14 6.76 12.47 B..QA. -L5.4Q- 10.97 34.93 24.87 _1 D OA 11.QQ-. .14_ ia^?i . -12.43- 1 C 8.40 10.97 19.05 24.87 l E OA 10.90 9.14 14.88 12.47 1 0 11.00 10.97 24.95 24.87 1 F OA 8.90 9.14 12. 15 12.47 1 E OA 12.10 10.97 27.44 -24.87_ 1 AW7Q 4.60 5*15 5.95 6.66 8.90 20. 18 1 EV 5.15 0.0 6.66 (NF III) 12.00 26.39 1 A OA 5.50 5.15 7.11 6.66 B OA 235.00 216.4Q 516.8.7 475.96_ _1 C OA -3.80- 5j 15. .31 194.00 216.40 426.69 475.96 1 D OA 7.50 5.15 9.69 6.66 358.00 216.40 787.40 475.96 1 E OA 4.80 5.15 6.20 6.66 171.00 216.40 376.10 475.96 1 F OA 4.70 5.15 6.66 F OA 124. 00 272.73 4571 MG I 1 AW70 0.30 0.30 0.38 0.38 A OA 23.00 49.67 4606 (FE III) 1 A W70 1.90 1.90 2.33 2.33 B-OA.. ft*- 3ft . 48-QI- 1 A OA 1.60 1.75 1*36- 2.14 C OA 30. 90 66. 73 OA 1.90 1.75 2.33 2.14 0 OA 52.50 113.38 4628 EV 0.0 0.0 0.0 0.0 35-00 75.59 4634 AW7.Q 6.QQ 5.2 8 7. 19 6.33 EV 0. 20 0.43 A 1 EV 0.0 5.28 0.0 6.33 OA 23.00 49.66 1 A OA 5.80 5.28 6. 95 6.33 40.00 . 86.37 _J r OA 4.20 -.2 8 5-.Q3 6.33 30.90 66.72 i E OA 5.70 5.28 6.83 6.33 OA 52.50 113.36 1 F OA 4.70 5.28 5.63 6.33 OA 35.00 75.57 _J A W7Q 11.50 B.RQ 13.71 10.49 3888 HF I 0.20 0.43 EV 0.90 1.07 3967 (NE I II ) 3.00 6. 09 A OA 11.30 8.80 13.47 10.49 ioi.no 204.99 C OA 5.30- B.flO 6.32 -10.49 C OA 51.50 75.16 104.52 152.54 1 E OA 9.30 8.80 11.09 10.49 D OA 117.00 75.16 237.46 152.54 1 F OA 6.60 8.80 7. 87 10.49 £_ QA— 62.80 75.-16 127.46 152.56 _j n na 66.00 55. 1 5 77^57 64.82 F OA 43.50 88.29 152.54 OA 44.30 55.15 52.07 64.82 EV 0. 20 0.41 AW70 62.00 61.12 71.32 70.31 -A- OA— 39.90 EV l B OA 14. 50 18.53 29. 37 37.54 1 B OA 46.30 61.12 53.26 70.31 1 C OA 17.60 18.53 35.65 37.54 l C OA 71.70 61.12 82.48 70.31 _J CL QA- 21.2.0 18.53 42.94 37.54 -J E— 64. 50 6L. 1 2 OA 23. 80 18.53 48. 21 37.54 IAR IV ) 1 AW70 18.50 20.84 OA 14.40 18.53 29.17 37.54 2 EV 3.00 3.38 CUD CU-0 2 A CIA 5.80 11.23 11.90 13.41 10.00 19.37 19. 50 21.97 4.60 8.91 8.80 17.04 E OA 14.50 16.34 7.70 14.91 F OA 12.40 13.97 -5.40 10.46 A W 70 EV 0.0 0.0 2 FV 3.00 3. 38 A OA 5. 80 11.23 2 A OA 21.00 23.65 a QA . in.no 19.36 -2 B—QA— 11.90- 13. 40 4.60 8.90 19.50 21.96- 8.80 17.04 OA 10.00 11.26 7.70 14.91 OA 14.50 16.33 5.40 10.45 OA 12.40 13.96 ( S 11)1 0. 30 0. 56 AW70 6.60 7. 36 QA L6.QQ.. 20.40 29.87 _QA 6.,40- Ml 4- 1 B OA 23.60 20.40 44.05 38.08 6.00 6.69 1 C OA 16. 80 20.40 31. 36 38.08 OA 3.90 4.35 _i D QA 25.00 20.40 46.66 33.08 (AR TV 1 1 AW70 30.00 33^01 1 27.40 20.40 51.14 33.08 EV 10.00 11.00 1 OA 13.60 20.40 25. 39 38.08 A OA 32.80 22.03 36.09 24.24 _4076 < S Till EV 0.0 A 9.35 Q.Q 17.34 -C ..QA— 18.30 22.03 20.13 . 24.24 A üA 7.30 9.35 13.54 17.34 1 12. 50 22.03 13.75 24.24 1 B OA 10.00 9.35 18.54 17.34 1 E 22.60 22.03 24.87 24.24 1 C QA 5.QQ 9.35 9.27 17.34 _J E— -16.QQ- 22.03- LM60-. 24.24 l D OA 17. 50 9.35 32.45 17.34 100.00 99.98 l E OA 10.10 9.35 18.73 17.34 100.00 100.00 99.98 99.98 _1 F OA 6« 20 9.35 11.50 17.34 _1 C OA 100.00 100.00 99-«-98 99.98 5.60 .59 10. 20 8.36 l D OA 100.00 100.00 99.98 99.98 R OA 5.55 .59 10. 11 8.36 1 E OA 100.00 100.00 99.98 99.98 .-C ..QA— 2« 7.0— . 4* 59 4*32 .36- 1 F OA 100.00 100.00 99.98 99.98 E OA 5.60 4. 59 10.20 .36 1 B OA 453.00 451.60 453.71 452.31 F OA .50 4.59 6.37 .36 1 C OA 568.00 451.60 568.90 452.31 4101 _1 E_y_ 3.63 A _1 D QA . 496.QQ 451.6Q 341.00 451.60 496.78 452.31 341.54 452.31 26. 10 31.32 47.36 56.82 29.00 31.32 52.62 56.82 400.00 451.60 400.63 452.31 _1 C QA ,. 28.60 31.52 51 *.89 —56 »..82 2.30 2.30 2.21 2*21 0 OA 45.00 31.32 81.65 56.82 4931 (0 III) AW70 0.90 0. 86 1 E OA 35. 10 31.32 63.68 56.82 4958 (0 III) EV 320.00 299.94 1 F OA 24.10 31.32 43.73 56.82 5006 (0 III) IQQQ.QQ- 9Q7.46 EV 0.0 3.90 0.0 6.52 1504.00 1364.40 1364.81 1238.13 A OA 3.00 3.90 5.02 6.52 C OA 2070.00 1364.40 1878.43 1238.13 E QA 4« 8Q.. 3.90 8.03 -JM .0 QA... 1370.00 1364.40 I 243.?? 1238.13 17. 00 25. 54 l E OA 944.00 1364.40 856.64 1238.13 A OA 57.90 55.03 86.98 82.67 1 F OA 934.00 1364.40 847.56 1238.13 -B QA„ 57.00 55.03 85.-63 82.67 _J AW70 3-60 -3.60 3.25 3.25 1 C OA 52.60 55.03 79.02 82.67 5041 SI II AW70 2.70 2.70 2.39 2.39 L D OA 75.00 55.03 112.67 82.67 5047 HE I AW70 1 .40 1.40 1.23 1.23 _J F ÛA -49.2H- 55.03 73.91 _82.ai . 5056 SI II AWZQ 3.20 2.BO 2-80 F 38.50 57.84 5113 0 AW70 0.40 0.40 0.33 0.33 EV 16. 00 23.62 5158 (FE VII ) AW70 0.50 0.50 0.41 0.41 -A QA- 54.30 41.48 80*16 5176 ÇFE VI. 1 AW70 0 « 30 0.30- 0.24 0*2.4 B OA 37. 00 41.48 54.62 61.24 5191 (AR III) AW70 1.30 1.30 1.03 1.03 C 0A 41.60 41.48 61. 41 61.24 5198 (NI ) A W70 8.40 8.40 6.62 6.62 0 OA 45.00 41.48 66.43 61.24 EV Q.Q A B.4Q— . .0*0 _A 6.62 OA 40.70 41.48 60.09 61.24 5200 A W70 6.60 6.60 5.20 5.20 OA 30. 30 41.48 44. 73 61.24 5207 EV 0.0 0.0 0.0 0.0 NGC 6302 (PK NO. 349+ 1 1) NGC 6302 (PK NO. 349+ 1 1) 548 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. TABLE 8—Continued NGC 63Q2 (PK NQ. 349» 1 1) NGC 6309 (PK Nfl. 9+U 1) WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I CORR I 5270 (FE III I 1 AW7CL. Q »30. Q.3.0 0*23. 0.23 3726 (0 II) I O CA70 26,40 27.70 5297 1 AW70 1.00 1.00 0.74 0.74 1 P CA70 61.00 64.01 5304 I AW70 0.40 0.40 0.29 0.29 1 PER 24.00 25. 18 5309 (CA V L J AW7Q_ 0170 Q*-.7jQ— _0*. 372 8 _i_Q U ) l. AW 23» 00 30».*3 5313 1 AW70 0.60 0.60 0.44 0.44 1 2 AW 4. 4.83 5335 (FE VI I 1 AW70 0.30 0.30 0.22 0.22 1 3 AW 4.20 4.41 5411 _ HE II AH7 0_ 12.40 12.40 8..5Q -J 4_A W -2.30 2.41 5517 1 A AE2 0.32* 0. 20* 1 C CA70 4. 50 4.72 1 AW7 0 0.70 0.45 1 C2 CA70 6. 10 6.40 _I A AE2 -1.00*— Q.-634 . _1 Q C A 70 20.30 21.30 l AW7 0 2.30 2.30 1.45 1.45 1 1 AW 2.90 2.63 3.04 2.76 5630 (FE VI ) l AW70 0.20 0.2 0 0. 12 0.12 l 2 AW 2.30 2.63 2.41 2.76 5 <>.77 . (FE ..VI > J AH70- 0.50 CL»50 0*29 0.29 _J C_CA70 2.7Q - 2.63 2.83 2.76 5721 (FE VIII l AW70 1.10 A 0.62 A I C2 CA70 3.00 .15 A 5754 (N II I l AW70 33.00 33.00 18.31 1 O CA70 2. 80 2.94 A .EV 14.00 A 7.77 A- 3 740 HE II __l C CA7Q JL. 6Q _ 0.63 5801 C IV l AW 70 0.80 A 0.43 A 1 C2 CA70 0.70 0.65 .73 0.68 5812 C IV l A W70 0.30 A 0.16 A l 1 AW 2.90 3.05 3.04 3.20 5875 —HE I— J A W7 0 40.00 20.73 _l 2 AW .2.70 3.05 ¿.83 3.20 1 EV 15.00 A 7.77 A l C CA70 3. 00 3.05 3. 14 3.20 5978 SI II 1 EV 5.00 A 2.44 A 1 C2 CA70 3.60 3.05 3.77 3.20 6300 _JJD I L J E-V 35.00 A 14*35 A_ _1 C CA70 3.30 A 3.46 A 6312 III I 1 EV 4.00 A 1.63 A 1 1 AW 0.60 2. 50 0.63 2.62 6363 ) 1 EV 11.00 A 4.38 A l 2 AW 3.60 2.50 3.77 2.62 64.03 J E-V— 6.00 A 7.35 A _1 C CA7Q ■3» 6Q - 2.5Q 3*77 2 «-62 6435 ( AR V ) EV 8.00 A 3.08 A 1 C2 CA70 2.20 2.50 2.31 2.62 6548 (N II) EV 470.00 A 171.77 A l 1 AW 1.40 5.24 1.47 5.49 i?n.Q.nn ^ 435.40 A -J 2-AW 7.5Q 5.24 6583 (N III EV 2100.00 A 754.31 A l C CA70 .20 5.24 7.54 5.49 6716 (S II I AE2 0.48* 0. 16* l C2 CA70 6.60 5.24 6.91 5.49 3(U0n . 10.17 A _J H f.A70 ( S Till 1.00* 0. 34* 6.00 4.58 6.28 4.80 170.00 A 57.28 A 2 AW 3.80 4.58 3.98 4.80 3 AW 4.58 4.87 4.80 REGION KEY (REG I ON,REFERENCE,EXPLANATION) l C CA70 4.00 4.58 4.19 4.80 A, AE2 , REGIONS A AND B ON DIFFERENT SCALES 1 C2 CA70 4. 50 4.58 4. 71 4.80 A, PA , ? ARP.MIN FAST _1 O-C A7Q— 4.60 4*58 4 .-82 4.80 B, OA ,6 ARCMIN EAST 1 C CA70 0.50 0.55 0.52 0.58 C, OA , 0.7 ARCHIN WEST 1 C2 CA70 0.60 0.55 0.63 0.58 0» OA . 5 ARCMIN WEST 1 C7 CA70 0-60 0.60 0-63 0.6.3 OA , 2.5 ARCHIN NORTHEAST 3791 0 III l C CA70 0.90 0.80 0.94 0.84 OA , 2.5 ARCHIN SOUTHWEST 1 C 2 CA 70 0. 70 0.80 0. 73 0.84 3797 H T J 1 AW 7.20 6. 16 NGC 6302 (PK NO. 349+ l I» l 2 AW 5.60 6.16 5.86 6.44 1 3 AW 5.80 6. 16 6.07 6.44 -J C-CA70- -5l-. 80 - 1 C2 CA 70 6.40 6. 16 6.69 6.44 BEGIN NGC 6309 (PK NO. 9+14 1) C = 0.07 (HYDROGEN LINES) l O CA70 5. 80 6.16 6.07 6.44 _L. f-7_C-A70_ 0.60 0.60 0.63 0.63 WAVE IDENT N RG RFF OBS I AVE 0 CORR I AVE C 3813 HF II 1 C2 CA 70 0.80 0. 80 0.84 0.84 3132 0 III l C CA70 11.40 11.10 12.29 11.97 3819 HE I l C CA70 0.50 1.17 0.52 1.22 1 C 7 CA70. 1 1-64 -11.47 1 C2 C.A7C 1 C CA70 28.00 25.00 30.09. 26.87 1 0 CA70 2. 30 1.17 2.40 1.22 l C2 CA70 22.00 25.00 23.64 26.87 l l AW 8.80 8.17 9.19 8.53 _J C CA70 5.50 6. 1 0 3. 88 6.57 —1 2 -AH B-.4Q 8.17 8.77 3.53 1 C2 CA70 6.70 6.10 7. 16 6.52 1 3 AW 7.90 8.17 8.25 3.53 3312 0 III 1 C CA70 10.70 11.00 11.43 11.75 l 4 AW 8.50 8.17 8.87 3.53 l C2 C A 70 11.30 11.00 12.07 11.75 l C CA 70 7.80 8.17 8.14 8.53 3340 0 III 1 C CA70 17.30 15.65 18.46 16.70 1 C 2 CA 70 7.90 8.25 l C2 CA70 14.00 15.65 14.94 16.70 i O CA70 7.60 8.17 7.93 8.53 3342 -1 NE III) _2 C -C-A7 Q _ 74. 70 25.82 _1 0_ 95.00 7 NGC 6445 (PK NO. 8» 3 1) WAVE IDENT N RG REF OBS I CORR I WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 5006 (0 III! 1 EV 1040«00 1018.95 A 3967 I NE III) 1 AV ACCK 41.00 41.00 53.51 53.51 1 WB 1410.00 1410.00 1381.46 1381.46 3970 H I 1 AV ACCK 10.00 13.04 13.04 II 1 l EV 232.00 A 187.41 A 2 M 38.00X 49.55X _2 a 18.QQX -69.55X— END NGC 6326 (PK NO. 338 -8 1) 4026 HE I l AV ACCK 2.20 2.20 2.82 2.82 4068 (S II ) l AV ACCK 5.40 5.40 6.83 6.83 4076 (S III 1 AV ACCK 2.70 2,70 3.41 3.41 1 AV ACCK 22.00 22.25 27.53 27.84 BEGIN NGC 6369 (PK NO. C = 2.09 (RADIO—H BETA) 1 RH ACCK 24.00 22.25 30.03 27.84 1 RL ACCK 22.00 22.25 27.53 27.84 WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C C ACCK 21.00 22.25 26.28 27.84 3 869 (NE III ) 1 M 35.00 35.00 120.73 120.73 41.00 44.60 47.78 51.98 3970 HI 2 M 14.00 6^65. 42.00 44.60 48,95 51.98 3970 (NE III) 2 14.00 42.45 l RH ACCK 47.00 44.60 54. 78 51.98 4101 H I 1 8.00 8.00 20.42 20.42 1 RL ACCK 47.00 44.60 54.78 51.98 4340 2?. OH 23,00 43. 62 43.62 _1 C ACCK 46.00 44.60 53.61 51.98 4363 (0 III) 10.00 10.00 18.45 18.45 1 M 45.00X 52.45X 4861 100.00 100.00 100.00 100.00 1 AV ACCK 18.00 17.75 20.84 20.55 —QD-63 IQQ.Qfl- 100.00 100.00 lQfl.É-QQ 1 RH ACCK 18.00 17.75 20.84 20.55 4959 (0 i m i 670.00 670.00 605.16 605.16 1 RL ACCK 16.00 17.75 18.52 20.55 5007 (0 im i M 1990.00 1734.50 1708,03 1488.73 1 C ACCK 19.00 17.75 22.00 20.55 _L_ ■ flP.63 L4Ig_«_Q-Q_ 1734.50 1269.44 i4aa.73 ln_ 1Q.QQX 11.58X 10 MU (S IV ) 1 7.07 l AV ACCK 6.00 5.33 6.75 6.00 l RH ACCK 4.00 5.33 4.50 6.00 END NGC 6369 { PK. NQ. 2* 5 l) 1 RL ACCK 6 «00 _5.33 6.75 6.00 HE II 56.00 51.40 59.02 54.17 l AV ACCK 65.00 51.40 68.51 54.17 1 RH ACCK 55.00 51.40 57.97 —54.17_ BEGIN NGC 6439 (PK NO. 11+ 51) = 0.82 (RADIO—H BETA) 1 RL ACCK 5.00 51.40 5.27 54.17 1 C ACCK 76.00 51.40 80. 10 54.17 WAV£- IDENT N -RG...REF QBS 1- AVF 0 CORR I 4.0,00 X 42.16X 3727 (0 II VV4 11.00 19.32 4711 (AR TV ) 2 AV ACCK 5.10 5.33 3 869 (NF II 64.00 56.00 104.03 91.03 4713 HE I 2 AV ACCK 5. 10 5.33 48.00 56.00 78.-0? 9-1.03 4740 (AR IV ) 1 AV ACCK «-&Q 3.94 H I 2 23.00 35.54 100.00 1 CO.00 100.00 100.00 2 VV4 25.00 38.63 l AV ACCK 100.00 100.00 100.00 100.00 3970 (NE III) 2 _M - 23.00- ^ 5. 54 1 RH ACCK 100.00 -1 00.00 25.00 38.63 l RL ACCK 100.00 100.00 100.00 100.00 14.00 14.00 20.22 20.22 1 C ACCK 100.00 100.00 100.00 100.00 14.00- 14.-00 20,?? 20.22 -4 X— 100,00 1-00.00 100.00 100.00- H I 1 27.00 29.00 34. 71 37.28 100.00 100.00 100.00 1 31.00 29.00 39. 85 37.28 1100.00 1073.54 -4-0 I-I-Il 1 - -0*0 A— -0*0 A- ^qn.nn -47.fi . ? 1 4686 M 14.00 20.50 15.26 22.34 1 RH ACCK 515.00 487.00 502.61 475.28 VV4 27.00 20.50 29.43 22.34 l RL ACCK 475.00 487.00 463.57 475.28 4861 100-00 100-00 100-00 100-00 -J f. ACCK 575.00 4.87.00 -561.17 475.?fl 0D63 100.00 100.00 100.00 100.00 M 380.00 370.86 VV4 100.00 100.00 100.00 100.00 VV5 180.00* 175.67* -VV5 ion.nn inn.nn ion.no 100.00 -Û- 110Ü,ÛQ 1 060.57 II ) l 340.00 339.33 326.69 326.05 1 AV ACCK 1510.00 1419.33 1455.80 1368.39 I 360.00 339.33 345.91 326.05 l M 1050.00 1419.33 1012.31 1368.39 318.00- 339.33 305. 55 326. _j nn \aqr.nn 1419.33 1637.05 4 368.39 . (0 III) 970.00 986.25 913.56 928.86 VV5 180.00* 173.54* 0D63 1122.00 986.25 1056.71 928.86 5517 (CL III) A AE2 0.92* 0.78* VV4 1 non-00 986.2-5-. 941.81 928.86 5537 (Cl III) A AE? i . nn* 0.84» VV5 853.00 986.25 803.37 5876 HF T AV ACCK 30.00 23.43 HE67 1.00*A 0. 54*A 6300 (0 I ) AV ACCK 24.00 17. 17 VV4 960.00 513.79 6312 (S III ) AV ACCK 24.00 17. 13 VV 5 1000.00 535.20 6548 (N II ) AV ACCK 1820.00 1246.61 VV4 960.00 513.79 6563 H I AV ACCK 1820.00 1243.17 VV 5 1000.00 Í>35t¿Q VV5 i*2Q..-00* 218.58* 6584 (N II ) 1 HE67 0.20*A 0. 11 *A 6563 ( N III 2 VV5 320.00* 218.58* 6584 (N II ) 3 AV ACCK 1820.00 1238.37 END -NGC 64.39 ( P>l_NQ., 11+ 5 1) 6717 JLS II ) 1 B AE2 Q« 78* 0.52* 6723 (S II ) 1 AV ACCK 125.00 83. 14 6730 (S II ) l B AE2 1.00* 0.66* 7065 HE I 1 AV ACCK 6.8 4.29 . 4.29.. BEGIN NGC 6445 (PK NO. C = 0.50 (HYDROGEN LINES) 7135 (AR III) 1 AV ACCK 27.00 27.00 16. 6 16.88 7325 (0 II ) l AV ACCK 65.00 65.00 39.55 39.55 WAVE N RG REF OBS I CORR I AVE C 3722 HI 2 AV ACCK 1.70 2.40 REGION KEY (REG I ON,REFEPENCE,EXPLANAT I ON) 3722 ( S I II) 2 AV ACCK • 1.70 2.40 AV, ACCK, AVERAGE 3726 (0 II ) 1 A 20.0,00- 282.Q9 -Ct ACCK^Xf.NJER- 1 AV ACCK 110.00 155.15 RH, ACCK, HIGH EXCITATION PART OF RING 1 RH ACCK 136.00 191.82 PL, ACCK, LOW EXCITATION PART OF RING 1 RL ACCK 158.QQ 222.85 A, AE2 , REGIONS A AND B CN DIFFERENT SCALES 1 C ACCK 122.00 172.08 ) 1 AV ACCK 101.00 142.32 NGC 6445 (PK NO. 1 PH ACCK . -HUQQ- 156.41 RL ACCK 172.00 242.36 1 C ACCK 118.00 166.27 1 AV ACCK 1.40 1.97 BEGIN NGC 6537 (PK NO. 1.85 (RADIO-H BETA) 3750 I 1 AV ACCK 1.90 1.90 2.66 2.66 3755 III 1 AV ACCK 0.70 0.70 0.98 0.98 WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 3759 III 1 AV AG.çk . 1.50 1.50 2.09 2.09 3341 0 III ACPG 412.00 412.00 2.290, 2290,30 . 3770 1 AV ACCK 2.40 2.40 3.34 3.34 3426 (NE V ) 1 ACPG 1125.00 1125.00 5628. 79 5628.79 3797 1 AV ACCK 3.20 3.20 4.41 4.41 3444 n ii I l ACPG 88.70 88.70 434. 71 434.71 3835 1 AV ACCK 5.20 5«2..Q 7. 08 7.08 3722 ACPG (NE III) 1 A 120.00 123.60 161.43 166.27 3722 ( S II I) 2 ACPG 13.48 48. 35 l AV ACCK 129.00 123.60 173.54 166.27 3727 (0 II ) 1 ACPG 34.50 23.01 1 RH ACCK 124.00 123.60 166.81 166.27 1 VV 1 0.0 XA 34.50 0.0 XA 123.01 RL ACCK 124.00 123.60 166.81 166.27 3729 II ) 1 ACPG 19.90 C ACCK 121.00 123.60 162.77 166.27 3 734 I 1 ACPG 5.61 5.61 94.QQX- . 126« 45X 3750 ACPG 6.14 -6.14 21.30 -21.30 - 2 AV ACCK 14.00 18.70 3755 1 ACPG 3.06 3.06 10. 10.55 2 RH ACCK 14.00 18.70 3759 l ACPG 7.54 7.54 25. 25.88 2 RL ACCK . 15. QQ_ 20.03 3770 JL AC.P-G— Lt-83 7.83 -26. 26.52 - 2 ACCK 15.00 20.03 3774 l ACPG 2.98 2.98 10. 10.05 HE I 2 ACCK 14.00 18.70 3791 1 ACPG 2.83 2.83 9. 9.35 ? RH ACCK . 14.00- 18-70 3797 _J ACPG 8.22 6.22 26. 26.96 ACCK 15.00 20.03 3835 ACPG 10.80 10.80 33.75 ACCK 15.00 20.03 3868 (NE III) l ACPG 139.40 105.20 315.19 NGC 6445 (PK NO. NGC 6537 (PK NO. 10+ 0 1) 551 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued NGf. 6 517 (PK NH. IQt 0 JU _ NGC 6543 (PK NO. 96+29 1> WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I CORR I 3868 (NE 11 LI. _L y _LL ÜÛ LQ5.20_ 717? T! S. i 9 3624 HF I 1 S6 BCA 0.57* 0.65» 0. O XA 105.20 0.0 XA 3634.37 HE I l CAK2 0.65 0.74 ? ACPG 19. 80 57.75 1 CS BCA 0.56* 0.64* 2 VV 1 Q. Q.-XA Q.Q 0.0 XA I FI BCA 0.54» 0« 62* 2 ACPG 57.75 L F5 BCA 0.49* 0.56* 2 VV I 0.0 XA 1 F6 BCA 0.37* 0.42* (NE III) 2 ACPG 103.91 I SI BCA 0.63* Q.72» 2 VV 1 14. 70X 39.37X 1 S2 BCA 0.47* 0.54* 2 ACPG 38. 80 103.58 1 S3 BCA 0.79* 0. _2 M _2_L ..82. 75 - 1 S 5 BCA._ Q.98* . 1. 12* 14. 70X 39.24X 1 S6 BCA 0.73* 0.83* 3970 31 00 82. 75 3656.60 H I 1 CAK2 0.07 0.08 4026 ACPG 3. 15 3t 15 7.90 . 3.657.9Q ti L_ -2 CAK2 Q. 25 4068 ( S II) ACPG 12. 12.30 29.32 29.32 3657.90 H I 2 CAK2 0.22 0.25 4076 ( S II) ACPG 1. 1.74 4. 11 4.11 3658.50 H I 1 CAK2 0. 36 0.36 0.41 0.41 4097 N III ACPG _2 2 »56— . 5..9.Q_ 5.90 -3-660.30 ti L _1 CAK.2 0.30 0.30 0.34 0-34 21.2 18.10 48.59 41.49 3661.20 H I l CAK2 0. 20 0.20 0.23 0.23 15.0 18.10 34. 38 41.49 3662.26 H I 1 CAK2 0.29 0.29 0.33 0.33 VV 1 12.8 i F5 3CA Q.Q7* Q. 08* 4200 II ACPG 1.91 1.91 3. 91 3.91 1 SI BCA 0. 14* 0. 16* 4340 I ACPG 36.60 33.80 64.50 59.56 1 F 5 BCA 0.09* 0. 10* 31.QQ . 33-Rfl 54. ¿.3 1 S5 BCA 0.21 f .0.24*- 7 VV 1 22.56X 3663.65 H I l CAK2 0.42 0.48 0.48 1 ACPG 23.80 42.30 40.93 1 F5 BCA 0. 16* 0. 18* 23.80 39.55 4Q.93 1 Si BCA Q. 19* 0.22* VV l 80 X 22.01X 1 S5 BCA 0. 15* 0. 17* 4471 HF I l ACPG 61 3.61 5.57 5.57 3664.89 H I 1 CAK2 0.37 0.42 -45_4JL_ HE II 1 ACPG 21 3.21 4.59 4.59 1 F5 BCA 0.23* —(Ll¿6*_ 4634 III 1 ACPG 2.80 3.60 3.60 1 SI BCA 0.17* 0. 19* 4640 III 1 ACPG 5.42 6.93 6.93 1 S5 BCA 0.34* 0. 39* _2 VV 1 30.25X 1 S6 BCA 0.15» 0-17* 4645 M III 1 30.25X 3666.18 H I i CAK2 0.40 0.46 4686 HF II 1 ACPG 79.75 114.78 96.86 1 F5 BCA 0.27* 0.31* -L 79.75 78-. 95 9iw86— 1 SI BCA 0. 17* Q. 19» 4711 (AR TV ) ACPG 13. 15.42 1 S5 BCA 0.28» 0.32* 4713 HF I ACPG 13. 15.39 1 S6 BCA 0. 13* 0. 15* 4725 (NF TV t ACPG 4. .11 3667.7? H I— -J CAK.2 0.36 0.41 4740 (AR IV ) 1 ACPG 22. 50 22.50 25.70 25.70 1 F 5 BCA 0.43* 0.49* 4361 H I l AC P 100. 00 100.00 100.00 100.00 1 S5 BCA 0.62* 0.71* O AÇB-G— XIÛ ICO.00- 100.00— 100.00 1 S6 BCA 0. 31 * 0. 35» 100. 00 100.00 100.00 100.00 3669.49 H I 1 CAK2 0. 37 0.42 100. 00 100.00 100.00 100.00 1 F 5 BCA 0.43* 0.49* 100. m loo, oo —LOQ.OO— 100.00 1 SI BCA 0.20».- 0.23» 1 ACP 33 8 00 380.97 308.88 348.15 1 S5 BCA 0.44* 0. 50* l ACPG 309. 00 380.97 282.38 348.15 1 S6 BCA 0.37* 0.42* CQAL 416. .90 380.97 380.98 343.15 3671.68 H I_ CAK? 0.50 O- 57 1 460.00 380.97 420.37 1 F 5 BCA 0.46* 0.52* 2 VV 1 311.80 284.94 l F6 BCA 0. 14* 0. 16* _1 ACE 993.00 867.38 1 51 RFA 0. 36» 1-22-4. 0-0— 1349. 00 1224.00 1178.35 1069.16 l S5 BCA 0. 64* 0.73* 1330. 00 1224.00 1161.75 1069.16 1 S6 BCA 0.38* 0.43* ILL. m 272.36 -3.673.82 ti I_ _J CAK2 0.58 Q- 66 5411 HF I I 1 VV 1 80 46.80 27.68 27.68 1 F5 BCA 0.57* 0.65* 5754 (N II) 1 VV 1 ,10 43.10 19.00 19.00 1 F6 BCA 0. 17* 0. 19* 3 ft 7 6 HF I J VV. I -50 26.50 10.6? 10-62 - -1. SI RCA 0.33». n.38» 6300 (0 I VV 1 18. 30 5. 30 1 S 5 BCA 0.82* 0.93* 6563 H T HE67 1. 00*A 0.24*A l S6 BCA 0.47* 0. 53* VV 1 458. 50 111.90 3676.28 H I l CAK 2 0.68 0.77 6563 (N II VV 1 458. 50 111.90 1 F5 BCA 0.63* 0.72* 6584 ( N II HE67 1. 00*A 0.24*A 1 F6 BCA 0. 19* 0.22* 6717 _LS II ) AE2 L. HQ* Q.22* 1 S3 BCA Q.34* Om 39* 6730 (S II ) AE2 1. 0.22* l S 5 BCA 0. 81* 0.92* 10 HU ( S IV ) GHS 2420. 00 2420.00 34. 18 l S6 BCA 0. 54* 0.61* 3679.44 ü I— -1 CAK2 0.72 0.82 NGC 6537 (PK NO. 10+ 0 1) 1 F 5 BCA 0.61* 0.69* 1 F6 BCA 0.33* 0. 38* 1 Si BCA 0-44* Q- 50 *_ 1 S2 BCA 0.38* 0.43* BEGIN NGC 6543 (°K NO. 96 + 29 1) C = 0.18 (R ADI 0—H BETA) 1 S3 BCA 0.49* 0. 56* 1 S 5 BCA 0-97* 1. 10* WAVE IDFNT N RG REF ORS I CORR I 1 S6 BCA 0.78* 0.89* 3187.60 HF I 2 CAK2 3.45 4.16 3682.91 H I 1 CAK2 0.81 0.92 3187.60 NF II 2 CAK2 3.45 4. 16 1 F5 8CA Q. 73* 0.83* 3211 0 CAK2 0.48 0.48 0. 58 0.58 1 F6 BCA 0.29* 0.33* 3218.20 1 CAK2 0.30 0.30 0.36 0.36 1 SI BCA 0-52* 0. 59* 3334 O CAK2 1.26 1.26 1.49 1.49 1 S3 BCA Q. 65* 0.74* 3348 HE I l CAK2 0. 18 0.18 0.21 0.21 1 S5 BCA 1.25* 1.42* 3354 HE I l CAK2 0.45 0.45 0.53 0.53 l S6 BCA 0. 87* 0.99* 3403 _Q CAK, 2.. 0.43 0.43 0-50 3686.73 ti L_ _I CAK2 1-00 -L.14 3413 CAK2 1. 17 1.37 1 FI BCA 0. 52* 0.59* 3447.91 0 I I 2 CAK2 0.22 0.26 1 F5 BCA 0.93* 1.06* 3447.91 HE I 2 CAK2 0.22 0. 26 L F 6 BCA 0.28* 0.32* 3450 HE I 1 CAK2 0.37 0.37 0.43 0.43 1 SI BCA 0.48* 0.55* 3479.08 HF I 1 CAK2 0. 37 0.37 0.43 0.43 1 S2 BCA 0.34* 0. 39* 3498.65 HE I 1 C AK 2 0.13 .13 0.15 0,15 1 S3 BCA 0^ 77*-. 0.88* 3512.51 HE I 1 CAK2 0. 50 0.50 0.58 0.58 1 S4 BCA 0. 38* 0.43* 3530.49 HE I 1 CAK2 0. 38 0.38 0.44 0.44 1 S5 BCA 1.55* 1.76* _Q CAK2 Q. 30 0.30 0.35 . -Q-.35-- 1 S6 BCA 1.14* ..L«30-*- 3554.49 HC I 1 CAK2 0.41 0.41 0.47 0.47 3691.56 H I 1 CAK2 1.26 1.43 3581 0 CAK2 0. 36 0.36 0.41 0.41 1 FI BCA 0. 57* 0.65* 3587.32 HF I 1 C AK 2 0.52 0. 52 0.60 0.60 1 F3 BCA 0.-44* 0.50* 1 F 5 BCA 0.28* 0.32* 1 F 5 BCA 1.11* 1.26* 1 F 6 BCA 0. 18* 0.21* 1 F6 BCA 0-53* 0.60* 1 S 5 3CA 0.45* 0.52* 1 SI BCA 1. 16* 1.32» S6 BCA 0.38* 0.44* l S2 BCA 0.66* 0.75* 3594 CAK2 0.30 0.30 0. 34 0.34 1 S3 BCA 0.72* 0.82* ..35.9.9.. CAK2 - 0.39 Q. 3.9 .Û-.45 0.45 1 S4 BCA 0.66* 0-75» 3613.94 HF I l CAK2 0.60 0.69 1 S5 BCA 1.58* 1.80* 1 CS BCA 0.83* 0.95* 1 S6 BCA 1.26* 1.43* 1 F 5 BCA Q . 52* 0.60* 3694.10 NE II CAK2 Q. 16 Q. 18 1 S3 BCA 0. 58* 0.66* 1 S5 BCA 0.22* 0.25* l S 5 BCA 0.83* 0.95* 1 S6 BCA 0- 15* 0. 17* NGC 6543 (PK NO. 96+29 1) NGC 6543 (PK NO. 96+29 1) 552 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued NGC.-&543 i.PK NQ. S6^29_J.) NGC 6543 (PK NO. 96+29 1) WAVE IDENT N RG REF AVE O CORR I AVE C WAVE IDENT N RG REF OBS I CORR I 3fr97tl5 H I 1 CAK2 l FI BCA 0.58* 1.33 1.51 0.66* 1.51 37¿6.05 (0 II ) 1 S'! BCA 1 S5 BCA 16.Q.Q* 15.70* 20.T7* 17.77* l F 2 BCA 0.27* 0.31* 1 S6 BCA 15.70* 17.77* F3 B£-A— 0.70* 0.79» 1 WK.CAK2- -Q.U* ^13* . 1 F5 BCA 0.97* .10* l Cl DG75 2.30* 2.60* 1 F6 BCA 0.54* .61* 1 SI DG75 1.34* 1.52* 1 SI BCA 1.59* .81* _1 QiLS .QQ* . 13* 1 S2 BCA 1.40* ,59* 1 LA 37.30 42.22 1 S3 BCA 0.90* 02* 1 LU 2.01* 2.27* 1 S4 BCA 1.02* 16* _J Q 19.00 21. 5Q 1 S5 BCA 2.20* 50* l TAM 23.60X 26.71X 1 S6 BCA 1.38* 57* 1 VV 2 39.80X 45.05X 3702.84 0 LLL _1 CAK2 0.10 0. 10 0.11 3728.80 (0 LI L J CAK2 6.97 . ~Lm B9 3703.92 H I 1 CAK2 1.66 1.8 1 AH 0.51* 0.58* 1 FI BCA 0.78* 89* 1 AUV 0.49* 0.55* 1 F2 BCA 0.52* 59* 1 CS BCA 3.90* 4.41* F3 BCA 1.13* 28* 1 FI BCA 16.00* 18.10* F 5 BCA 1.32* 50* 1 F2 BCA 13.90* 15.73* ■1 F6 a£A_ .Q.59* - 67* 1 F3 BCA 28.80* 32. 59* SI BCA 1.38* 57* F4 BCA 18.40* 20.82* l S2 BCA 1.67* 89* 1 F 5 BCA 23.10* 26.14* -_L S3 BCA.. 1.32»- 50* 1 F6 RCA 1 S4 BCA 0.90* 02* 1 SI BCA 7.57* 8.56* S5 BCA 2.47* 80* 1 S2 BCA 7.32* 8.28* 1 S6 BCA 1.41*- 1.60* 1 S3 BCA 8.65* IQ.01* 3704.89 HE 1 CAK2 1.30 47 l S4 BCA 8.58* 9.71* 1 FI BCA 0.37* 42* 1 S5 BCA 6. 11* 6.91* 1 F 3 BCA Q.73* _ 83* 1 -Sii-BCA 1 F5 BCA 0.88* 00* 1 WK CAK2 0.17* 0. 19* 1 F 6 BCA 0.40* 45* 1 Cl DG75 1.00* 1. 13* 1 SI BCA 0.71* - 81* 1 -SI DG75 _1. QÛ» 1-13* 1 S2 BCA 0.75* 85* l DRS 0.48* 0.54* 1 S3 BCA 1.37* 55* l LU 1.00* 1.13* -1 S4 BCA 0.56» _ 64» 3734.33 ti L_ _1 CAK2 _3_. QQ 3.39 1 S5 BCA 1.41* ,60* 1 CS BCA 1.85* 2.09* l S6 BCA 1.04* 18* l FI BCA 1.95* 2.20* 3 707.95 0 I 11 -1 CAK? 0.38 1 F-2 -BCA 1 S5 BCA 0.16* 18* i F3 BCA 2.18* 2.47* l S6 BCA 0.26* 29* 1 F4 BCA 0.77* 0.87* 371 1.93 H— _J CAK 2 1 P8 RCA 2.03» -2-.3Q» 1 CS BCA 1.23* 39* 1 F6 BCA 0.91* 1.03* 1 FI BCA 1.28* 45* l SI BCA 3.80* 4.30* -1 F2 BCA- 49* 1 .S2-.BCA 3.0?» 3.41» 1 F3 BCA 1.56* 77* S3 BCA 2.86* 3.23* 1 F4 BCA 0.31* 35* 1 S4 BCA 2.77* 3. 13* 1 F 5 BCA 51» 1 S5 BCA 1 F6 BCA 0. 86* 76* 1 S6 BCA 2.4?* 2.74* 1 SI BCA 1.90* 15* 3740.30 H II l CAK2 0.17 0. 19 0. 19 ■ 1 S? BCA . 1. 13* 3750.1-5 BB» Id I _J CAK? 5.73- - 1 S3 BCA 2.41* 73* 1 CS BCA 2.01* 2.27* 1 S4 BCA 1.54* 75* 1 FI BCA 2.20* 2.48* 1 S5 BCA 1 F? BCA I-.03-*- 1 S6 BCA 1.53* 73* 1 F 3 BCA 2.43* 2.74* 3713.92 0 III 1 CAK2 0.15 17 1 F4 BCA 1.38* 1.56* 2 S5 BCA 0.16* - 1 F5 BCA ? » 90» -3.-?7* S6 BCA 0.17* 19* 1 F6 BCA 1.29* 1.46* 3713 NE II 55 BCA 0. 16* 18* l SI BCA 5.11* 5.77* 56 BCA 0.17* 19* 1 S2 BCA 3.42* 3.86* 3715.08 0 III CAK2 0.20 23 1 S3 BCA 3.73* 4.21* 55 BCA 0.22* 25* 1 S4 BCA 3.34* 3.77* 56 BCA 0.15* 17* -1 S5-.8CA 4.46* 5.06* 3721.94 H I 2 CAK 2 3.09 50 1 S6 BCA 3.25* 3.67* 2 CS BCA 1.57* 78* 1 LA 6. 70 5.08 7.56 5.73 2 FI BCA 2.29* - 59* 3754.90 Q LLL _J CAK2 0.41 Q. 41 0.46 —Q..46 _ 2 F 2 BCA 1.05* 19* i S5 BCA 0.23* 0.26* 2 F3 BCA 2.70* 06* 1 S6 BCA 0. 12* 0. 14* 2 F4 BCA Q.91* . 03* 3756.29 HE I _J CAK? 0.15 0.15 0.17 0.17 2 F5 BCA 2.42* 74* 3757.30 0 III 1 CAK2 0.26 1.44 0.29 1.63 2 F6 BCA 1.25* 42* 1 0 2.63 1.44 2.97 1.63 2 SI 8CA 4.24* . 80* 3759.96 J CAK2 Q.35 0.3 5 Q. 39 _Q..39 _ 2 S2 BCA 4.00* 53* l S5 BCA 0.20* 0.23* 2 S3 BCA 2.91* 30* 1 S6 BCA 0.12* 0.14* 2 S4 BCA :3.22*. .65* -3-762.70- _11 CM2 -Q. 1L 0.11 0.12 0.12 - 2 S5 BCA 3.77* 27* 3770.63 CAK2 3.84 4.32 2 S6 BCA 2.86* 24* 1 CS BCA 2.90* 3.27* 37-21.94 (S LI I I. _2 CAK2. 3.09 50- 1 FI BCA 2.55* 2.87* 2 CS BCA 1.57* 78* l F 2 BCA 1.25* 1.41* 2 FI BCA 2.29* 59* 1 F3 BCA 3.83* 4.31* 2 F 2 BCA .■■1..Q5* - 19» 1 F4 BCA 1.62* 1.92* 2 F3 BCA 2.70* 06* 1 F 5 BCA 2.98* 3.36* 2 F4 BCA 0.91* 03* 1 F6 BCA 1.55* 1.75* 2 F5 BCA 2.42* 74* 1 SI BCA 5.46» 6. 15* 2 F6 BCA 1.25* 42* 1 S2 BCA 4.37* 4.92* 2 SI BCA 4.24* 80* 1 S3 BCA 4.87* 5.48* 2 S2 BCA 4.00* 53* 1 S4 BCA 4.10* 4.62* 2 S3 BCA 2.91* 30* i S5 BCA 6.40* 7.21* 2 S4 BCA 3.22* 65* l S6 BCA 4.33* 4.88* 2 S5 BCA 3.77* 27* 2 S6 BCA 2.86* 3. 24* 3774.22 0 III 1 CAK2 0. 14 0. LA 0.16 3726.05 <0 II) 1 CAK2 12.90 14. 60 3777.13 NF II 1 CAK2 0. 12 0.12 0. 14 1 A4J 32.20 _3k. 3785.37 O II 1 CAK 2 -0. 16- 0. 18 0.18 - 1 AH 1.00* 13* 3791.32 0 III 1 CAK2 0.12 0.12 0. 13 0.13 1 AUV 1.00* 13* 3794.91 S III 1 CAK2 0.0 0.0 0.0 0.0 1 CS BCA iQ.ao» _L2- ??* 3797.90 H I -CAK 2 4.71 4.50 5.29 5.06 F2 BCA 33.60* .03* 1 CS BCA 3.68* 4. 13* 1 F3 BCA 75.00* .88* 1 FI BCA 6.45* 7.24* F4 BCA 46.90* -08* 1 F2 BCA 2.48* 2.78* 1 F5 BCA 53.10* 60. 10* 1 F3 BCA 5.18* 5.81* 1 F6 BCA 34.40* 38. 93* 1 F4 BCA 2.70* 3.03* 1 SI BCA 18.50* _2_Q_ 94* 1 F5 BCA .24* .76* 1 S2 BCA 18.50* 20. 94* 1 F6 BCA 2.00* 2.25* 1 S3 BCA 17.80* 20. 15* l SI BCA 8.14* 9. 14* NGC 6543 (PK NO. NGC 6543 (PK NO. 96+29 1) 553 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued NGC 6543 (PK NO. 96+29 1) NGC 6543 (PK NO, 96+29 1) WAVE IDENT N RG REF OBS I CORR I WAVE IDENT N RG REF OBS I AVE 0 CORR I 3797.9Q H I I S¿ BCA 6.65* 7.46*. 3964.37 > HE I I F5 PÇA 1.25» -1*39» 1 S3 BCA 7.31* 8.21* F6 BCA 0.55* 0.61* 1 S4 BCA 6.85* 7.69* 51 BCA 1.60* 1.76* I S5 BCA 7.47* 8.39* 52 BCA 1.50» .-L,_6.5* l S6 BCA 6.38* 7. 16* 53 BCA 1.86* 2.05* 1 LA 6.40 4.50 7.18 5.06 54 BCA 1.32* 1.45* 1 0 2.40 4.50 2.69 5.06 35 BCA 2.17* -¿*.39* TAM 3.80X 4.27X S6 BCA 1.54* 1.70* l VV 2 4.50X 5.05X 3965 HF I 1 S6 BCA 1.54* 1.70* 3805.84 hf T _J CAK2... tJJt Qj.14 . Q. 16 3967.00 3 CAK2 23.00 35.3; 3819.70 HE I 1 CAK2 1.97 2.21 A41 23.30 25.64 1 CS BCA 1.17* l. 31* FI BCA 15.10* 16.62* 1 FI BCA Q. 81* 0.91* F 2 BCA 10.30* 11.34* l F2 BCA 0.30* 0.34* F 3 BCA 2 8.30* 31.15* 1 F3 BCA 1.45* 1.62* F4 BCA 15.10* 16.62* 1 F4 BCA 0.48* Q. 54*... F5 BCA. 27.IQ* 29.83» i F 5 BCA 1.43* 1.60* F6 BCA 10.90* 12.00* 1 F6 BCA 0.68* 0.76* S3 BCA 37.00* 40.72* 1 SI BCA 2.09» 2.34» S 4 BCA 32.QQ* 35.22» I S2 BCA 1.73* 1.94* 55 BCA 38.60* 42.48* 1 S3 BCA l. 13* 1.26* 56 BCA 33.50* 36.87* 1 S4 BCA 11 76» 1.97* LA 31.7Q 34. B9 1 S5 BCA 2.33* 2. 61* 2 30.70X 33.79X 1 S6 BCA 1.62* 1.81* 2 59.50XA 65.49XA 3828 O CAK2 Q.Q3 0.03 Q.Q3 _LS I it > i rs ar.A 3833.78 HP I l CAK2 0. 17 0.17 0.19 0.19 3967.00 III ) 3 CAK2 23.00 25.31 3835.39 H I 1 CAK2 6.46 7.32 7.22 8.18 3967.00 I 3 CAK2 23.00 25.31 I CS RCA 7.78* 8-66» 2_ A41 23t 3Q 25t64 1 FI BCA 5.03* 5.62* CS BCA 26.50* 29.17* 1 F2 BCA 4.11* 4. 59* FI BCA 16.70* 18.38* I F3 RCA 7-68* 8.58» F2 RCA 11.4Q* 12.55* 1 F4 BCA 5.32* 5.94* F3 BCA 27.30* 30.05* 1 F 5 BCA 7.40* 8.27* F4 BCA 15.80* 17.39* 1 F6 BCA 3.38* 3. 78* F 5 RCA 2 0.70* --22.78» l SI BCA 13.60* 15. 19* F6 BCA 11.00* 12.11* 1 S 2 BCA 11.01* 12.30* S3 BCA 33.00* 36.32* 1 S3 BCA 9.7-Q*— 10.84» S 4 BCA 28.50* 31.37» l S4 BCA 8.74* 9.76* S 5 BCA 37.40* 41.16* 1 S5 BCA 12.50* 13.97* S6 BCA 39.00* 42.92* 1 S6 RCA 9.85* 9.20 7.32 10.28 .18 0 27.60 30.38 6.31 7.32 7. 05 .18 TAM 30.70 X 33.79X 6.40 X 7.15 X VV 2 59.50XA 65.49XA 1 VV 2 11.10X 12.40X 3970 (NE III) 2 27.60 30.37 3838.23 l CAK2 0.06 0.06 0.07 0.07 3978 0 0. 12 0.12 0. 13 0.13 3847.50 _Q I_L_ _J CAK2_ 0. 10 Q.1Q 0. 11 Q.ll -3-9-84 0.06 0.07 3851.17 C I I 1 CAK2 0.11 0. 12 3994.63 NU l CAK2 0.08 0.08 0.09 0.09 3856.30 SI I I 2 CAK2 0. 17 0. 19 4009.27 HE I l CAK2 0.46 0.46 0.50 0.50 7 Sfc BCA 0-07» 0.08» F 5 Rf.A 0.34* Û.37» 3856.30 O II 2 CAK2 0.17 0. 19 F6 BCA 0. 16* 0. 18* 2 S5 BCA 0. 15* 0. 17* S2 BCA 0.40* 0.44* 7 S6 RCA 0.07*. 0. 08* 3856 SI II 2 S5 BCA 0.15* 0. 17* S6 BCA 0.41* 0.45* 3862.76 SI I I l CAK2 0.26 0.26 0. 29 0.29 4016 CAK2 0.09 0.09 0. 10 0.10 ^ 868. 7A (NE III) 1 rAK 7 41-10 53.00 45.43 45.73 58.97 50.55 4026.20 CAK2 3.21 3.31 3.51 ■3.62 3 A41 l A41 2.10 2.30 1 F 2 BCA 30.20* 33.60* 1 CS BCA 3.83* 4. 19* l F4 BCA 47.60* 52.96* 1 FI BCA 2.90* 3. 17* 1 F6 BCA 42.10* 46.84* l F2 BCA 1.35* 1.48* 1 WK CAK2 0.08* 0.09* 1 F3 BCA 4.42* 4. 83* LA 5Q.5.Q 45.43 56. 19 1 F4 BCA —¿■¿A* 2.45* 1 0 44. 70 49.74 F 5 BCA 3. 59* 3.93* 1 TAM 45.70X 50.85 X F6 BCA 1.80* 1.97* -I V.V—2_ 85.30X 94.91X ¿1..B.CA 7.42* 3871.23 l CAK2 0. 15 0.15 0. 17 0.17 52 BCA 5.38* 5.88* 3876 O CAK2 0. 13 0.13 0. 14 0.14 53 BCA 6. 54* 7. 15* 3882.09 _1 CAK¿._ 0.14- 0.14 0.16 Q. 16 -S.4 BÇA 5.52* 6. 04* CAK2 21.50 23. 86 55 BCA . 84* 7.48* 3 A41 53.00 58.82 56 RCA 6.10* 6.67* 1 CS BCA 33.9.Q», 37.62* LA- 4.70 -1^31 5. 14 3.62 FI BCA 16.30* 18.09* 0 3.24 3.54 1 F2 BCA 11.80* 13.10* TAM 4. 20 X 4.59X 1 F 3 BCA 25.20* 27.97* VV 2 6.7QXA 7.33XA 1 F4 BCA 17.80* 19.75* 4041.05 0 I I CAK2 0. 13 0.14 1 F 5 BCA 20.50* 22.75* 4041.05 N I I CAK2 0. 13 0. 14 1 F6 BCA 1 Q...Q.Q*_ 11.IQ* 4048.00 -C LI 1_ CAK2 0.40 0.40 0.44 0.44 S3 BCA 41.50* 46.06* 4057 CS BCA 5.95* .48* 1 S4 BCA 34.70* 38.51* 4057 CAK2 0.21 0.21 0.23 0.23 1 S 5 3CA 39.80* 44.17* 4068.75 ii II ) ÇAK2 0.77 0.77 0.84 0.84 36.70* 40.73* FI BCA 2.60* 2.83* 21.40 23. 75 F2 BCA 1.45* 1.58* 16.20 17.98 F3 BCA 5.35* 5.82* 2 TAM 20.70X 22.97X F4 BCA 2.43* 2.64* 2 VV 2 53.80XA 59.71XA F 5 BCA 4.77* 5. 19* 3889 3 A41 53.00 ?e«92 F6 BCA 1.76» 1.92* 0 16.20 17.98 51 BCA 0.62* 0. TAM 20.70X 22.97X 52 BCA 1.09* 1. 19* 53.80XA 59.71XA 53 BCA 0.74* 0.81* 3891 CAK2 0.25 0.25 0.28 0.28 54 BCA 0.90* 0.98* 3919.37 CAK2 0.09 0.09 0. 10 0.10 55 BCA 0.39* 0.42* 3920.98 CAK2 0.27 0*27 0*30 0.30 56 BCA 0.55* 0.60* 3926.60 HE I 1 CAK2 0.26 0.29 2 LA 4.30 4.68 1 F 5 BCA 0.22* 0. 24* 2 0 2.24 2.44 i S5 ec-¿ 0.28* 0.31* III 3 CAK2 0.63 0.69 l S6 BCA 0. 11* 0. 12* F 5 BCA 0.12* 0.13* 392 7 CAK2 0.08 0.08 0.09 0.09 F6 BCA 0. 15* 0. 16* 3954.40 _l ÉLM¿_ 0-«-lQ_ 0.1Q 0.11 0.11 S4 BCA 0.40» 0.44* 3964.37 HE I 1 CAK2 1.14 1.26 S 5 BCA 0.61* 0.66* l CS BCA 0.54* 0. 59* S6 BCA 0.49* 0.53* 1 FI BCA 1.04* 1. 14* 4069.85 C II CAK2 0.63 0.69 1 F3 BCA 0.33* 0. 36* F5 BCA 0.12* 0. 13* 1 F4 BCA 0.24* 0. 26* F6 BCA 0.15* 0.16* NGC 6543 (PK NO. 96+29 1) NGC 6543 (PK NO. 96+29 1) 554 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued NGC 6543 I PK NO. J7 6.02 1 CA AW7Q —Q.l-9— 0.19 TAM 8.90X 9 • 28 X 1 K AW70 0. 13 0.13 VV 2 10.00X 10.43X 1 55 BCA 0. 19* 0. 19* 4481.30 MG CAK 2 0^12 -0^12 —CU-L3— 0.13 1 56 RCA 0^-11 ♦ O.-LL* 4492.00 11 CAK2 0. 10 0.10 0. 10 0.10 4677 0 CAK2 0.26 0.26 0.27 0.27 4500 CAK2 0.05 0.05 0.05 0.05 4685 1 CA AW70 0. 10 2.25 0. 10 2.30 4510.80 (K TV ) CAK2 0. 15 0. 15 0. 16 0.16 l K AW70 0.05 2.25 0.05 2.30 4516.90 C 111 CAK 2 0. 09 0.09 O. 0 .09 l CS BCA 62.70* 0 63.90* 4523.60 N 111 CAK 2 0.08 0.08 0.08 0.08 l PE BCA 5.90 6. 01 2.30 452.7.8Q I-LL.. -XAKZ 0.09 Q. 09 P. Q.0-9 _I LA 3.7Q 2.25 0 . 3.77 2-.30— 4537 0 CAK2 0.04 0.04 0.04 0.04 0 1.51 2.25 1.54 2.30 4547 N III 1 CS BCA 3.43* 3.55* VV 2 6. 30X 6.42X 4552.00 II LAK2- O.t-JLP- . 10 CAK7. . 0-09 0.09 Q-.09 4552.00 SI III CAK2 0. 10 0. 10 4699.20 O II 2 CAK2 0. 13 0. 13 4571.CO MG I CAK 2 0. 14 0.14 0. 14 0.14 4699.20 C IT 2 CAK2 0.13 0.13 . 45-90.79 Q_ U _C.AK2— Q. 15 0.15 0.15 Q .15 4701 IFE I.U ) . 1 CA AW7Q 0.06 0.Q6- 4595.99 II 1 CAK 2 0. 10 0.1C 0. 10 0.10 1 K AW70 0. 12 0. 12 4603 1 I l CA AW70 0. 12 0.10 0. 12 0.10 4702.22 O II 2 CAK2 0. 20 0.20 _1 H—A W 70„. . 0103- 0.10 0.08 .10 -4-702.22-1 FE -LU I _2 C AKZ- 0.20 Q. 20. 4605 0 CAK 2 0.12 0.12 0. 12 0.12 4711.27 (AR IV ) 1 CAK2 1.42 1.44 1.44 4606 (FE II ) 1 CA AW70 0. 06 0.06 0.06 0.06 2 CA AW70 2.00 2.03 4609.48 O I I J CAK2 Q.1Q- Q.I 0 0. 10 0.10 2 K AW7C 0.92 0.94 4611 CAK2 0.20 0.20 0.21 0.21 1 CS BCA 1.33* 1.35* 4615 CAK2 0. 06 0.06 0.06 0.06 1 F 5 BCA 0. 17* 0. 17* 4620.68 O I I -CAK2 0. 09- 0.09 0.09 1 F6 BCA Q.94* Q.aa* - 4624 O CAK2 0. 03 0.03 0.03 0.03 2 PE BCA 0. 80 0. 81 4629 0 CAK2 0. 17 0.17 0.17 0.17 1 S3 BCA 1.38* 1.40* 4631 1 CA AW70 0.60 - Q.3 5 0.62 0.36 1 55 BCA 1.50* .52* A W70 0. 11 0.35 0.11 0.36 1 56 BCA 0.69* 0.70* 4633.74 N III l CAK 2 0.67 0.42 0.69 0.43 2 LA 2.60 2.64 1 CA AW70 «_5-0_ 0.42 —OjJLL- 0.43 _2 Q— 1.41 1.43 1 K AW70 0. 10 0. 10 4713.14 HE I 1 CAK2 1.42 1.44 1 S3 BCA 0.21* 0.22* 2 CA AW70 2.00 2.03 1 55..BÇA 1.12* _ 1115-*- _2 K AU7C Q.-92 0.93 56 BCA 0.64* 0.66* 1 CS BCA 0.27* 0.27* 2 TAM 4. 10X 4.20X 1 F 5 BCA 0.43* 0.44* 1 F 5 BCA 0.26* 0.27* 1 F6 BCA Qjl2.7* _ 0.27* S3 BCA 0.32* .33* 2 PE RCA 0.80 .81 1 56 BCA 0.21* 0.22* l S3 BCA 0.73* 0.74* 4638.36 _L CAK2 0.69 0.69 -0.71 1 S5 BCA 0.79* O-RO* 4640.64 N III 1 CAK2 1.56 1.20 1.60 1 .23 0.52* 0.53* 1 CA AW70 1.35 1.20 1.38 1.23 2.60 2.64 J. K AW7Q 0.70 1.20 0.72 1.23 1.41 1 «-43 2 F 5 BCA 0.22* 0.23* 4725 (NE IV ) I CAK2 0. 10 0. 10 1 S3 BCA 1.04* 1.07* 4734 1 CA AW70 0.03 0.03 0.03 0.03 L S5 -BCA 2.18* _ 2.23* 4740.00 (AR IV ) l CAK2 QL93 . 0.68 0.94 0.69 1 56 BCA 1.17* 1.20* 1 CA AW70 0. 78 0.68 0.79 0.69 2 LA 7.00 7. 17 1 K AW70 0.39 0.68 0.40 0.69 _2 TAM . IPX 4.70X 1 CS BCA 0.75* Q. 16* 4641.72 N III 2 CAK2 0.0 0.0 l F 5 BCA 0. 17* 0. 17* 2 S3 BCA 0.60* 0.61* 1 F6 BCA 0.23* 0.23* NGC 6543 (PK NO. 96+29 1) NGC 6543 (PK NO. 96+29 1Í 556 © American Astronomical Society • Provided by the NASA Astrophysics Data System TABLE 8—Continued NGC 6543 (PK NO. 96+29 1) NGC 65*3 (PK NQ, 9fr+¿.9 1) WAVE IDENT N RG REF OBS I AVE O CORR I AVE C WAVE IDENT N RG REF OBS I AVE O CORR I AVE C 197 6ApJS 4740.00 1AR _Ly_. ). I-PE. BEA 0.20 0.68 5270 (FE III) 1 KA AW70 0.08 0-13 0.08 0.13 1 S3 BCA 1.05* 1.06* 1 KB AW70 0. 13 0.13 0. 13 0.13 1 S5 BCA 1.74* 1.76* 5335 (FE VI ) l KB AW70 0.05 0.05 0.05 0.05 \ $6 gÇA 0.95* 0.96* -5A11- HE....I I -1 Q_ 1.32 1.32 1.25 1 . ?5 1.12 0.68 1.13 0.69 l VV 2 3.60X 3.42X 1 CA AW70 0.06 0.06 0.06 0.07 5484 (FE VI ) i KB AW70 0.04 0.04 1 K AW7Q Q.Q7 . 0.06 0.07 0.07 .5517- < cu... n n J A_Jl£2 -Q.t.6¿*.. 4756 CAK2 0.21 0.21 0.21 0.21 1 CB AW70 0.38 0.41 0.36 0.39 4789.20 (F II ) CAK2 0. 05 0.05 0.05 0.05 1 KA AW70 0.30 0.41 0.28 0.39 A797 CAK2 Q. 11 Q.-LL _Q.11 . 0.11 .1 KB AW.7Q —Q. 55- 0.41 -Q^52_ 0.39 4805 CAK2 0.08 0.08 0.08 0.08 l C2 DG75 1.00* 0.94* ^815 CAK2 0.09 0.09 0.09 0.09 l C3 0G75 1.00* 0.94* 4825 CAK2 0.11 0,11 0.11 0.11 1 NE DG75 l.QQ* 0.94* 4846 CAK 2 0.08 0.08 0.08 0.08 1 S 2 DG 75 1.00* 0.94* 4861.30 CAK2 100.00 100.00 100.00 100.00 1 SW DG75 1.00* 0.94* . A Al 100.00 100.00 100.00 IQQrQO .5537. (CL III) J1 CBA AW70 AE2 l.QQA- Q.9A» 100.OOX 100.OOX 0.65 0.64 0.61 0.60 1 PE BCA 100.00 100.00 100.00 100.00 1 KA AW70 0. 39 0.64 O. 37 0.60 1 CPDA 100.00 100.00 100.00 100.00 1 KB AW7Q Q. 89 Q.64 Q. 84 Q..6Q GU 100.00 100.00 100.00 100.00 1 C2 DG75 1 . 53* 1.44* LA 100.00 100.00 100.00 100.00 1 C 3 DG7 5 1.67* 1.57* LA54 1QP.QQ . 1PQ.QQ LP.Q» QQ . 100.00 1 NE DG75 It 55* 1.46* I WK LKG 100.OOX 100.OOX 1 S2 DG75 1.00* 0.94* 1 MA62 100.00 100.00 100.00 100.00 i SW DG7 5 1.64* 1.54* _J ÜS 1-QO..QQ 100.00 LQQ.QQ 100.00 5592 1 KA AW70 0.09 0.08 O 100.00 100.00 100.00 100.00 1 CB AW70 0.08 0.08 0. 07 0.07 OCB 100.00 100.00 100.00 100.00 1 KA AW 70 0.07 0.08 0.07 0.07 TAM 1QQ.QQX IQQ.QQX- 1 KB AW70 0.08 0.08 0.07 0.07 l VV 2 100.OOX 100.OOX l CR AW70 0. 18 0. 15 0. 17 0.14 1 CA AW70 0.05 0.12 0. 05 0.12 l KA AW70 0.07 0.15 0.07 0.14 _1 K A win _2Ú .12 _20 •-L2— KB A-M7Q 0- »9 0.1 5 n. ir 0^14 4903 CAK 2 0. 09 0.09 0.09 0.09 i CB AW70 0. 24 0. 76 0.22 0.70 4906.63 O I I CAK2 0.09 0. 0.09 0.09 i KA AW700 0.83 0.76 0. 0.70 4921.93 HE I CAK2 1.33 1. -JL.32 1.73 1 KB AW7QZ 1.20 Q. 76 1. 11 0.70 1 CA AW70 1.80 1.74 1.79 1.73 5801 C IV l KB AW70 0. 06 0.06 0. 06 0.06 1 K AW70 2. 10 1.74 2.09 1.73 5806 HE U l KB AW70 0.01 0.01 0.01 0.01 1 f.S BCA 1.46» 1.45*- 5812 _C LV_ -1 ..KB AW.7.Q -O. Q7_ 0. Q 7 Q.Q6 . 1 F 5 BCA 0.95* 0.94* 5875 1 CB AW70 16.60 15.44 15. 19 14.13 1 F6 BCA 0.45* 0.45* l KA AW7 0 10.40 15.44 9. 51 14.13 1-S 5 BCA -1^50* 1.49* .1 KB A.W7 0 . 14. 20. 1 5.44 12.99 14.13 1 Sfr BCA 1.16* 1.15* 1 PE BCA 17.80 15.44 lo. 29 14.13 4631 (O III)’ 1 K AW70 0.06 0.06 0.06 0.06 l MA62 18.20 15.44 16.65 14.13 4931.81 m un J CAK2— r>. ?8 n.l 7 .0.25 0.17 1 VV 2 26. 7Q.X 24.43.X. 1 CA AW70 O. 09 0.17 0.09 0.17 l PE BCA 1.30 1. 15 4942 O CAK 2 0.09 0.09 0.09 0.09 1 CA« 0. 00* 0.00* 4944 CAÜL2- SU- 0.2-8 - -0.23 .-23— _1 V-V 2 21.8QX 19.32X 4958.90 (P I I I ) 1 CAK2 227.00 210.31 225.02 208.48 6310 ( S II) l PE BCA 1.30 1.30 1. 15 1.15 A41 210.00 210.31 208.17 208.48 6364 ( G I ) l PE BCA O. 10 0.10 0.09 0.09 _AiJ 24i.nnx- 248.81X 6548 _1_N II ) 3. PE B£A .381.4Q 332.83 l PE BCA 163.00 161.58 OCB 15.20 13. 26 l WK CAK2 0.13* 0. 13* CAM 1.00* 0.87* _J CPDA 218.80 2.16. 89 _0 -3.16. nn 274.48 1 LA 211.00 210.31 209.16 208.48 316.00 275.48 1 LA54 219.00 210.31 217.09 208.48 VV 2 341.OOX 297. 28X 1 WK I KG 491. OOX 486.72X —W— 1. OPA.. 0.87* MA62 204.00 210.31 202.22 208.48 6563 (N II) PE BCA 381.40 332.50 MS 211.00 210.31 209.16 208.48 VV 2 34 i.OOX 297.28X O 229.00 210.31 227.00 208.48 6583 (N II ) PE BCA 381.40 332.05 TAM 198.OOX 196.27X CAM 0.17* 0.15* VV 2 170.OOX 168.52X O 9. 55 24.22 8. 31 21.09 5006.80 (0 IIP CAK¿ 665.00 650.46 656.32 641.97 OCB 3-8« 9Q ¿4«_2¿ -33.87 21.Q9 A41 600.00 592.17 0.03* 0.03* AN 692.OOX 682.97X 6678 HF I 1 PF BCA 3.70 3. 20 1 PE BCA 726.00 650.46 716.52 641.97 6717 ( S II) 1 B AE2 0.50* O. 43* 1 WK CAK2 0.69* 0.68* l PE BCA 3.90 3. 37 l CPDA 6o0.70 650.46 652.08 641.97 l WD 0. O. 51* _! LA- 644.00 650.46 635.59 641.97 b730 _1 B AE2 1. Q. 86* LA54 667.00 658.29 1 PE BCA 3.50 3.02 1 WK LKG 1508.OOX 1488.32X 1 WO 1.00* 0. 86* _J MAfrZ. 645.00 596.00 636.58 588.22 6678 HE I 2 PE BCA 11.1Q 9.61- 6724 ( S II) 2 PE BCA 1 1. 10 9. 58 TAM 488.OOX 481.63X 7065 HE I 1 PE BCA 6. 00 5. 09 5.98 VV-2- 63 ¿.OOX 621.78X l O i_L2_ 5.98 5007 (0 II) l BDO 398.00* 392.80* (AP III) 1 PE BCA 23.20 22.80 19. 59 19.25 5016.83 HE I l CAK2 2. 17 2. 14 I O 22.40 22.80 18.92 19.25 1 F 5 BCA -Q.-S.9* Q«98* . -LO U ) l. PE ßC.A 1.35 U35 1. 13,., U13 1 F 6 BCA 0.66* 0.65* 7325 (n ii) 5. 01 5.01 4. 19 4.19 1 S5 BCA 1.68* 1.66* 7330 (C II) 1 PE BCA 1.35 1.35 1. 13 1.13 1 S6 BCA 1.07* 1.05* —Z-751 . t AR III) 1 Q 7.25 .25 —5-«-93_ 5.93 5032.97 C I I 1 CAK2 0.49 0.49 0.48 0.48 1.23 1.90 0.97 1.50 5041 SI II 1 CA AW 7 O O. 13 0.17 O. 13 0.17 2.58 i .90 2.03 1.50 1 K AW70 0.21 0. 17 0.21 0.17 3.32 3.32 ?. 60 2.60 HE I l CA AW70 0.26 0.26 0.26 0.26 9069 (S III) 41. 70 41.70 32.49 32.49 1 K AW70 0.27 0.26 0.27 0.26 9229 H I 4.26 4.26 3.30 3.30 . ,5JÍ¿.6 $1 II 1 CA AW70 Q.14 Q.L2- . Q..14 Q.12 .9539 _EL -.51« 40... 39. 50 A W 70 0. II 0. 12 O. II 0.12 9539 ( S III) 51.40 39. 50 5081 0 CAK2 0.60 0.60 0.59 0.59 10049 I 8.91 8.91 6. 76 6.76 5.158 (FE VID 1 CA AW7Q 0.Q2 Q.Q2 0.02 Q.Q2 10120 HE —1 I 3. 89 3.89 95_ 2.95 i K AW70 0.02 0.02 0.02 0.02 10320 { S II) O 129.00 129.00 97. 29 97.29 5175 0 CAK 2 0.48 0.48 0.47 0.47 10829 HE I GU 41. 00 36.70 30. 57 27.36 5-191 -LAR OI) 1 CA AW7Q Q.Q7 0« 08 -Q..Q7 0.08 37- An 36.« 7Q -24« 15- 2 7^36 l K AW70 0.11 0.08 0.11 0.08 1 KA AW70 0.06 0.08 0.06 0.08 REGIEN KEY (REGION,RE FER PNCE,FXPLANAT ION) 1 _KB AH7Q fl.QB Q« QB— Q.Qfl -Q,QB AE2 REGIONS A AND B ON DIFFERENT SCALPS l CA AW70 0.01 0.22 0. 01 0.22 CA, AW70, 5.5 ARCSEC NORTHWEST OF STAR 1 K AW70 0.54 0.22 0. 52 0.22 CB, AW70, 4.5 ARCSEC WEST OF STAR .1 KA AW7Q 0.23 Q« 22 0.2? Q.22 K. AW7 0, KNOT ON PLATE WITH REGION CA 1 KB AW70 0. 11 0.22 0.11 0.22 AW70, KNOT A ON PLATE WITH REGION CB 5200 (NI ) 1 CA AW70 0.03 0.03 0.03 0.03 KB, AW70, KNOT B ON PLATE WITH REGION CB 5270 (FE HI) 1 CA AW7Q 0.08 Q. 13 Q.Q8 Q. 13 CS. BCA , OBSERVED AT CENTRAL STAR 1 CB AW70 0.10 0.13 0.10 0.13 BCA FILAMENT SOUTHWEST OF STAR, REGION 1 l K AW70 0.28 0.13 0.27 0.13 BCA FILAMENT WEST OF STAR, REGION 1 NGC 6543 (PK NO. 96+29 1) NGC 6543 (PK NO. 96+29 1) 557 © American Astronomical Society • Provided by the NASA Astrophysics Data System TABLE 8—Continued 197 6ApJS. . .31. _NGC-6¿43 1 PK N CL 96t29 H . BEGIN NGC j6567 ( PK NQ. U -Q_21 Q.71 (RADIQ-H BETA) F3» BCA FILAMENT S OF ST AP « REGION 2 WAVE ÎOENT N RG REF OBS I AVE CORR I AVE C F4t BCA FILAMENT N OF STAR, REGION 3692 _HH II L. AÇPQ 3.» 84 3 «9-4 6.35 6.35 BCA FILA ME NT SW OF STAR» REGION 3 3697 ACP G 4.36 4.36 7.20 7.20 F6 BCA FILAMENT NW OF STAR, REGION 3 3703 H I ACPG .76 4.76 7.84 7.84 PE, BCA » PHOTOELECTRIC 3705 HE I ACPG «40 9.40 47 15.47 51, BCA , I NT E PF ILA MENT WEST OF STAR, REGION 1 3712 H I 1 ACPG 5.46 8.96 52, BCA , INTERFILAMENT WEST GF STAR, REGION 1 3722 H I 2 ACPG 4.49 7.33 53, BCA , TNTEFFILAMENT S OF STAR. REGION 2 . 3722 _i_S III) 2 -ACPG 4.49 .33 $4, BCA , INTERFILAMFNT N OF STAR, REGION 2 23.00 37.46 S 5, BCA , INTPRFILAMENT SW OF STAR, REGION 3 ACP 27.80 45.28 -SA, BCA , INTERFILAMENT NW OF STAR. REGION 3 ACPG 40.90 66.62 WK, CAK2, WF ST KNOT 3729 (0 II ) 1 ACPG 24.20 39.38 CI, DG7 5, MAX. GF 95 POSITIONS NEAR CENTER. SEE REF. 3 734 H I 1 ACPG 6.37 6.37 10.34 10.34 DG75. MAX. IN CENTRAL REGION 3750 H I 1 ACPG 6.94 6.94 11. 19 11.19 C3, DG75, MAX.OF 148 POINTS,4.5 ARCSEC SW OF CENTER,SEE REF. 3770 H I I ACPG 7.97 7.97 12.73 12.73 NE, DG75, A PEAK VALUE 15 ARCSEC NE OF CENTER. 3797 H I 1 ACPG 10.00 10.00 15.78 15.78 SI. DG75, MIN. OF 95 POSITIONS, 14 ARCSEC S OF STAR,SEE REF. 3819 HE I L_ -ACPG 2.21 2.21 —3.45_. 3.45 DG75, MIN.OF 148 POSITION,13 ARCSEC S CF CENTER,SEE REF. A 9.80 12.07 15. 18 18.69 SW, 0G7 5, A PFAK VALUE 15 ARCSEC SW OF CENTER. ACP 12.20 12.07 18.89 18.69 HK. LKG t WEST K.NQI _ ACPG— L4-.2Q 12.-QJ 21.99_ -La^9 (NE III) 1 56.00 61.60 85.33 93.86 NGC 6543 (PK NO. 96+29 1) ACP 56. 30 61.60 85.78 93.86 -ACPG 9.5.. 70 . 61.60 145.82 .93^86 68. 00 61.60 103.61 93.86 VV5 32.00 61.60 48.76 93.86 BEGIN NGC 6563 ( PK NO. 358 -7 1) 0.33 (RADin-H BETA) A 21.QQ 21.00 31.67 31.67 ACP 19.00 28.65 WAVE IDE NT N RG REF OBS I CORR I AVE C ACPG 27.00 40.72 4363 _H I __2 JQ6Q 43.00 42.37 _ ACP 19.00 28.65 4363 III) 2 J 06 0 43.00 47.37 ACPG 27.00 40.72 4861 I l J 06 0 100.00 100.00 100.00 (NE III) 2 A 27.00 39.40 0063 1QQ.QQ 10Q.QQ 1QQ.QQ 1QQ.QQ 2 - ALP 30.10 4.3.93 4959 (C III ) 1 J06C 75.00 75.00 73.80 73.80 VV 5 21.00 30.65 5007 (O I 11 ) 1 J060 160.00 536.00 156.19 523.22 A 27.00 39.40 0063 912.00 53 6.QQ_ 890.26 523.22 _ ACP 30.10 43.92 (S TI ) l J060 45.0 23.55 34.36 32.00 46.69 NGC 6563 < PK NO. 358 -7 1) ? 1-. 00 3970 (NE III) 2 32.00 46.64 4026 HE I l 5.30 3.81 7.54 5.43 L- 2.33 3.8-1 3.3? 5.43 BEGIN NGC 6565 (PK NO. 0.3Ó (RAOIO-H BETA) 4069 (S 11)2 5.70 7.95 4076 4 06 7 (S II ) 2 5.70 7.93 N LU 2_ ?U 10 —29.06 3444 III AKI 6.60 6.60 8.99 8.99 A 25.00 23.27 34.37 31.99 3686 I AKT 1.00 1.00 1.29 1.29 ACP 21.10 29.01 -AKT— ACPG 25.80 23.27 35.47 31.99 3 697 AKI 1.30 1.30 1.68 1.68 M 19.00 23.27 26.12 31.99 3704 AKI 2. 30 2.30 2.96 2.96 VV5 31.00 X 42.62X .3704 AKI 2.30 2.30- 2.96 2.96 44.no 41.10 54.69 51 .08 3712 1 AK I 2.00 2.57 ACP 33.90 42. 13 3722 2 AKI 4. 50 5.77 ACPG 48.40 41. 10 60. 16 51.08 -3722 ? AKI 4«-50 - 5.77 35.00 4 1 . 1-0 -43.50- 51^38 AKI 170.OP 217.76 37. 00 41.10 45.99 51 .08 VV4 53.00 67.89 (0 III ) I 5.70 7.43 7.02 9.15 -3729 AKI _ 19QU)0- 243..21 2_ 33.90 41.74 3734 H I AKI 2.30 2.30 2. 2.94 9.59 7.43 11.81 9.15 3750 H I AKI 3. 70 3.70 4.71 4.71 7.00 7.43 8.62 9.15 3771 H ! AKI 5.10 5.10 6.47 6.47 6.00 7.04 7.08 8.31 3797 H I AKI 6. 40 6.40 8.06 8.06 ACP 8.59 7.04 10. 14 8.31 3819 HE I AKI 1.00 1.00 1.25 1.25 ACPG 6.53 7.04 7.71 8.31 —38.3-5— _h I— AKI 8 «00 «9.SL- -«-9-9 - - VV-5 .¿¿L, QQX— 3Q,7QX 3868 AKI 112.00 83.50 138.66 103.38 4686 HE I I 1 VV5 23.00X 24.78X VV4 55.00 83.50 68. 09 103.38 4711 ( AR TV ) 2 ACPG 4.90 5.22 3889 AKI 22.ÛQ 27. IQ 4713 HE I 2 ACPG 4.90 5;22 3889 HE I AKI 22. 00 27. 10 100.00 100.00 100.00 100.00 3967 (NE Id) AKI 38.00 38.00 46.03 46.03 ACP 100.00 100.00 100.00 100.00 29710. . H L AKI 17.00 17.00 2Q.58 20.58 ACPG 100.00 100.00 100.00 100.00 VV4 22. 00 26.63 100.00 100.00 100.00 100.00 3970 (NE TIT) VV4 22.00 26.63 100.00 100.00 100.00 ICO.00 - 4Q2£_ ..HL.J[ AKI 3.-00 - 3.00 3.59 3.59 VV5 100.00 -IQQ.flQ 100.00 100.00 4068 ( S II) 1 AKI a. 70 8. 70 10.30 10.30 (C 111)1 320.00 340.77 309. 12 329.18 4076 ( S II) l AKI 3.00 3.00 3.55 3.55 ACP 353.00 340.77 341.00 329.18 4097 _ N I IJ JL AKI 1.00 1.00 1.18 1.18 . ACPG 301.00 340.77 329.18 ¿9Q.I-7- 329.18 4101 H I l AKI 25. 00 17.50 29.38 20.57 323.60 340.77 312.60 1 VV4 10.00 17.50 11.75 20.57 400.00 340.77 386.40 329. I 8 4340 __H I 1 AKI - 42-«-QQ_ 32.5.0. 46. 90 3fr_«29 347.00 340.77 335.20 329.18 2 VV 37. 00 41.31 (0 III ) 1 790.00 979.40 750.04 929.86 l VV4 23.00 32.50 25.68 36.29 ACP 1094.00 979.40 1038.66 929.86 4363 _LC 1 I I I 1 AKI 8.70 8.70 9.67 9.67 COAL 1QQQ.QQ 979.4Q 949.42 929*86 37.00 41.12 1120.00 979.40 1063.35 929.86 4471 HF I AKI 5. 10 5.10 5.55 5.55 VV5 893.00 979.40 847.83 929.86 4541 HE I I AKI 1.00 l.OQ- 1.07 1-..07 5876 HE I- . VV5 . 28.00 28.00 19.71 19.71 4571 MG I AKI 1.20 1.20 1.28 1.28 6300 I ) 1 VV5 15.00 9.32 4686 HE I I AKI 17. 00 12.75 17.66 13.24 6563 H I 2 VV5 427.00 248.52 -VV4- 8.50 12.75 .83 . 13.24 6563 (N II ) 2 VV5 427.00 248.52 4740 (AR IV ) AKI 1.30 1.30 1.33 1.33 4861 H I AKI 100.00 1 CO.00 100.00 100.00 NGC 6567 (PK NO. Q063 IQQ.OQ _1 QQ.Q-Q- 1QQ.QQ 1QQ.QO VV 3 100.00 100.00 100.00 100.00 VV4 100.00 100.00 100.00 100.00 .4959 . __LC I III -VV. .3— 324.00 272.Q.Q 31B.37 267.27 BEGIN NGC 6572 tPK NO. 34+11 1) C = 0.41 (RADIO-H BETA) 1 VV4 220.00 272.00 216.18 267.27 1 00 6 3 1380.00 1026.67 1344.15 1000.00 WAVE IDENT N RG REE OBS I AVE O CORR I AVE C _1 1026.67 974.0? 1 000.00 VV 3 IQJQ^OQ- 1026.67 3107 O AK2 0.25 0.2 5 0.39 0.39 1 VV4 700.00 681.82 1000.00 3109.00 (AR III) 1 KA 0.25 0.25 0.39 0.39 6300 (01 ) I VV 3 66.00 66.00 51.85 51.85 3120.80 0 III 1 A K2 0.42 0.42 0.65 0.65 6563 _y L _2 VV4— 65Q.QQ 49:4.00..- 3127 0 AK2 0^2] Q*2J 0.33 0.33 ( N 11)2 VV 3 1550.00 l 177.99 3131.98 0 III A K2 0. 59 0.92 VV4 650.00 494.00 3187.55 HE I AK 2 2.00 3.06 VV 3 155Q^QQ._ 1 177.68 3187.55 NF I 1 AK2 2.00 ( S II)I 3201.20 0 0.15 0.15 0.23 0.23 3206 0.22 0.22 0.34 0.34 NGC 6565 (PK -NO. NGC 6572 (PK NO. 558 © American Astronomical Society • Provided by the NASA Astrophysics Data System TABLE 8—Continued 197 6ApJS. . .31. NGC 6572 (PK NQ. 34tll 11 NP,r 6S72 (PK ND. 34U.1. 1) WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IOENT □ BS I CORR I _^?Q7t93- AR II 1 AK2 Q. 15 0.15 Q.23 ^7?7.00 n ! T 1 1 « QQ*_ .33* 3211 O AK2 0.15 0.15 0.23 AUV 1.00* 1.33* 3234 0 KA 0. 16 0.16 0.24 LA 45.00 59.66 0.09 0.09 ^2t40 3239 3241.91 SI III _Q AK2 AK2 0. 08 _ûm. 0.12 l LA-Q.P-Ç PTP 35.50 47.07 3243.91 NE II AK2 0.12 O. 18 1 VV 2 26.40X 35.00X 3243.91 NE. .11— AK2 Q. 12 O. 18 in ir) -l Atí_ 0.46* 0.61* 3246 AK2 0.12 0.12 0. 18 0.18 1 AUV 0.45* 0.60* 3258.38 SI III AK2 0.23 0.23 0.34 0.34 3732.85 HE I 1 AK2 0. 11 O.ll 0. 15 0.15 3260.70 O III KA 0.17 Q»17 -Q_^2JL- -0.^2? 3734.38 _H L_ _J. AK2 2.64 -¿.64_ 3.49 3.49 3262.60 C III 1 KA 0.08 0.08 0. 12 0.12 3737 KA 0.04 0.04 0.05 0.05 3293.33 AR II l AK2 O. 15 0.15 0.22 0.22 3740 AK2 0. 05 0.05 0.07 0.07 3296.76 HE I 1 AK2 0.20 0.20 Ot 30 _0-.3Q 3745.91 AK? Q.Q5 0.05- 0.07- O .01— 3299.30 O III 1 AK2 0.05 0.07 0.07 0.10 I 3.65 5.93 4.81 1 KA 0.09 0.07 O. 13 0.10 3.65 3.69 4.81 3312.30 D LLL J AK2 .10 -0.15 0. 1 5 3754.69 Q_ I T I -0-^20- 0.20. 0.26- 0.26- 3334, 1 AK2 0.14 0.14 0.21 0.21 3755.94 HE I l AK2 0.09 0.09 0. 12 0.12 3338 0 AK2 0.08 0.08 0. 12 0.12 3757.33 O III l AK 2 0.07 0.07 0.09 0.09 3340, SJQ Q LLL 1 AK2 0.13 -0.13 . O,. 19- 0.19 3759.84 O III 1 AK2 O. 14 0.97 Qtl8_ U27_ 3342. 81 (NE III) AK2 0.20 0.29 1 A41 1.80 C. 97 2.37 1.27 3345. 82 NE 11 A K2 0. 13 0. 19 3762.43 1 A K2 0.05 0.05 0.07 0.07 3345. Â2 N£_ U_ AK2 Q-t-L3 0.19 ?7fr4 _Q KA_ -0.03 - 0.03 0.04_ 0.04- 3345. 82 NE I I AK2 0. 13 0. 19 3768.77 HE I AK2 0.11 0.11 0. 14 0.14 3345, 82 (NE V ) A K2 0. 13 0. 19 3770.61 H I AK2 5.40 3.87 7.08 5.07 3347.94 0 III 1 AK2 -Q..Q8- 0.12 A41 -2.30- -3.8 7- 3.01_ -5..Q7_ 3353. 32 NE I I 2 AK2 0.09 0. 13 1 LA 3.90 3.87 5. 11 5.07 3353, 32 (CL III ) 2 AK2 0.09 0. 13 3773.94 0 III 1 A K2 O'. 08 0.08 0. 10 0.10 —3354.16 HE I 2 AK2 0.15 0.22 3777.10 NF IT _J AK2 n.ofl 3354. NE I I 0. 15 0.22 3780 0.05 0.05 0.07 0.07 3356. Q III 0.15 0.22 3783.10 0.05 0.05 0.07 0.07 3367. -0 U AK2 0.09 Q. 13 3784.86 . 0.09 _ 0.09 0. 12 0.12- 3367. 16 NE 11 AK2 0.09 0. 13 3791.14 0 III AK2 0.06 0.08 3367. 16 S 0.09 0. 13 3791.14 NE II AK 2 0.06 0.08 33Rt>. &n o_ inhi AK2 Q. IQ JCL.14 31-95 —A-K.2 -Q.Q5 _ -JQ.07- 3385. 8C NF I I 0. 10 0. 14 3797.81 H I AK2 5.47 4.69 6.11 3387. 00 S III 0.15 0.15 0.22 0.22 A41 3.40 4.69 6.11 3411. _42 NE_ U Q^-1.5— 0.1 5 0.22 0.22 -■inn _ 3439, 92 0 III l AK2 0.0 0.0 0.0 0.0 l OPC 4.80 4.69 6.25 6.11 3444. 10 0 III 1 AK2 0.11 0.11 0. 16 0.16 3805.65 l A K2 0. 13 0. 13 0. 17 0.17 -3447. HO HE_ I -1 AK 2 0.26 -0.37 0.37 3 AO 8 _0 KA 0. 06 0.08- 3450. 2 7 HE AK2 0.06 0.09 3811.20 P III 0.07 0.07 0.09 0.09 3450. 27 0 III AK2 0.06 0.09 3817 KA 0.06 0.06 0. 08 0.08 —3-454. A3 HE- J AK2 0.05 -0.07 3B19.59 HF I . AK2 _ 1-.7A _ 1.78- -?_nn- —2-^30— 3454. 43 0 AK2 0.05 0.07 3831.75 S III 1 AK2 0.03 0.04 3456. 87' HE AK2 0.08 0. II O.ll 3833.55 HE T 2 AK 2 0.13 0. 17 3466. .2-8 HE- AK 2 CUQB 0. 11 ^833.«S8 HF II _2 AK2 0.13 _ -0.17- 3466, 28 0 III 2 AK2 0.08 0.11 A K2 7.30 7.02 9.40 9.04 3470. 50 0 I I 1 KA 0.08 0.08 0. 11 O.ll A41 6.00 7.02 7.72 9.04 3471.89 HE- -I AJL2— 0.12 0.17 - 8.50 - 3479. 06 HE AK2 0.14 0.14 0.20 0.20 1 OPC 7.60 7.02 9. 78 9.04 3481. 95 NE AK2 0.08 0.10 0. 11 0.14 1 LA PTP 5. 70 7.02 7.34 9.04 -KA 3838.26 HE ! 3 AK2 Q. 06 -Q.Q8- 3487.79 HE I l AK2 0.14 0.14 0.20 0.20 3838.26 TI AK2 0.06 0.08 3498.69 HE I l A K2 0.17 0. 17 0. 24 0.24 3838.26 III AK2 0.06 0.08 3503.5fl NF II- _J KA- 0.06 0.06 0.08 0.08 3841 .95 AR II AK 2 o. ns n. nA 3512, AK2 0. 18 0. 0.25 0.25 3848.10 II AK 2 0.09 0. 12 3530. AK2 0. 19 0.19 0.26 0.26 3856.06 SI II AK2 0.09 0. 12 3543. 0.07 0.07 0. 10 0.10 3856.06 AR I I A K2 0. 09 0. 12 3554, 0.28 0.2 8 0.39 0.39 3856.06 N T I AK2 0.09 0. 12 3563, 0.08 0.08 0. 11 0.11 3856.06 0 I I AK2 0.09 0. 12 3587. AK2 0.34 0.34 0.47 0.47 3857.58 0 I I A K2 0.04 QtO* 0.05 3599 .80 HE 0.08 0. H 3858 0 AK2 0.04 0.04 0. 05 0.05 3599 .80 HE 0.08 0. 11 3862.41 SI I I 1 AK2 0. 14 0. 14 0. 18 0.18 3613 LÍO tiE_ Q.45. Q. 61 J] LL_ AK 2 Q. 14 0.14 Q. 18 0.18 3615. 60 0. 10 0. 14 3868.73 1 AK 2 81.10 78.34 103.43 99.91 3615, 60 N KA 0. 10 0. 14 1 A41 58.50 78.34 74.61 99.91 3628. Jü NE— KA— Q»QB .11 1 Lô_ -86.90 - 78.34- . 110.82- 99.91 3634. 0. 55 0.55 0.75 0.75 1 OPC 100.20 78.34 127.79 99.91 3640 0.06 0.06 0.08 0.08 1 LA PTP 65.00 78.34 82.90 99.91 3658. 70 H L_ 0.0 0.0 1 VV ? 6I.9QX _7-8.t .9 4 X— 3659. 43 AK2 0.38 0.38 0.51 0.51 3870 0 AK2 0.29 0.29 0. 37 0.37 3660. 33 H AK2 0.36 0.36 0.48 0.48 3871.69 HF I 1 AK2 0.23 0.23 0. 29 0.29 3661. 12 tl_ AK2 '0.38 0.38 0.51 0.51 3884.20 _C LLL _1 KA— 0.05 0.05 0.06 0.06 3662. 29 l AK2 0. 36 0. 0.48 0.48 2 A K2 18. 10 22.95 3663. 39 H 1 AK 2 0.43 0.43 0.58 0.58 2 A41 14.30 18. 13 3664. ¿5 H_ 1 AK2 0.40 0.40 Q. 54 0.54 2 LA 14.30 -18 ■ 13- 3666, 09 1 AK2 0.44 0.44 0.59 0.59 18.40 23.33 3667. 69 H 1 AK2 0.55 0.55 0.74 0.74 22.50X 28. 53 X -3669. A3 t!_ _J AK 2 0.50 ■0.5 Q 0.67 -0.67 3888.89 HE I AK2 .18.10 _ 22.95 3671, 45 AK2 0.62 0.62 0.83 0.83 2 A41 14.30 18.13 3673, 72 H AK2 0.62 0.62 0.83 0.83 2 LA 14.30 18.13 3676, 13 H_ AK2 Q-..73 .73 .98 0.98 _2 VV 2 22.5QX- 3679, 35 1 AK2 0.77 0.77 1.03 1.03 3892 0 KA 0.05 0.05 0.06 0.06 3682. 79 1 AK2 0.89 0.89 1. 19 1.19 3896.30 1 KA 0. 05 0.05 0.06 0.06 .3686, 12 H_ _1 AK2 0.98 Q. 98 1.31 -1.31 3909 _Q ÜA_ 0.07 0.07 0.09 ...0.09 3689 AK2 0. 0. 0. 0.07 3911 05 0 0.05 0 0.06 3691. AK2 1. 14 1. 14 1. 52 1.52 3912.50 0.05 0.06 3694. AK2- 0.10 Q.1Q ■Q-. 13 0.13 3912.50 -K A 0.05 —Qj.fl.6 _ 3697. T AK2 1.51 1.51 2.02 2.02 3914 0 KA 0.05 0.06 3702. III AK2 0.21 0.21 0.28 0.28 3918.91 II 2 A K2 0.04 0.05 3703. _I A K2_ 1.70 1.70 ?.?7 3918 91 C T I 2 AK2 0.04 . 0.05 _ 3704. 97 HE I A K2 0.-93 0.93 1.24 1.24 3920.68 C I I I AK2 0.08 0.08 0. 10 0. 10 3707, 19 0 III AK2 0.22 0.22 0. 29 0.29 3926.48 HE I 1 A K2 0. 19 0. 19 0.24 0.24 -3.711 3A tL AK2 _2*. 2.1Q 2.79 3935.90 HE I.. _1 KA- 0.04 - Q.Q4 - —Q.^QS _ _Q.«Q5_ 3713, III AK2 0. 16 0.16 0.21 0.21 3946.00 II 0.04 0.05 3715, III l AK2 0. 21 0.21 0.28 0.28 3946.00 TI KA 0.04 0.05 3717 _0 KA Qm Q6 Q.« .06 - Q. 08 ■ JL. 08 3947.90 C LL KA -JLQ4 3721. I AK2 2.72 3.61 3951 0 KA 0.04 0.04 0.05 0.05 3721. III AK2 2.72 3.61 3954.50 1 AK2 0.06 0.06 0.07 0.07 -3-Z21. _LI AK2 2.72 3.61 _Q KA O.Qft 3727.00 (0 11)1 AK2 48.00 63.64 3963.00 Q I I 0.06 0.06 0. 0.07 A41 35.30 46.80 3964.74 HE I 1.35 1.35 1. 68 1.68 NGC 6572 (PK NO. 34+11 1) NGC 6572 (PK NO. 34+11 1) 559 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued NGf. 6 577 (P_K_ MO. ^4+11 1 L_ NGC_ 6572 (PK NO. B4tll 1) WAVE IDENT N RG REF OBS I AVE 0 CQRR I AVE C WAVE IDENT N RG REF OBS I CORR I 1967.45 (NF III) J AK? 19.BO 19.BQ 49.51 4-9.51 _434il«38 H I _i m 45-jJQX 51.81X A41 35. 00 43. 54 1 LA 56.60 40.64 64.17 46.08 2 LA 42.70 53. 12 1 OCB 36.20 40.64 41.04 46.08 2 OPC 37.10 46.15 _J1 LA QEC 38. 5Q 40.64 -43^65 46.08 2 VV 2 37.20X 46.28 X PTP 41.70 40.64 47.28 46.08 1 AK2 39.80 49.48 1 EW PTP 40.70 40.64 46. 14 46.08 ? A 41 35.00 43.51 _2 VV 2 5Q.60X LA 42.70 53.08 4342.70 T I 2 AK2 0.22 0.25 OPC 37.10 46. 12 4342.70 I I 2 AK2 0.22 0.25 VV 2 37.2QX 46.24X 4345.38 _L A.K2 0.16 0. 18 3988 0.06 0.06 0.07 0.07 4346.80 (FE II > l AK2 0.08 0.08 0.09 0.09 3995.06 N II AK2 0.05 0.05 0.06 0.06 4348.24 N III l AK2 0.09 0.09 0. 10 0.10 4009.21 H£_J_ AK? 0.32 0.3.2 0.39 Q.39_ 4349.45 XL I âÜ2_ Qt 15 0.15 . 0.17 4024.01 1 AK? 0. 02 0.02 0.02 0.02 4363.10 (O I II) 1 AK? 8. 10 8.29 9. 13 9.35 4026.20 HF I I AK 2 2.96 2.52 3.63 3.10 1 A41 9.00 8.29 10. 15 9.35 _J A 41 2. QQ 2.52 2.45 3.10 J äh 14.8QX 1 LA 3. 10 2.52 3.80 10.80 8.29 12. 18 9.35 1 LA PTP 2.04 2.52 2. 50 OCR 8.68 8.29 9.79 9.35 4041.60 N II 2 KA 0.06 0.07 □ PC 7.60 8.29 8.57 4041.60 II 0. 06 0.07 1 LA PTP 7. 10 8.29 8.01 9.35 4056.40 I IT 0.05 0.05 0.06 0.06 l EW PTP 6. 75 8.29 7.61 9.35 4Q6Q.23 (FE IIVI )) 1-1 AK2 Q.Q5 0.05 . Q. 06- . 0.Q6- 5Q.6QX . 57.06 X 4068.52 (S 1.85 2.24 4365 0 AK2 0.07 0.07 0. 08 0.08 4069.90 0 I I 2 A K2 0.21 0.25 4366.78 1 AK2 0. 13 0.13 0. 15 0.15 ...40.6^90 Q_ _LL 2 A K2 Q.21 . Q. 2-5- 4368.25 1 AK2 Qtlß 0* 17 Q117 l A41 2.40 2.59 2.91 3.14 4372.04 0 I I 2 AK2 0.04 0.05 l LA 3.20 2.59 3.88 3.14 4372.04 AR I I 2 AK2 0. 0.05 1 1 A PXP 2. 18 7-59 2.64 3.14 - - 43 73 _fl A_K_2_ 0.Q4 0-04 4072.01 0AR II II 2 A K2 0.18 0.22 4375 0 AK2 0.04 0.04 0.04 4072.03 2 A K2 0. 18 0.22 4379.11 N III 1 AK2 0.06 0.06 0.07 __2 A-K.2.. 0-80 4387.84 -HE. .1 _l A-K2 0.65 0.65 4076.19 (S II AK? 0.66 0.80 4390.30 MG I I 1 A K2 0.05 0.06 4085.00 n II AK2 0. 05 0.06 4391.78 S I I 2 AK2 0.06 0.07 4087.20 Q. 06 . 0. 02. hi LE- 4391.78 NP T T _2 AK? 0.06 0.14 0.17 4411.13 I I 1 AK2 0.06 0.06 0.07 0.07 0. 06 0.07 4414.81 I I 1 AK2 0.07 0.07 0.08 0.08 4089. I 7 81 TV 0.14 0. I-Z -4416.94 —LI— _2 AK? 4093.20 II 0.06 0.06 0.07 0.07 4416.94 NF I I 2 AK2 0.06 0.07 4097.31 III A K2 0. 57 0.57 0.69 0.69 4428.28 NE I I 2 AK2 0.07 0.08 A41 - 4428.28 -NE—LX _2 UK-2— 4101.70 H l AK2 21.60 25.96 4430.50 AK2 0.04 0.04 0.04 0.04 1 A41 21. 10 25.36 4432.93 AK2 0.04 0.04 0.04 0.04 _J LA - 4437.41 AK? 1 OPC 22.20 23.18 26.68 27.86 4446.90 I I 1 KA 0.05 0.05 0.06 0.06 1 LA PTP 22.90 23.18 27. 52 27.86 4448.90 II 1 KA 0.05 0.05 0. 06 0.06 1 EW PTP 2 2^40 21.18 -26.92 -27.86- 4452.90 T I -J KA_ 0^115 0*115 0.06 0-06 l VV 2 25.90X 31.13 X 4465.16 II 1 AK2 0.03 0.03 4103.32 N III 1 AK2 0. 20 0.24 4467.82 I I 2 AK2 0.05 0.06 A-41 - 25.15 - 4467.8? I IT -2 AK? 0.05 0.06 4104.70 O II 1 AK2 0. 22 0.22 0. 26 0.26 4471.37 HE I 1 AK2 5.02 5.68 5.53 6.26 4116.50 SI IV l A K2 0.06 0.06 0.07 0.07 l A41 5. 80 5.68 6.38 6.26 - 4 1 1.9_ 2 6 0 LI— _1 AK?... 0. 10 0. 1 0 0. 1? 0.1? -J AN 16.-Q0 X. . -1 7.61 X 4120.79 ME I l AK2 0. 39 0.39 0.47 0.47 l LA 7. 40 5.68 8.15 6.26 4128.75 A» II l AK2 0.06 0.06 0.07 0.07 l OPC 5.20 5.68 5.72 6.26 4132.87 P II 1 AK? 0.08 0.08 Q.-LQ 0.10 1 I A PTP 5*00 5*68 5.50 4135 AK2 0.04 0.04 0.05 0.05 10.70X 11.78X 4143.63 AK 2 0. 55 0.49 0.65 0.53 4480.94 MG I I AK2 0.04 0.04 A41 0.34 0.44 0.40 0.53 4511.08 N III AK2 0.05 0.05 4145. AK2 0.04 0.05 4511.08 (K IV ) AK2 0.05 0.05 4145. 95 0 II AK 2 0.04 0.05 4513 KA 0.05 0.05 0.05 0.05 4153. AK2 0.09 0. 11 4518 _AJL2_ 0. 04 Qt.Q4 0.04 -QtQ4_ 4155 AK2 0.03 0.03 0. 04 0.04 4529 0 AK2 0.03 0.03 0.03 4163, 25 ( K V AK2 0.04 0.04 0.05 0.05 4534.29 MG I I 1 AK 2 0.05 0.05 0.05 4169. 04 _HE L_ AK2- Q. 10 Q. 12 _4562.12. - NF I I _1 AK2 Ü«-Q6 4169, 04 G II 3 AK2 0.10 0.12 4571.01 AK2 0.70 0.57 0.75 0.61 4169, 04 AR I I 3 A K2 0. 10 0. 12 A41 0. 44 0.57 0.47 0.61 -4185. AT □ LL _J A_K2__ Q.09 . 0*1-1 4590.81 G II AK 2 0.08 0.0 8 0.09 0.09 4186, l AK2 0.04 0.04 0.05 0.05 4596.12 0 I I I AK2 0.06 0.06 0.06 0.06 4189, 1 A K2 0.08 0. 08 0.09 0.09 4598.66 AR I I l A K2 0.05 0. 05 0.05 0.05 4192. 1 KA 0.04 0.04 0*05 Q «05 4604.55 (fe n ) 1 AK2 Q.Q5 Q. 05 _Q*- - 0 «05 4199 O AK2 0.04 0.04 0.05 0.05 4606.80 II 1 AK2 0.05 0.05 4220 O A K2 0.05 0.05 0.06 0.06 4609.87 0 I I 2 AK2 0.07 0.07 - 4 24-L. _2 A K2 a*-Q7 . O.-QB - 4609.87 -Q LI_ —2 AK2 Q.Q7 0.07 4241 80 N II 2 AK2 0.07 0. 08 4621.60 I I 2 AK2 .07 0.07 4245 0 AK 2 0. 07 0.07 0. 08 0.08 4621.6C I I 2 A K2 0.07 0.07 42-53,, A<] S ILL- A AK2_ Q.Q5 *35_ 0.06 4630 U —AJW.7-Q 0.07 Q.QJ 4257 0.06 0.06 0. 07 0.07 4630.50 2 A K2 0. 06 0.06 4267. AK2 0.63 0. 56 0. 73 0.65 4630.50 I I ? AK2 0.06 0.06 AA1 Q.5Q 0.56 0-58 0.65- 4634.05 TIT 1 AK2 0.28 0.30 4275.69 0 A K2 0. 07 0. 08 4 A41 1.60 1.69 4276.55 0 AK 2 0.05 0.06 l AW 7 0 0.21 0.24 0.22 0.26 4276.55 O AK? 0*-Q5— ...Q..-Û6 4638.58 O II _1 AK2 0.12 Q.12 0.^13 - 0.13 4283.70 0.06 0. 06 0.07 0.07 l AW70 0. 12 0. 12 0. 13 0.13 4288.00 N I I I A K2 0.08 0.08 0.09 0.09 4640.50 N III 1 AK2 0.50 0.50 0.53 0.53 4292.50 n JJ —ÄK-2 Q.Q7 0.07 0.08 0.08 _42 A.41 1-60 1*69 4295.30 II . 06 0. 07 AW70 0.69 0.73 4295.30 II 0.06 0.07 2 AK2 0.28 0.30 4303.82_ .11 Qj-Q6 - Q.QJ 2 AW 7 0 0.69 0.-I3 4313.60 C 0.04 0.05 4641.81 0 I I AK 2 0. 28 0.30 4313.60 G 0.04 0.05 4647.20 C III AK2 0. 0.09 4317.50 0 0. 10 QjJJ 4647.20 NE II -AK2 __a* KA 0.06 0.07 1 AK2 0. 0.31 4317.50 A K2 0.10 0. 11 2 A W70 0.45 0.47 4319.45 A_K2_ Q. 09 Q. 10 __4 A-41 1.60 1.69 0.09 0.09 0. 10 0.10 A K2 0. 17 0.17 0. 18 0.18 4322.00 C I I AK? 0.07 0.07 0.08 0.08 A W7 0 0.45 0.47 4325.90 -AK2._ 0.04 4653.7C 0 I_ _KA 4325.90 C_ -LE- 3 AK2 0.04 0.05 0.05 4657 (FE III) AW7 0 0*05 0.16 0-05 0.05 0.17 0.05 4325.90 3 AK2 0. 04 0.05 4657.97 AR I I AK 2 0.17 0. 18 4338 __Q AK2 -0*0 0.0 4657.97 iFE nn _JlK2 0. 17 AK2 34.80 40.64 39.46 46.08 A41 1.60 1.68 A41 36. 00 40.64 40. 82 46.08 AW7 0 0. 16 0. 17 NGC 6572 (PK NO. 34+11 1) NGC 6572 (PK NO. 34+11 II 560 © American Astronomical Society • Provided by the NASA Astrophysics Data System TABLE 8—Continued 197 6ApJS. . .31. NGC 6572 (PK NQ. 3*+H 1) NGC 6572 (PK NO. 34+11 1) WAVE IDENT N RG REF OBS I AVE 0 AVE C WAVE IDENT N RG REF OBS I CORR I AVE C *661.58 J] LI_ _1 AK2 Q.J.5- 0.15 0.16 5411 HE II 1 W 2 ^SQX 4.-Q1X l AW70 0.15 0.15 0. 16 0.16 l WYSE 0.80 0.71 4676.06 O II 1 AK2 0. 12 0.12 0.13 0.13 5418 l WYSE 0.70 A 0.62 A 1 AW70 -0-12 q»i2 0. 13 0-13 5464 1 AW70 0.10 . Q-v l O 0.09 4685 HE II l AW70 0.08 0.08 5503 1 AW70 0.05 0.05 0.04 0.04 1 VV 2 5.60X 5.85 X 5511 1 AW70 0.07 0.07 0.06 0.06 4702.00 IFF III) 3 ÜLA 0.06 0.06 5517 1 A AF7 Qj5Q* Q.44* 0. 13 0. 14 1 AW70 0. 76 0.66 4702.00 0.06 0.06 1 WYSE 1.50 A 1.31 A 4702.QQ KA 0.06 0.06 553? (CL III) 1 A AE2 IjlQQ* 0.87* 4711.21 (AR IV ) 1 AK2 0.80 0.83 1 AW70 1.45 1.26 2 A41 1.30 1.35 1 WYSE 3.00 A 2.60 A Z AW7Q . 1.73 1-79 5554 1 VV 2 9.60X 8. 30X LA 1.80 1.87 5577 (0 I ) l WYSE 2.00 A 1.72 A OPC 1.90 1.97 5626 1 AW 70 0.10 A O. ■ 4713.02 HE .1 -1 AK2 ■0.B9 . a.B9 Q.92 5635 1 AW7Q 0-20 A P. 2 A41 1.30 .35 5665 l AW 70 0.20 0.20 0. 17 0.17 2 A W70 1.73 1. 79 5677 (FE VI ) l AW70 0.20 0.20 0. 17 0.17 _2 LA_ 1« 80 1.87 5 754. _LN LL-L J AW 70 6.50 4.69 5..42 . 3»91— .2 OPC 1.90 1.97 1 LA PTP 2.88 2.40 4740.07 (AR IV ) l AK2 1.64 1.77 1.69 1.82 1 WYSE 12.00 A 10.01 A 1 A41 1.20 1.77 L.24. -L.B2 5800 _1 AH7C 4.00 A 3.31 A 1 A W70 1.50 1.77 1.54 1.82 1 WYSE 7.00 A 5.79 A l LA 2.90 1.77 2.99 1.82 l A W70 3.00 A 2.48 A 1 OPC .1^60 L.77 1.65 ...iJ.a2 _] WY-SJE. 6.00 A 4.45 A 4754 ( fe i in 1 AW70 0.06 0.06 0.06 0.06 l AHX 56.00* 45.73* 4781 N II l A W7 0 0.05 0.05 0. 05 0.05 1 AW 70 20.00 20.83 16.33 17.01 4804 0 WYSE 0.60 A-. Q.61 A _j npr ?•*. Qf> 20.83 1 9^-52 -17.QJ 4821 [FE III) l WYSE 0.60 A 0.61 A 1 LA PTP 18.60 15.19 4830 1 WYSE 0.70 A 0.70 A l VV 2 31.50X 25.72 X .4861.21 _ti I J AK2 100.00 100.QQ _1 WYSF 60.OP A 49.00 A l A41 100.00 100.00 100.00 5885 l WYSE 3.00 A 2.45 A 1 AN 100.OOX 100.OOX 5954 1 WYSE 2.00 A 1.61 A _L CPDA 100.00 i no.no inn.nn -616J _1 WYSE 1.50 A 1.-1J A 1 LA 100.00 100.00 100.00 100.00 6243 N II WYSE 1.50 A . 15 A 1 L A 54 100.00 100.00 100.00 100.00 6300 (0 1 > AHX 28. 10* 21.35* -J flS IQO.no 100.no 100.00 100.00 CAM 0.02* —0.02* 1 OCR 100.00 100.00 100.00 100.00 1 LA PTP 8. 10 A 6.15 A 1 LA PTP 100.00 100.00 100.00 100.00 l VV 2 31.50 X 23.93X 1 PW PTP 1 00.00 1 00.00 .100.00 —l WYSE 15.OP A 11-40 A 1 VV 2 100. OOX 100.OOX 6311 I WYSE 6.00 A 4.55 A l WYSE 100.00 A 100.00 A 6331 1 WYSE 1.50 A 1. 13 A (FF ITT ) J AW70 0.14 WYSE L—50 A 1.13 A 0.90 0.89 A (0 1 ) 1 AHX 7.70* 5.80* 0.0 0.0 l WYSE 8.00 A 6.02 A 0.99 A J WYSF ?.un a 1.49 A 4921.81 HE I l AK2 0.0 1.02 0.0 1.01 l OCR 35.00 33.30 25.66 24.42 1 AW70 2.04 1.02 2.01 l.Ol l LA PTP 31.60 33.30 23. 17 24.42 -I WYSE 3.95 A -1 WYSE 40.00 A 29. 33 A 4931.19 (0 III ) 1 AK2 0.0 0.09 0.0 0.09 1 CAM 1.00* 0.73* 1 AW70 0. 18 0.09 0. 18 0.09 1 LAP 10.00* 7. 32* 2 0.89 A -JWYSE ELLE. 371.00 271.41 774.71 4931 (FE III) 2 WYSE 0.90 A 0. 89 A 1 LA PTP 380.CO 278.00 4937 0.59 2 VV 2 5p3.OOX (FE III) 1 _4943 —o n J WYSE WYSF 0.60 A 0.50 A— nT ¿o Aa 1.00* 404. 56 X 0.-Z3» 4949 WYSE 0.50 A 0.49 A WYSE 230.00 A 168.26 A 4959.94 (0 111 ) l AK2 368.00 366.36 360.72 359.11 (N II ) 2 OPC 372.00 272. 14 1 A41 350.00 366.36 343.08 359.11 2 VV 2 553.OOX 404.56X 1 AN 305.OOX 298.97X 6563 H I 2 OPC 372.00 272. 14 l CPDA 380.20 366.36 372.68 359.11 6583 (N II) 1 CAM 0. 28* 0. 20* L- LA 324.00 .3.66.36 317.59 359.11 J- OCR 91.00 — -66.31 67.10 LA54 380.00 366.36 372.49 359.11 l LA PTP 93.00 67. 83 MS 410.00 366.36 401.89 359.11 1 W 0.18* 0.13* OPC 350.00 366.36 343.08 359.11 110.QQ A 80.23 A 1 LA PTP 363.00 366.36 355.82 359.11 6621 l WYSF 2.00 A 1.45 A 1 EW PTP 372.00 366.36 364.65 359.11 6638 1 WYSE 2.00 A 1.45 A _2 VV—2 135.Q.QQXÆ- 1 373.31 XA 6644 _l ri.YSf 2.00 A 1.45 A 1 WYSE 310.00 A 303. 87 A 6678 HE I AHX 27.CO* 19.44* (0 III) 1 A41 940.00 1109.00 912.31 1 l WYSF 20.00 A 14.40 A J &£_ 1000.00* 970.54* 6716 ( S II) 1 B AE2 0.47* 0.34* l CPDA 1148.00 1109.00 1114.18 1076.33 l AHX 5.00* 3.58* 1 LA 1060.00 11 09.00 1028.77 1076.33 1 WO 0.67* 0.48* 1 LA54 1180.00 1109.00 1145.24 1076.33 1 WYSF 2.00 A 1.4.3 A l MS 1165.00 1109.00 1130.68 1076.33 6723 (S II ) l LA PTP 0. 89 0.64 l LA PTP 1120.00 1109.00 1087.00 1076.33 6730 ( S II) 1 B AE2 1.00* 0.72* 1 EW PTP 1150.00 1109.00 U16.U 1076.33 1 A±LX_ 13.00* 9.30* 2 VV 2 1350.OOXA 1310.23 XA 1.00* 0.72* 1 WYSE 1070.00 A 1038.48 A 1 WYSE 3.00 A 2. 15 A _J R-E 2.86* 2.77* 7065 HE I 2 LAR 1.02* 0. 70* l WYSE 7.00 6.78 A OPC 17.60 16.20 12.07 11.11 5026 N II l WYSE 0.60 0.58 A 1 LA PTP 14. 80 16.20 10. 15 11.11 5032 (EE Tin 1 WYSE 0.60 0.58 A 7130 (AR IV ) 1 OPC 25.50 2 5.-5 Q 17.36 17.?¿_ I A W7 0 0.30 A 0.29 A 7135 (AR III) 2 LAP l. 02* 0. 69* 1 WYSE 0.70 A 0.67 A 7325 (0 II) 1 OPC 20.40 21.40 13. 57 14.24 5047 HE I _J AH7Q 0.30 A_ 0.79 A 1 LA PTP 22.40 -21 -AO 14.90 . .14.24 l WYSE 1.00 0.96 A 1 AHX 120.00*A 79.79*A 5056 SI II 1 A W7 0 0.08 0. 08 0.08 0.08 1 LAR 0. 72* 0.48* 5191 (AR III ) _1 A^7,0 T 29 0.20 0.19 0.19 (AP IV ) J QPC 7.90 7.9Q -.5.00 5.QQ 5192 1 WYSE 1.00 0.93 A 7751 (AR III) l LAP 0. 52* 0. 33* 5199 1 AW70 0.7.5 0. 85 0.70 0.79 8392 H I 1 AHX 4. 10* 2.45* 1 LA PTP 0.85 0.89 0.79 8413 _ü L_ AHX 4. 70* 2. 50T WYSE 2.00 A 1.86 A 8446 I 1 AHX 10.60* 6. 29* 1 AW 7 0 0. 14 0. 13 8467 H I l AHX 6.30* 3. 73* _2 WYSE Q. .9-0—4— Q. 82 A 8502 -Ü I— _J AHX 8.80* 5.20* 5271 (FE II ) 2 WYSE 0.90 0.82 A 8545 l AHX ll.00* 6. 48* 5277 (FE VII) AW70 0.06 0.06 0.05 0.05 8598 1 AHX 11.90* 6.98* 5335 (FF VI ) J AW 70 0^0 .0^-0 . 0.0 0.0 B665 1 AHX 1 3.^90 * 8.11* 5341 l AW70 0. 10 0.09 8750 1 AHX 17.00* 9.85* 5346 1 AW 70 0.04 A 0.04 A 9069 1 LAR 0. 37* 0.21* 5358 1 AW7Q 0.04 A 0^ 04 A 1 OPC 19^0. 19.70 11.16 5362 1 AW70 0.05 0.04 LAP 0. 55* 0. 31* 5407 i AW70 0.09 0.08 A OPC 5.80 3.25 NGC 6572- (PK NO. NGC 6572 (PK NO. 34+11 1) 561 American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued NGf 6572 ( PH-MQ. 34*11 1) NGC 6629 (PK NO. -5 11 WAVE IDENT N RG REF OBS I CORR I WAVE IDENT N RG REF □ BS I AVE 0 CORR I AVE C 9229_ _H I 1 LA PTP 6 » QQ 3^36 A 4121 -HE I 1 AKI SUZQ. 0.20 0.29 0.29 9532 ( S I 11) L LA PTP 74.00 A 40.64 A 4143 HE I 1 AKI 0.50 0.73 9532 H I 2 LAR 1.37* 0.75* 4267 C II 1 AKI 0.70 0.95 9539 _H I 2 OPC B4.Q0 46.11 4340 -Ü I _J AKI 32.90 32.75 ..3.2JL_ 43.01 9539 (S I 11 1 2 OPC 84.00 46.11 l VV 3 32.60 32.75 42.81 43.01 9 546 ( S 111)2 LAR 1.37* 0.75* 4363 (D III ) l AKI 2.00 2.00 2.60 2.60 10004 HI 1 LA PTP 11.50 A 6.15 A 4387 HE J -AKJ 0.60 —0« 6.0— 0.77 0.77 10049 1 LAR 0.34* 0.18* .4471 1 AKI 5.40 5.40 6.65 • 65 1 OPC 9.80 5.23 4861 1 AKI 100.00 100.00 100.00 100.00 1 0829 HE I _L LAR 6.45* 3.30* _i QP62 IQOtOP l-OP.P.Q.. JJ?0. 00- 100.00 1 OPC 234.00 234.00 119.86 119.86 I VV 2 100.00 100.00 100.00 100.00 1 LA PTP 245.00 A 125.50 l VV 3 100.00 100.00 100.00 100.00 10938 -1 LAR 1.02» Q.,52* 4959 _JJ3 LLii. J AKI ¿22.00 211.00 212.58 202.05 1 LA PTP 26.90 A 13.70 2 .00 946.09 (AR im 1 GBR 22.00 25.50 8.56 9.92 l VV 200.00 211.00 191.52 202.05 1 GFM 29. OQ 25.50 11.28 9-» 92 _ 5007 _LQ 111.1—1 QD62 707.90 727.45 A63.3.L 681.63 (S IV ) 1 G MS 49.00 35.50 19.06 13.81 2 VV 2 938.00 925.76 l HGR 22.00 35.50 8. 56 13.81 l 3 747.00 727.45 699.94 681.63 5554 —Lfcl 11)1 VV 2 3.5*00 35.00 ■ 25.53 25.53 REGION KFY {REG ION,REFERENC F,EXPLANAT I ON) 5876 HE I 1 30.00 30.00 19.32 19.32 A, AF2 , REGIONS A AND B CN DIFFERENT SCALES 6300 (0 I ) l 28.80 28.80 15.86 15.86 FW. PTP . FART-UFST Rl IT. 2-7 A 3 T R F f U T DF ¿563 __H I_ VV 2 39.2*00 . 198.90 LA, PTP , LARGE APERTURE 747.00 379.02 392.00 198.90 NGC 65 7? (PK NO. 747- 37Q. f>2 END NGC 6629 (PK NO. BEGIN NGC 6578 1 AW 42.00 A 54. 85 AW70, 12 ARCSEC FROM STAR ON MAJOR AXIS LA 90.00 117.53 AW70t OUTER RING 25 ARCSEC FROM STAR PER 58. 00 75.74 BDO . CENTRAL PORTION _84«J.0XA_ 109.83XA S» BOO f SOUTHERN PORTION A 12.00 15.57 Fl, BR , SOUTHEAST FILAMENT IN RING AKRC 15.80 20.50 F2. BR , NORTHWEST FILAMENT IN RING 13.00 16.87 F3, BR SOUTHWEST FILAMENT IN RING 90.00 116.77 PE, BR PHOTOELECTRIC (ALLER,BOESHAARCCZYZAK,1972,UNPUB.) 84.10 XA 109.11XA SI, BP INTEPFILAMENT NORTH IN RING 3889 HE- I _12«_QQ 15.57 S2, BR , INTERFILAMENT SOUTH IN RING AKRC 15.80 20.50 1, C , EAST SIDE OF RING AW 13.00 16.87 2., C t...CENTER VV 1 84.1QXA 109.11XA WEST SIDE OF RING 3889 HE I I 3 AKRC 15.80 20.50 NORTH SIDE OF RING 3923 HE I I l AKRC 0.30 0.39 SOUTH SIDE OF RING 3967 _y i 2_ _0 32.00 4Q.66 CAM , CENTER (NE III) 2 32.00 40.66 CAM , OUTER REGION, IN RING 1 AKRC 27.00 25.50 34. 31 32.40 . NORTH PART OF FAINT ENVELOPE -AH 24.00 -¿5.5Q 3Q.49 32.4Q FS, MQ , SOUTHEAST PART OF FAINT ENVELOPE LA 24. 80 31.51 11, MQ , IQ ARCSEC S, 8 ARCSEC E OF STAR,INSIDE RING VV 1 42.70X 54.26X 12. MO . 10 ARCSFC S. 12 ARCSFC WEST OF STAR. INSIDE RING 3970 AKRC 13.00 16.51 13, MO 10 ARCSEC N OF CENTRAL STAR, INSIDE RING AW 10.00 12.70 14.60 Rl, MO NORTH END OF RING LA 24.80 31.49 R2, HO. SOUTH END OF RING VV 1 42.7QX 54.27X R3, MO , WEST END OF RING 4023 HF I I 2.20 2.75 R4, MO , EAST END OF RING 4026 HE I 6.20 7. 75 R5, MO . WEST END OF RING. 16 ARCSEC S 2..70 7.25 R6, MO , EAST END OF RING, 10 ARCSEC N AW 2.00 4.10 2.50 5.13 ( S 11)1 AKRC 6. 70 6.85 8.28 8.46 £M3 NGC 672Q ( PK NO. 63tL3 1) L_ -AH 7.00 6.B5 8.65 B.46 4072 11)1 A 6.00 6.00 7.40 7.40 4076 11)1 AKRC 2.30 2.25 2. 33 2.77 ] _AW 7.-70 -7.71 BEGIN NGC 6741 (PK NO. 33-2 l) 0.45 (HYDROGEN LINES) 4097 2.40 2.85 2.94 3.49 3.30 2.P5 4.04 3.49 4101 —30.110 24.60 36.71 30. 1 O 3132 0 III 1 AKRC 25.00 25.00 40.52 40.52 22.00 24.60 26.92 30.10 3187 HF I l AKRC 2.90 2.90 4.63 4.63 21.50 24.60 76.31 30.10 3203 H£~ II 30.50 24.60 ■ 37.32 30.10 1 AKRC 12. 50 12.75 19.86 20.26 PER 19. 00 23.25 3299 III 1 AKRC 2.80 2.80 4.31 4.31 VV 1 35.40X 43.31X 331 7 III _1 AKRC. 5.ZÛ 5.70 8.73 -B.Z3-. —A K-ELC- —0.-30 0.37 3340 0 III 8. 50 8.50 12.90 12.90 4143 HE I AKRC 0.70 0.70 0.85 0.85 3345 (NE V ) 19.00 28. BO 4199 HE I I A 3.60 2.65 4.28 3.15 19.00 19.00 . 78.80 -78.80 AKRC 0. 76 -0. 8-9.- 3346 C III 2 A 19.00 28.79 3. 60 2.65 4.28 3.15 3425 (NE V ) 2 A 41.00 60.67 4227 (FF V ) l AKRC 0.65 0.65 0.77 0.77 J AKRC -50.00. 73.99 4767 _£ U 1_ AKRC 0.67 - 0.6J-. 0- 78 0-78 3425 III 41.00 60.67 A 37.00 38.33 42.47 44.00 3428 I IT 2.00 2.00 2.96 2.96 AKRC 40.00 38.33 45.91 44.00 B444 III- 17.00 1 7.25 75.02 75.39 -57.aox 66.34X l AKRC 17. 50 17.25 25.76 25.39 52.60 60. 37 3676 1 AKRC 0. 30 0.30 0.41 0.41 38. 00 43.61 3679 _1 AKBjC- 0. 40 0.4Q Q. 55 ÍL.S5-. -51 .?I)X 58. 77 X 3682 AKRC 0. 50 0.50 0.69 0.69 (0 111)1 13.00 14.00 14.83 15.97 3686 AKRC 0.60 0.60 0.83 0.83 1 15. CO 14.00 17.11 15.97 3691 AKRC 0.75 0.54 1.03 0.74 37.10X 42.33X AW 0.33 0.54 0.45 0.74 LA 52.60 60. 01 AKRC 1.00 0.72 1.37 0.99 VV 1 35.40X 40.39X -AH 0.44 0.72 ■ ■0.99 -AKS.C 1.LQ 1.25 L . 25. 5.00 5.00 5.56 5.56 AKRC 1.24 1.70 AKRC 5.00 5.00 5.56 5. 56 0.68 0.93 VV 1 -3b.6£X 40.67 X 3703 AKRC 1.24 1.70 4541 HE II 1 AKRC 1.60 1.60 1. 75 1.75 3711 AKRC 1. 30 1.23 1.78 1.68 4571 MG I 1 AKRC 1.80 1.80 1.95 1.95 -AH 1.16 1.23 -1.53- -1.68 4634 _N LU 2_ 6. 2Q 6.59 3721 3. 50 4.78 AKRC 2.00 2.00 2. 13 2.13 3.64 4.97 4634 AW70 2.00 2.00 2. 13 2.13 -.312-1. __L_S_ UI L-2 AKRC 3.5Q 4.78 4640 6.20 6.58 3.64 4.97 AKRC 4.00 4.00 4.25 4.25 (0 I I 1 l 82.00 111.75 AW70 4. 00 4.00 4.25 4.25 $B.OQ. 79.Q4 4645 _LU— VV 1 _48. aox 51.73X 44.00 59.96 4645 N III VV 1 48.SOX 51.73X LA 103.00 140.37 4647 0 I II AKRC 0.0 0.0 0.0 0.0 LU 1.70* —2.32* 4649 Q I I L_ AKRC Q. 50 . 0.5-0- 0.53 —0.53— 98.00 133.55 3 AW7C 0. 52 0. 55 63.40X 86.40X 4650 C HI 3 A W7 0 0. 52 0.55 3728 _LQ II ) 1 AKRC. 36.00 -43.02 4651 C III 3 AW7C 0.52 Q, 55 27.00 36. 77 4657 (FF I II 1 3 AW7C 1.04 1.10 LU 1.00* 1.36* 4658 CIV 1 AKRC 1.30 1.37 AKRC 1.80 1.71 2.45 2.33 —3_ - Awm. 1.04 i. 1-0 1.63 1.71 2.22 2.33 4661 011 3 AW70 1.04 l. LO 3740 AKRC 1.80 1.80 2.44 2.44 4685 HE I I 1 A 34.00 45.30 35.65 47.50 3740 AKRC 0.26 0.26 0.35 —0..35 L_ 47.ÛQ -45.3 0 49.28 47.50 375C 2.50 2.21 3.38 2.99 AN 57.00X 59.77X 1.92 2.21 2.60 2.99 LA 53.20 45.30 55. 78 47.50 3754 -A„KR£_. _Q.. 9-0— 1.96 1.22- 2.65 PER 47.00 45.30 49.28 47.50 AW 3.02 1.96 4.08 2.65 59.80X 62.70X 3759 0 III AKRC 3.40 3.40 4.59 4.59 (AR IV ) 2 8. 10 8.43 3770 H I 4Kft£._ 3.7H- 3.62 4.98 2_ .. AAWK R_C 7.00 7.29 AW 3.55 3.62 4.78 4.88 70 7. 10 7.39 3781 HE II AKRC 0.33 0.33 0.44 0.44 A 8.10 8.43 3791 0 III AKRC 0.40 0.40 0.53 0.53 AKRC 7.00 -7,22— 3797 H I AKRC 4.70 4.47 6.27 5.97 AW70 7.10 7. 39 AW 4.25 4.47 5.67 5.97 (NF TV 1 1 AKRC 1. 10 1.14 3819 HE I AKRC —1*35 1.42 . 1.79- 1.89 1 AW70 1.20 1.24 1.50 1.42 1.99 1.89 (AR IV ) 1 13.20 11.73 13.63 12.12 7.40 6.47 9.76 B . 53 AKRC 11.00 11.73 11.36 12.12 6.80 6.47 8.97 AW7Q 11.00 -U-.73 11.36 -L2.12- l AW 5.20 6.47 6. 86 8.53 100.00 100.00 100.00 100.00 [) l A 86.00 78.00 112.31 101.86 100.00 100.00 100.00 100.00 1— AKRC 90.00 78.00 LIZ. 53_ 101.86 NGC 6741 (PK NO. 33 -2 l) NGC 6741 (PK NO. 33-2 1) 565 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued NGC. 6741 (PK NO. 33-2 1) NGC 6741 (PK NO. 33-2 1) WAVE N RG RFF OBS I CORR I REGION KEY (R EG ION,REFERENCE,EX PLANATION} 4861 _A_ 1JO.OOX 100.oox A, AE2 , REGIONS A AND B ON DIFFERENT SCALES l COAL 100.00 100.00 100.00 100.00 1 LA 100.00 ICO.00 100.00 100.00 NGC 6741 (PK NO. 33 -2 II _J PEE.. —1QQ« QQ 1 00.00 100.00 1oo.no VV 1 100. oox 100.OOX WYSE 100. 00 A 100.00 A 4M1 (FE T II ) 1 A W 70 ü. iÛ 0.30 0.30 BEGIN NGC 6751 ( PK NQ. 29 ~5 1) 0.54 (RADIO-H BETA! 4922 1 AW70 l. 00 1.00 0. 99 0.99 4931 (0 III ) l AW70 0. 20 0.20 0.20 0.20 WAVE IDENT N RG REF OBS I CORR I 4958 _jUn_ IIP J â_ 580. ÜO 544.62 567.44 532.83 372 7 _LQ II ) J 17Q.0Q 246.38 1 AKPC 490, 00 544.62 479.39 ACP 136.00 197.10 1 AN 358. OOX 350.25X AC PG 11.22* 16.26* 1 COAL 676. 10 544.62 661,46 532.83 75.00 108.70 1 LA 409. 00 544.62 400.14 532.83 1 VV 1 102.70 148.84 1 PF R 568. 00 544.62 555.70 532.83 3835 1 ACPG 9. 50* 13.25* 1 W 1 _329 i IPX 371.97 X 3868 (NE IIP. _A_ 75.00 80,40 -103.32 110.75 l WYSE 540. 528.31 A ACP 85.20 117.37 4972 1 A W70 0. 0. 0. 18 ACPG 193.70* 266.83* 4987 1 A W 70 _o. 0.20 0. 19 _Î3_ 81.00 80.40 -111.58 110.75 (0 III I 1 1410. 00 1618.80 1364.47 1566.53 3 VV 1 52.00 71.63 1 AKRC 1500. 00 1618.80 1451.57 1566.53 2 ACPG 63.50* 86.79* L. -AN 252-. QQX 727. 72 X -A VV 1 52.-QQ 71.07 l CDAL 2042. 00 1618.80 1976.07 1566.53 3889 HE I ACPG 63.50* 86.79* 1 LA 1330. 00 1618.80 1287.06 1566.53 VV 1 52.00 71.07 _J PER ûû 1618.80 1753.49 1566.53 3967 (NF Till 38.00 50.66 VV 1 926. 40 X 896.49X ACP 44.80 59.72 1 W Y S F 1620. 00 A 1567.69 A ACPG 105.00* 139.98* 1 A W7 n 1. 16 VV 1 32.90 43.86 5041 1 A W7 0 0.35 0.34 0.34 2 ACP 44.80 59.67 5047 HF I 1 A W7 0 0.10 0. 10 0.10 2 ACPG 105.00* 139.85* 5056 S! I T 1 A W 70 0.11- _2 y 4Q. 00 53.28 5119 1 A W 70 0.05 0.05 0.05 32.90 43.82 5131 1 A W 70 0.14 0. 13 0.13 3970 (NE III) 40.00 53.28 5145 _J A W 70 0.47 0. 39 0.39 4076 _LS I I ) ACPG 29.14* 37.45* 5159 (FE VII ) 1 A W70 0.55 0.51 0.51 4097 III 47.10 60.09 5176 (FE VI ) 1 A W 70 0.30 0.28 0.28 4101 I 32.00 40.77 5191 -(AR I m 1 A U.70— —CU-50 0.46 . ■ 0.46 ACP.. 47.10 60. QQ L AW70 1.38 47.00* 59.88* 1 WYSE 8.31 A 15.00 19. 11 A W7 0 0.71 34.20 43-57 527C ( FE I II I AW70 0.35 0. 32 0.32 1 A 54.00 63.71 5277 (FE VII ) AW70 0.12 0. 11 0.11 2 ACP 58.40 68.90 5282 A W 70 0.03 A _J ACPG 67.40* 73.67* 5295 1 A W 70 0.08 0.07 0.07 1 M 35. 00 41.29 5309 (CA 1 AW70 0. 19 0. 17 0.17 2 VV l 46.60 54.98 5373 ( Cl I ¿WJQ_ 0.05 . 0.05 -2 AX-B 58.40 68.41 - 5335 (FE VI ) 1 AW70 0.35 0.31 46.60 54. 59 5402 WYSE 8.82 A 4471 HE I 21.90 21.90 24. 85 24.85 541 1 A W.7 0— 3.61 4686 . HF f T 32.00 32.00 33.87 33.87 1 VV 1 55.80 VV 1 191.80X 203.OOX 1 WYSE 13.20 A A 100.00 100.00 100.00 100.00 —2 A-UL2.0— —Q.25 AC-P 100.00 1 00U1Q... -ino.no— inn.no 5426 (FE VI 2 AW7C 28 0.25 100.00 100.00 100.00 100.00 5432 (CR I II) 1 A W 70 10 A 0.09 A 100.00 ICO.00 100.00 100.00 5441 I A WXQ— 0.-06 100.00 100.00 ino.no iqo.on 5485 (FE VI 1 AW70 0.25 0.22 0.22 (0 T I I 1 2 1600.00 1558.47 5517 (CL IIP A AE2 0. 50* 1 ACP 287.00 354.13 279.55 344.94 AW70 1.06 0.91 0.91 1 CDAL 275.40 354.13 268.25 344.94 WYSE .00 A 8.60 A 1 500.00 354.13 487.02 344.94 A AE? .00* 0. 86* 2 VV 1 931.50 907.32 AW70 .60 --L..6Q 1.37 1.37 (0 111)2 ô_ 16QQ.QQ 1538.07 l WYSE 8.56 A ACP 915.00 1049.77 879.58 1009.13 5577 l WYSE 8.48 A COAL 794.30 1049.77 763.55 1009.13 5592 _J AW7Q 0.25 1440.00 1049.77 1364.26 1009.13 5630 (FE VI ) 1 A W 70 29 0. 24 931.50 895.44 5677 (FF VI ) 1 A W70 40 A 0.33 A 5876 HF I 134.30 102.84 102.84 - -572J (FE VII ) i AW70 60 A 0.49 A 6563 _H L_ VV 1 671.3Q 444.77 5754 1 AW70 24. 80 7.70 20.32 6563 TI I 671.30 444.77 1 VV l 40. 20 24.80 32.94 20.32 6717 I I I 1 l AE2 0.61* 0. 39* _J WYSE 30, QQ A. 24.58 A i 2 AE2 Q,81*A Q.5? *A 5801 C IV A W70 45 0. 37 1 AE2 1.00* 0.64* 5806 HE II l AW70 14 A 0.11 A 2 AE2 1.00* 0.64* 5812 _C LV_ 1 AW7Q 27 A 0.22 A 5829 1 WYSE 6.46 A REGION KEY (REGIGN,REFERENCE,EXPLANATION) 5875 AW 70 17.30 16. 01 13.85 1, AE2 , PA = 2 70 DEG., 7 ARCSEC FROM STAR W 1 17.30 11.69 13.85 2t A£2 . PA = Q D£.G-,.» Q ARCSEC FRGM STAR WYSE 70. 56.04 A 5970 WYSE 5. 3.93 A NGC 6751 (PK NO. 29 -5 1) —à. 0-7-8 WYSE 4*. 3.09 A 6130 1 WYSE 2.29 A 6170 1 WYSE 00 A 1.52 A 6 19 A _1 WYSE QQ A 1.51 A BEGIN NGC 6772 (PK NO. 33 -61) C = 1,06 (RADIO-H BETA) (0 T ) 1 CAM 01* 0. 01 *A 4 l VV i 90 28.03 WAVE I DE NT N RG REF OBS I CORR I 1 WYSE 00- A_ 36.98 A 3727 —LD II i 1 M JAQ^QQ 290.05 6311 ( S III) WYSE 14.77 A 3869 (NE III) l M 60.00 112.43 6346 ST I I l WYSE 1.47 A 3970 HI 2 M 29.00 50.90 6363 (C I WYSE 30.00 A 21.97 A 3970 ( NE I II ) 2 M 29.00 50. 9Q 643 5 ( AP WYSE 3.62 A 4101 18.00 18.00 28.95 28.95 6548 (N WYSE 260 184.96 A 4340 H I 34.00 34.00 47.04 47.04 6563 .CAN L Q.71 * 4686 HE I I 3 1j-QQ 31.QQ 34.65 34.65 VV 1 768. 544.97 I 1 100.00 1 00.00 100.00 100.00 l WYSE 470. 333.51 A 1 0D63 100.CO ICO.00 100.00 100.00 6563 _2 VV JL. _768. 544.97 -495-9_ (P P I ) 1 48Q.QQ 4-8Q.QQ-- 455.85 455.85 (N II) 1 CAV ,72* 0.51* (0 PI ) 1 M 1360.00 1125.65 1258.59 1041.71 l WYSE 580 00 A 410.21 A 0D63 891.30 1125.65 824.84 1041.71 6678 1 WYSE û. _û A Û^Q A_ 6717 I I 1 1 B AE2 .52* 0.36* NGC 6772 (PK NO. 33 -6 1) 6 7? C I I 1 1 R AE2 .00* 0.69* 9068 l-LL-L I PER ajQO 300.00 160.79 9532 PI ) PER 940. 940. 00 486.87 486.87 10830 I PER 1090. 1090.00 523.04 523.04 NGC 6741 (PK NO. 33 -2 11 566 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued -BEGIN NGC 6778 IPK NQ. 34 -6 LL_ 0.56 IRAniO-H BETA) NGf- 6778 (PK ND. 34-6 II WAVE ÏDENT N RG REF CORR I AVE C WAVE IDENT N PG REF OBS I COPR I 13.68 13.68 3910- _H I 2 PE CA73 79.75 .3132 3187 _Q LLL_ I PG CA73 HE I l PG CA73 5.50 5.50 9.84 9. 2 PG CA73 . 22.20 22.IQ 29.88 3203 HE II 1 PG CA73 5.30 5.30 9.43 9.43 19.00 25.58 0.50 0.50 0.85 - 0.85 . VV 46.44 3299 __Q LLL I PGl CA73 3312 0 III 1 PG CA73 2.30 2.30 3.91 3.91 3970 (NE III) 2 M J- .34.50 19.00 25.58 3340 0 III l PG CA73 3.00 3.00 5.04 5.04 4009 HE I l CB CA73 0.50 0. 50 0.66 0.66 3428 _Q LLL 1 PG CA73 g.Bo >30 l PG CA73 0.50 0.50 .66 1 CB CA73 3.20 5.2 0 5. 18 8.41 4026 HE I l CB CA73 4.20 4.25 5.55 5.61 1 PG CA73 7.20 5.20 11.65 8.41 1 PG CA73 4. 30 4.2 5 5.68 5.61 3554 HE I 1 OB CA73 1.5Q Q. 95. 2.33 . 4Q35 _Q LL 1 CB CA73 - Q.9Q . 0-65 1- 18 1 PG CA73 0.40 0.95 0.62 1.48 1 PG CA73 0.40 0.53 1 CB CA73 1.00 0.60 1.54 0.92 2 CB CA73 1.00 1.31 1 PG CA73 0.20 0.60 Q. 31 _ .92 2 PG CA73 L31 3682 l PG CA73 0.40 0.40 0.60 0.60 4041 0 I I 2 CB CA73 1.00 3686 1 CB CA73 0.50 0.60 0.74 0.89 2 PG CA73 1.00 1.31 1 PG CA73 0. 70 0-60 LQ.L- 0.89 4068 _LS II ) 2 CB CA73 3.80 _4>_94 3691 H I l CB CA73 0.80 0.90 1. 19 1.34 2 PG CA73 4.20 5.46 1 PG CA73 1.00 0.90 1.49 1.34 2 CB CA73 3.80 4.94 3697 _H L_ 1 CB CA73 L.2Q . 1.LQ-. L.IB-. ■ 1.63 -¿--EG. CA73- . 4.2Q 5.46 1 PG CA73 1.00 1.49 4072 0 I I 1 CB CA73 1.90 2.20 2.47 2.86 2 CB CA73 2.00 2.96 1 PG CA73 2.50 2.20 3.25 2.86 2 PG CA73 2-.-5P 3.79 . 4075 ( S II) 2 CB CA73 -3.. 24 HE I 2 CB CA73 2.00 2.96 2 PG CA73 4.20 5.45 2 PG CA73 2.50 3.70 2 CB CA73 2.50 3.24 -3711 _H L_ 1 CB CA73 2.10 2.15 3.IQ --2 PG CA7-3. 4.20 5.45 1 PG CA73 2.20 3.25 4083 0 I I 2 CB CA73 0.90 1.16 3721 2 CB CA73 2.30 3.39 2 PG CA7 3 1.00 1.29 ? P G- LA 73. - 7.70 .3.24 - 4085 _Q LL 2 CB CA 7 3 Q.9Q 1. 16 3721 (S III ) 2 CB CA73 2.30 3.39 2 PG CA73 1.00 1.29 2 PG CA73 2.20 3.24 2 CB CA73 1.10 1.42 3777 _LQ II ) 1 A sa-nn 85.7? - _2 PG CA7-3— 1.10. 1 0A 45.00* 66.12* 4089 0 I I 2 CB CA73 1.10 1.42 l l A 45.00* 66.12* 2 PG CA73 1.10 1.42 -J 2—A— 47.00* 61.71*— 4Q9J-. _N LLL 2 PE f.A73 77- 50 -35.40 1 3 A 41.00* 60.24* 1 PG CA73 3.50 3.50 4.51 4.51 1 4 A 43.00* 63.18* 1 A 28.00 23.60 35.99 30.34 _1 5 A 48.00* 70.53*— 1 CB CA73 .24.50 -2-3.-60 30.34 l 6A 54.00* 79.35* 2 PE CA73 27.50 35.35 1 7 4 63.00* 92.57* 1 PG CA73 25. 80 23.60 33. 16 30.34 -4 8—A— 82.00*. 120.49*- -J y -^23.60 30.34 l 9A 100.00* 146.94* 1 VV 1 28.70 36.89 1 10 A 120.00* 176.32* 2 CB CA73 0.80 1.02 1 11 A 13CLOO*- 191.02*— —2—E-G—CA7-3— 1 12 A 225.00* 330.60* 2 CB CA73 0. 80 1.02 1 13 A 0.49* 0.72* 2 PG CA73 1.10 1.40 1 CR f.A73 4L 60 —64.06 —1—CB—CAX3— l PE CA73 59.40 87.28 1 PG CA73 0.50 0.50 0.64 0.64 1 PG CA73 46.70 68.62 l CB CA73 0. 80 0. 70 1.01 0.89 36LKL 57.90 - I PG C.473 -Û.7Q 0.89 1 VV 1 34. 50 50.69 2 CB CA73 0. 70 0. 88 l CB CA73 2. 10 2.15 3.08 3.15 2 PG CA73 0.80 1.01 1 PG CA73 2.20 7. 15 3.77 - 3.15 ? f.B r.A7 3 0.70 -O.fifi 3750 1 CB C473 3.50 3.55 5. 10 5.17 ? PG CA73 0.80 1.01 1 PG CA73 3.60 3.55 5.25 5.17 4169 0 I I i PG CA73 0.40 0. 8754 2 f.B CA73 fl- 4f> 0. 5B - 41 71 LL 1 f.B r.A73 0-30 0.40 0-50 n. 50 38 0.50 0.63 2 PG CA73 0.50 0.73 1 PG CA73 0.70 0.50 0. 88 0.63 2 CB CA73 0.40 0.58 1 CB CA73 0.40 0.55 0. 50 0.69 2 PG CA73 0. 50 0.73 i PG CA73 0. 70 0.55 0. 88 0.69 3757 C III l PG CA73 0.70 0.70 1.02 1.02 4186 C III 1 PG CA73 0.35 0.35 0.44 0.44 3759 0 III I CB CA73 0.90 1.25 1.31 1.81 4199 HP I I 1 CB CA73' 0. 30 0.40 0. 37 Û.50 1 PG CA73 1.6Q 1.25 2.32 1.81 1 PG CA73 0.50 -Q. XL 0.62 Q.5Q H T 1 CB CA73 3.90 3.85 5.64 5.57 l C8 CA73 0.50 0. 5 G 0.61 0.61 1 PG CA73 3.80 3.85 5. 50 5.57 l PG CA73 0.50 0.50 0.61 0.61 3797 _H L 1 CB CA73 5.2Q 5.Q.Q- 7» 45 - —424J— LL 1 CB CA73 Q.70 Q. 85 Q.B6 1.04 PG CA73 4.80 5.00 6.87 7.16 1 PG CA73 1.00 0.85 1.23 1.04 l CB CA73 2. 30 1.95 3.27 2.77 1 CB CA73 3. 30 2.90 4.01 3.52 1 PG-LA73 1-60 .95- 2.27 . .77 1 PG CA73 2 ■ 5Q 2.90 3.04 1 CB CA73 8. 10 7.20 11.43 10. 16 2 CB CA 73 1.80 2. 18 1 PG CA 73 6.30 7.20 8.89 10.16 ? PG CA73 1.20 1.45 3855 SL II 1 f.B CA73 0.20 A Q. 2fi —4276_ _C LL 2 CB CA73 1.8Q 2. 18 1 PG C473 0.20 0.28 2 PG CA73 1.20 1.45 1 CB CA73 0.20 A 0.28 A 2 CB CA73 0. 30 0. 36 1 PG CA73 Q. 20 Q.2Q 0.26 -0.28 2 PG CA73 0.48 (NE III) l 46.00 46.58 64.12 64.93 4285 2 CB CA73 0.30 0. 36 l CB CA73 54.00 46.58 75.27 64.93 2 PG CA73 0.40 0.48 3 PE CA73 55.3Q 77.09 —42-91— _C LL 2 PG CA73 0.70 Q.84 1 PG CA73 43. 50 46.58 60.64 64.93 4291 2 PG CA73 0.70 0.84 l M 40.00 46.58 55.76 64.93 4294 1 C8 CA73 0.50 0.50 0.60 0.60 _1 VV 1 49. 40 46.58 68.86 . 64.93 -1 PG CA73 Q.5Q 0.50 —0.^60 0.6Q 22.00 30.42 CB CA73 0.80 0.90 0.96 2 CB CA73 24.50 33.88 PG CA73 1.00 0.90 1.20 1.08 3 PE-CAI3 55.30 76.47 4317 1 CB CA 73 0. 50 _Q.5C 0.60 Q.6Q 2 PG CA73 71.90 30.28 2 PG CA73 0. 70 0.34 2 VV 41.40 57.25 1 CB CA73 0.80 0.96 HE I 2 CB CA73 74.50 33.88 . 2 PG CA73 0.70 0.84 3 PE CA73 55.30 76.47 43.00 37. 77 51.04 ? PG CA73 21.90 30.28 1 CB CA73 40.00 37.77 47.48 2 VV 1 41.4Q 57.25 3 PE CA73 47.50 1 CB CA73 0.40 0.35 0.55 0.48 39. 10 37.77 46.41 44.84 1 PG CA73 0. 30 0.35 0.41 0.48 79.00 37.77 34.43 44.84 3920 2 CB CA73 n. 30 0.41 —36.80 43.68 2 PG CA73 0.40 0.55 l CB CA73 0.70 0.83 2 CB CA73 0.30 0.41 3 PE CA73 42.50 50.30 2 PG CA73 Q.4Q .0.55 1 PG CA73 -Q.4Q 3926 HE I 1 CB CA73 0.30 0.30 0.41 0.41 (0 I II ) 1 13.00 6.43 15.32 7.58 1 PG CA73 0.30 0.30 0.41 0.41 1 CB CA73 2. 70 6.43 3.18 7.58 3967 (NF III) J A— 77.QQ 77.00 79.64 79.64 3 PE CA73 47. 50 50.08 2 CB CA73 25.00 33.68 1 PG CA73 3.60 4.24 2 PE CA73 22.10 29.77 2 46.60 54.91 PG CA73 77.70 ¿9.91 1 CB CA73 L. IQ 2 VV 1 34.50 46.48 l PG CA73 1.30 1.20 l. 52 1.41 2 CB CA73 25.00 33.65 1 CR C A 73 0.95 0.87 1. 11 1.02 NGC 6778 (PK NO. NGC 6778 (PK NO. 34-6 1) 567 © American Astronomical Society • Provided by the NASA Astrophysics Data System TABLE 8—Continued NGf 6778 (PK NO. NGC 6778 ( PK NO. 34 -6 11 WAVE IDENT N PG PEF OBS I AVE CÜRR I AVE C WAVE IDENT N RG REF OBS CORR I 19.7 6Ap JS 4387 _H£_J I PG CA 73 0.« 8Q. Q« 87 Q.94_ L »02 6563 (N II J 2 i 793, IQ 517,52 l CB CA73 0.30 0.25 0. 35 0.29 II ) 1 IB AE2 0.86* 0.55* 1 PG CA73 0.20 0.25 0.23 0.29 1 2 AE2 0.82* 0. 52* 2 C6..CA73-- 0.50 Q « 58 (S lili IB AE2 1.00* 0.63* 2 PG CA73 0.60 0.70 2 CB CA73 0.50 0. 58 2 PG CA73 0.60 Q« 70 REGION KEY (REG ION.REFERENCE.EXPLANA! ION ) 3 CB CA73 0.40 0.46 CENTER ON LINE BETWEEN 2 LOBES 3 PG CA73 0.80 0.92 MEAN 1 SEC FROM CNTR ON LINE BTWN LOBES 3 CB CA73 0.40 0.46 2, A MEAN 2 SEC FROM CNTR ON LINE BTWN I ORES 3 PG C A 7 3 0. 80 0.92 3, A , MEAN 3 SEC FROM CNTR ON LINE BTWN LOBES 3 CB CA73 0.40 0.46 4, A , MEAN 4 SEC FROM CNTR ON LINE BTWN LOBES 3 PG CA73 _Q«_ 0-92 5, A . MEAN 5 SEC FROM CNTR ON LINE BTWN LOBES 11.00 9.17 12. 54 10.46 MEAN 6 SEC FROM CNTR ON LINE BTWN LOBES 1 CB CA73 10.30 9.17 11.74 10.46 MEAN 7 SEC FROM CNTR ON LINE BTWN LOBES I PE CA73 .60 9.17 8.66 10.46__ MEAN a.SEC FROM CNTR ON I INF BTWN I DBFS 1 PG CA73 7.80 8.89 MEAN 9 SEC FROM CNTR ON LINE BTWN LOBES l VV 1 23.00X 26.22X 10, MEAN 10 SEC FROM CNTR ON LINE BTWN LOBES 4510 _N LLL 1 CB CA73 Q.40 -Q..42 -_a.4_8_ lit MEAN 11 SEC FROM CNTR QN L INE-B.THN . LOBES 1 PG CA73 0.45 0.42 0.51 0.48 12, A , MEAN 12 SEC FROM CNTR ON LINE BTWN LCBES 1 CP CA73 0. 50 0.5 0 0.56 0.56 13, A , MEAN 13 SEC FROM CNTR ON LINE BTWN LOBES,NOT SCALED 1 P£ C473 0. 50 0.50 0.56 0.56 A. AF7 . REGIONS A AND B ON DIFFERENT SCAIFR 2 CB CA73 0.50 0.56 CB, CA73, CENTER BLOB ONLY 2 PG CA73 0.40 0.45 PE, CA73, PHOTOELECTRIC OBSERVATIONS ....4.5 3.0.._ LL_ 2 CB.CA73.. 0-50 0.56 PG. CA73-._ AVERAGE OF PHOTOGRAPHIC CB S F R VAT T DNS 2 PG CA73 0.40 0.45 1 CB CA73 0.40 0.45 0.45 0.50 NGC 6778 (PK NO. 34 -6 1) 1 PG C A 7 3 0.50 0.45 0.56 0.50 l CB C A 7 3 0.70 0. 75 0. 76 0.82 1 PG CA73 0. 80 0.75 0. 87 0.82 1 PG CA73-. 0.30 Q.3Q 0.33 0.33 BEGIN NGf—638-1 I.PK NO. C - 0.54. (HYDROGEN- L-INESI 4631 SI III l CB CA73 0.40 A 0.43 A l PG CA73 0.50 0.54 WAVE IDENT N RG REF □BS I CORR I 4634 III 8.QQ ft. 63 3726 _L0 II I 2 AK1 147.00 213.12 1 CB CA73 1.30 1.50 1.40 1.62 430.00 623.41 1 PG CA73 1.70 1.50 1.83 1.62 3729 < n ii ) AKI 147.00 212.90 _2 A fl.OO 8.62 3 »3 5 j AKI 5. OP 1 CB CA73 5.80 5.95 6.*2 5 6.41 50.00 85.00 68.88 117.09 1 PG CA73 6. 10 5.95 6.57 6.41 120.00 85.00 165.30 117.09 _2 W 1 36. R0 39.57 ?n, no 4645 III 2 VV l 36.80 39.57 3889 HE I AKI 20.00 27.34 4649 I I l CB CA73 3. 50 3.55 3. 76 3.81 3967 (NE III) AKI 29.00 38.66 1 PG CAZ 3-- 3.60 -3^55^ 3 .-87 - ■ 3.-81- --3 970 —H 1 -AKI 4657 1 PG C A 73 1.00 1.00 1.07 1 .07 45.00 59.94 4661 I I 1 PG CA73 0.60 0.6 0 0.64 0.64 3970 45.00 59.94 4673 I T 1 CB CA73 .. 0—Ifl-.. 0.20 0. 11 4101 18.00 22.93 l PG CA73 0.30 0.20 0.32 0.21 1 M 21. 00 19.50 26.75 24.84 1 CB C A 73 0.90 1.05 0.96 1.12 4340 1 M 39.00 39.00 46. 01 46.01 1 PG CA73 1.20 -■1.-2B- 4471 J AKI lö.20 16.30 17.18 17.29 18.00 22.50 19.05 23.81 1 CB C A73 16. 00 16.30 16.97 17.29 27.00 22.50 28. 58 23.81 1 PF CA7.3- 1 0.40 -I 6- 3 0 11.03 1 7.29 5.70 5.9ft l PG C A 7 3 19.40 16.30 20. 58 17.29 4713 HE I 2 AKI 5.70 5.98 1 VV 1 19. 50 16.30 20.68 17.29 4740 (AR IV ) 1 AKI 3.90 3.90 4.05 4.05 2 CH CA73 2.20 2... 31 48¿il Ü I J AKI 100.00 100.00 100.00 -1 00.00 2 PE CA73 2.20 2. 31 100.00 100.00 100.00 100.00 2 PG CA73 2.10 2.21 100.00 100.00 100.00 ’ 100.00 2 CP CA73 2.20 2.31 4959 (0 III) 300.00 310.00 292.21 301.95 2 PE CA73 2.20 2.31 320.00 310.00 311.69 301.95 2 PG CA73 2.10 2. 21 5007 (0 III) 1738.00 9 1334.00 1670.72 1282.36 (AR IV ) 1 CB CA73 1 PE CA73 1.30- 1.30 1.30 1. 35 1.35 1.35 3P,0° .l.3.34tp,Q. . 994,00 1282.36 l PG CA73 1.30 1.30 1.35 1.35 NGC 6781 (PK NO. _L_ 100.00 1 00.00 100.00 100.00 l PE CA73 100.00 100.00 100.00 100.00 1 PG C A 7 3 100.00 1 CO.00 100.00 100.00 _1 C.3AJ— 100.00 ICO.00 .100.00 -100..00 BEGIN NGC 6790 ( PK NO. ■ Q.56 LRADIQ-H BETA) 100.00 100.00 100.00 100.00 1 VV 1 100.00 100.00 100.00 100.00 WAVE IDENT N RG REF OBS I CORR I 1 PG CA73 4. CO 4.00 3.93 3.93 3 444 _QHE ILU - 1 PG AKI Q.80* 1.29* (0 I II) l 240.00 191.72 233.55 186.56 3587 1 PG AKI 0.20* 0.31* 1 PE CA73 159.00 191.72 154.72 186.56 3614 HF I 1 PG AKI 0. 20* 0.30* 1 PG GA 73 149.00 191.72 144.99 186.56 3634 HE I 1 PG AKI 0.30* 0.45* 162.20 191.72 157.84 186.56 3669 1 PG AKI 0. 50* 0. 75* 280.00 191.72 272.47 186.56 3671 1 PG AKI 0.40* 0.60* 160. 10 -191.72 155.79 186.56 3676 1 PG AKI 0.6Q* 0.90* 1 A 650.00 623.99 3679 H I l PG AKI 0.60* 0.90* l 0 A 520.00* 499.19* 3682 H I 1 PG AKI 0. 70* 1.04* 1 1 A 510.00* 489.59* 3686 L_ 1 PG AKI .80* 1.19* 2 A 510.00* 489.59* 3691 l PG AKI 1.00* 1.49* 3 A 490.00* 470.39* 3696 1 PG AKI 1. 10* 1.63* 4 A 470. 00* 451.19» 3703 2 PG AKI 1.60* 2.37* l 5 A 445.00* 427.19* 3703 HE I 2 PG AKI 1.60* 2.37* 1 6 A 440.00* 422.39* 3712 H I 1 A 2. 10 3. 10 _! I—A 440.00* 422.39» 1 PQ AKI 1.20* 1.77* 1 8 A 465.00* 446.39* 3722 I 2 PG AKI 1.60* 2.36* l 9 A 480.00* 460.79* 3722 III) 2 PG AKI 1.60* 2.36* 1 10 A 495.QQ* 475.19* 3726 II ) A— 13.00 19.11 l 11 A 465.00* 446.39* 1 PE AKI 15.20 22.34 1 12 A 620.00* 595.19* l PG AKI 5.30* 7.79* 1 13 A 0.85* 0.82* -J yX—L- 16.Q0X 73.57 X l PE CA 7 3 463.00 56C.97 444.47 538.52 3729 I I ) 1 PG AKI 2.20* 3.23* 1 PG C A 7 3 407.00 560.97 390.71 538.52 3734 I l PG AKI 1.40* 2.05* _1 COAL 537. 00 560.97 515.51 538.57 3750 _L J 0_ 1.50 1.50 2. 19 780.00 560.97 748.79 538.52 1 PG AKI 1.90* 2.77* 1 VV 1 528.80 560.97 507.64 538.52 3755 C III l PG AKI 0. 20* 0.29* 1 IA AE2 U.Q.3-*- Q.,85* 3759 _Q LLL -1 PG. AKI 0.50* 5537 (CL III) 1 IA AE2 1.00* 0. 82* l A 2. 40 2.40 3.47 5754 ( N II) 1 VV 1 12.60 12.60 9.83 .83 1 PG AKI 2. 50* 3.62* _-5ñI6_- HF 1 J VV—1- 36^8.0 . .3 6-8.0 77-90 77.90 3. 10 3.10 4.44 6300 (Cl ) VV 1 17.20 11.82 11.82 1 PG AKI 3.20* 4. 58* 6563 H I VV l 793. 10 517.52 l PG AKI 1.00* 1.42* NGC 6778 (PK NO. 34-6 l) NGC 6790 (PK NO. 37 -6 II 568 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued NGC 6790 I PK. NGC . 68Q3 ÍPK NQ. 46 -4 1) WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 3835 H I I A 4.00 4.00 5.65 ._5_t_65.. 3676 H I _1 LAK C _ 0.0 Q.Q - Q.Q Qj-Q I PG AKI 4.30* 6.07* 3679 1 LAKC 0.0 0.0 0.0 0.0 1 VV 1 52.00X 73.42 X 3682 1 LAKC 0.59 0.59 0.91 0.91 INE III) _l A_ 86.QQ 75.35 119.88 1Q5-^Q4- 3686 1 LAKC 0.63 0.63 0.97 0.97 1 PE AKI 64. 70 75.35 90.19 105.04 3691 1 LAKC 0.73 0.73 1.12 1.12 3 VV 1 86.70X 120.86X 3697 l LAKC 0.88 0.88 1.34 1.34 3889 _12 PE AKI A_ 1Q.QQ I Q. QQ.. 13.83 I3-.a3_ 3.7Q3 - HE I —22 LAKC 1.62 —Zm 77 7.70 10.65 3703 LAKC 1.82 2.77 2 PG AKI 7.80* 10.79* 3712 H I 1 LAKC 1.45 1.45 2.20 3 VV 1 86.70X 119.88X 3721 _2 LAKC 2.37 -3.5? 2 PE AKI 7.70 10.65 3721 ( S in ) 2 LAKC 2.37 3.59 2 PG AKI 7.80* 10.79* 3726 in 11 ) 1 A 40•00 X 60.44X 3 VV 1 86.70X 119.88X 1 LA_ -43.QQX 64.97 X (NE III) 2 A 32.00 43. 12 l LAKC 18.80 28.40 1 PG AKI 17.90* 24.12* 1 OS 1.00* 1.51* 2 VV 1 55.30X ..74. 51_£_ _1 ELLE_ —3L.6Q 47.74 32.00 43.11 l VV 1 26.90 40.64 l PG AKI 8.20* 11.05* 1 LAKC 8.34 12.59 _2 VV 1 55.3-Q-X- 74.5QX _1 US— 0.57* -■Q.86* 4009 HE I 1 PG AKI 0.30* 0.40* 3734 l LAKC L . 77 2.67 4026 HE I 1 A 1.60 2.11 3750 l A 3.30X 4.94X 1 PG AKI 1.90*... 2.51* _1 LAKC 2.47 2.47 -.3.70 3.70 27.30X 36.05X 3754 III LAKC 0.34 0.34 0.51 0.51 (S II J 2 1.40 1.82 3760 III LAKC 0.42 0.42 0.63 0.63 1 PG AKI 1.40* 1.82* 3770 J _L_ 4.70X 6.98X ( S 11)2 1.40 1.82 LAKC 2.88 4.28 1 PG AKI 0.50* 0.65* 9. 10X 13.38 X 4097 _U LLL 1 PG AKI 0» 4fl*_ 0.51* 4.22 . 4.22 6-. 20 1 A 18.00 22.25 23.14 28.60 3819 HE I 1 LAKC 0.98 0.98 1.43 1.43 1 PE AKI 26.50 22.25 34.06 28.60 3835 H I 1 A 14.OOX 20.26X 1 VV 1 23.3QX- 29.95X— _J LAKC— 8.74 4121 HE I 1 PG AKI 0. 30* 0.38* (NE III ) l 96.OOX 137.03X 4144 HE I 1 PG AKI 0.20* 0.25* LAKC 99.00 81.95 141.32 116.98 4267 C II 1 PG AKI 0. 50* 0.61* VV 1 -6.4^_SL0 81.95 92.64 116^98- 1 A 41.00 43.40 48.67 51.52 3889 21.OOX 29.72X 1 PE AKI 45.80 43.40 54.37 51.52 2 LAKC 12.70 17.97 VV 1 51.30X 6q.9n.X- ? vv 1 -14.20 -7.0.09 (0 I II 1 1 14.00 15. 10 16.50 17.79 3889 HE I 2 LAKC 12.70 17.97 1 PE AKI 16.20 15.10 19.09 17.79 2 VV l 14.20 20.09 1 PG AKT 17.00* 20.03* 3967 (NF TIT) .2 A -48.OOX 66.07X VV 1 51.30X 60.45X 2 LA 24.OOX 33.03 X 4387 HE I 0.80* 0.94* l LAKC 24.30 33.45 _-44X1-- . BE—I— 5.60 6^38 _2 VV—1- -39.60 -54.51 l PG AKI 5.50* 6.27* 3967 48.OOX 66.06X l VV 1 14.OOX 15.96X LA 24.OOX 33.03 X _2 A 2.10 7.77 LAKC -10.40 14.31 0.30* 0.32* 2 VV 1 39.60 54. 50 2. 10 2.26 4009 HE I 1 LAKC 0.27 0. 37 n.9a* 0.97*- 4026 HE I _J A 3.QQX 4.04X 4650 C III 2 PG AKI 0.90* 0.97* LAKC 1.84 2.01 2.48 2.71 4650 n 11 2 PG AKI 0.90* 0.97* P TP 2. 18 2.01 2.94 2.71 4686 nr 11 1 PF AKT 3^50 3.71 -LS I I 1 7 5.60X _7.47X 1 PG AKI 3.30* 3.50* l LAKC 2.40 2.40 3. 18 3.18 1 VV 1 2 3.30 X 24.71X 4071 1 LAKC 0. 13 0.13 0. 17 0.17 -J A_ 2^10- 2-. 2.1— 4076 _2 A 5.60 X 7.40X 2 PG AKI 2.50* 2.63* LAKC C. 79 0.79 1.04 1.04 4713 HE I 2 PG AKI 2. 50* 2.63* 4097 N III LAKC 0.98 0.98 1.28 1.28 4740 (A» IV > 1 A 2.90 2.80 3.02 2.91 4101 H I A 23.OOX 30. 10X 1 PE AKI 2.70 2.80 2.81 2.91 LA 10.OOX 13.09X 1 PG AKI 3.30* 3.44* LAKC 18.30 19.70 23.95 25.78 _-4.8.61. H I- _1 A 1QQ.-QQ 100.00 100.00 1QQ.QQ PIP —¿I^jBQ 19.70 78. 53 75.78.- 1 PE AKI 100.00 100.00 100.00 100.00 HF I l VV 1 19.00 19.70 24. 87 25.78 1 0062 100.00 1 CO.00 100.00 100.00 4121 l LAKC 0. 28 0.28 0. 36 0.36 _L VV .1 1QQ« QQX .. 100.OOX 4143 HF T LAKC Q.35. 0.35 _Q. 45 0 .45- 4921 HE I 1 PG AKI 3.00* 2.95* 4267 1 LAKC 0.38 0.47 4959 (0 III) l A 560.00 511.00 544.93 497.25 4340 1 A 46.OOX 55.28 X 1 PE AKI 462.Q0— 511.00 449.57 497.25 -1 A-N— l.OQ* 1.20* 1 VV 1 393.20X 382.62X 1 LA 58.OOX 69.70X 1 A 1470.00 1268.60 1411.03 1217.71 l LAKC 37.40 38.40 44.94 46.15 1 PE AK.I 1523.QQ 1268.60 1461.91 1217.71 1 PTP ■ 39.80 38.40 47.83 46.15 0D62 812.80 1268.60 780.20 1217.71 38.00 45.66 VV l 1079.80X 1036.49X (0 III) 9.80X 11.68X -5_4.il.. EE II _Y-V—L ' 15.» 3..Q 15.3Q. 13.Q5 13.Q5 0.29* 0.34* 5517 (CL III) 1 A AE2 0. 36* 0.30* l LA 8. OOX 9.54 X 5537 (CL III) 1 A AE2 1.00* 0.82* 1 LAKC 5.85 7.53 6.97 8.97 5754 —LU II) 1 VV 1 7.3Q 7.3Q .5. 7Q.. 5.70 _1 PIP 5.63 7.53 -6.71 8.97 5876 HE I l VV 1 33. 30 33.30 25.25 25.25 VV 1 11. 10 7.53 13.23 8.97 6300 (0 1 ) 1 VV l 21. 30 21.30 14.64 14.64 4387 HE I LAKC 0.53 0.53 0.63 0.63 6563 _LN II ) 2 466.70 304.53 4471 HE I _JVV 1 A— 9.60X 11.05 X 6563 I 2 VV 1 466.70 304.53 l LAKC 5.41 5.38 6.23 6.20 6717 I I ) 1 B AE2 0.42* 0.27* 1 PTP 5. 36 5.38 6.17 6.20 6730 II ) 1 B AE2 1.00* 0.63* _1 VV. 1 -ll.-LQX. 12.77X 10 MU (S IV ) 1 GMS N III 3.20X 3.47X LAKC 0.44 0.48 REGION KEY (REG ION.REFERENCE.EXPLANATION) 4640 N III _A— 3.2QX -3«A-7-X- PE, AKI PHOTOELECTRIC OBSERVATIONS LAKC 1.67 1.67 1.81 1.81 PG, AKI PHOTOGRAPHIC OBSERVATIONS 4650 LAKC 0.49 0.49 0. 53 0.53 4685 HF I T -l^AQX.. 8. 31 X NGC 6790 (PK NO. 37 -6 1) l LAKC 3.76 3.69 4.01 3.94 1 PTP 3.63 3.69 3.87 3.94 _1 V-V—L_ -12,7QX 13.53X 1 A 6.20X 6. 54X BEGIN NGC 6803 (PK NO. 46 -41) C = 0.60 (HYDROGEN LINES) 1 LAKC 2. 15 2.15 2.27 2.27 4713 . .ElE _1 LAKC Q.2I . .Q*Z1.. -0.22 0.2? WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 4740 ( AR TV 1 7. 10X 7.41 X 3299 0 III 1 LAKC 2.08 2.08 3.69 3.69 1 LAKC 2.87 2.87 3.00 3.00 3312 _0 LLL 1 LAKC 1.77 1-77 3. 12 3.12 4861 H I _1 A_ 100.00 100.00 1Q0.QQ 1QQ.QQ 3340 0 III 1 LAKC 2. 13 2.13 3.72 3.72 l LA 100.00 1 00.00 100.00 100.00 3342 (NE III) l LAKC 2.32 2.32 4.0$ 4.05 l LAKC 100.00 l00.00 100.00 100.00 3428 0 LLI 1 LAKC 0.5J— 0.51 0.86 0.86 1 PTP J.QQ. QQ —LQQ.QQ— 100.00 100.00 3444 III LAKC 2.37 2.37 3.97 3.97 100.00 100.00 100.00 100.00 3673 I LAKC 0.0 0.0 0.0 0.0 380.00 388.66 369.06 377.47 NGC 6803 (PK NO. NGC 6803 (PK NO. 46-4 1) 569 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued -MG£--£l803 CPK NO. NGC 6804 (PK NO. 45 -4 1) WAVF IDENT N RG REF S I CORR I HAVE IDENT N RG REF OBS I CORR I 4959 _lq mi i âU .61* 4.48* 4711 CAR IV ) 2 AV ACPG 8.41 9.11 LA 390. 388.66 378.77 377.47 4713 HE I 2 AV ACPG 8.41 9. 10 LAKC 399 00 388.66 387.51 377.47 4740 (AR IV ) l AV ACPG 5.95 5.95 6.34 6.34 -P-12 426 Ü0 388.66 413.73 377.47 4861 H I 1 ACÜ 1QQ...QQ 10Q.QQ 1Q0.QQ 1QQ.QQ 348. 30 388.66 338.27 377.47 1 AV ACPG 100.00 100.00 100.00 100.00 ITT) 1 1070. 00 1210.98 1024.08 1159.01 1 LB ACPG 100.00 100.00 100.00 100.00 L_ 1 llQi HQ 1210.98 1062.36 1159.01 -LJJß ACPG 100.00 100.00 100.00 100.00 LAKC 1255. 00 1210.98 1201.14 1159.01 1 C 100.00 100.00 100.00 100.00 P TP 1290. 00 1210.98 1234.64 1159.01 1 COAL 100.00 100.00 100.00 100.00 VV 1 1329, as 1210.98 1272.83 1159.01 100.00 100.00 100.00 100.00 5411 HF I I 1 VV 1 14. 14.20 11.98 11.98 (G III) l ACP 209.00 253.00 200.13 242.27 5755 ( N II>1 P TP 2, 2.57 1.97 1.97 l AV ACPG 193.00 253.00 184.81 242.27 5876 HE I L_ PTP 3Q.75 18.66 22.86 1 LB ACPG 273.00 253.00 261.42 242.27 l VV 1 36. 40 30.75 27.06 22.86 1 UB ACPG 328.00 253.00 314.09 242.27 6300 .Q0 C 73.60 90.04 -80.8? 85.00 96.20 51.00 56.00 LU 1.72* 1.95* 5.60* 6.15* VV 2 35.30 A 39.95 A NGC 6804 (PK NO. 45-4 1) NGC 6818 (PK NO. 570 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued NGC 6fllB (PK NO. 25-17 1) NGC 6818 (PK NO. 25-17 1> HAVE IDENT N RG REF OBS I AVE 0 CORR I WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 3729 (o n > 1 LU_ L 00* 1.13» 5 5-3-7 (CL III) 1 AW70 1.95 1.85 1.7^ IcTTt 3797 1 ACP 6.0 6.05 6.79 6.79 5592 0 III 1 A W70 0. 0.48 0.45 0.45 3835 H I 1 ACP 4.94 4.94 5.52 5.52 5754 (N MIL A W70 1.18 1.18 1.09 1 .09 3868 (NE mi _L_E A 14Q.QQ 127.30 155.77 -LAI. 64 saai _C L¥ L_ -AH7Q Q. 24 0.24 Q. 22 0.27 1 W A 110. 127.30 122.39 141.64 5812 C IV 1 AW70 0. 18 o.i a 0. 17 0.17 1 ACP 121. 127.30 134.63 141.64 5867 HE II 1 AW70 0.62 0.62 0.57 0.57 LA 148. 127.30 164.68 141.64 58_75_ HE I 1 AW70 *_5P St 97 9t69 9.03 l VV 2 117. 50 127.30 130.74 141.64 1 OPF 6.00 9.87 5.49 9.03 1 E A 20. 00 20.00 22.20 22.20 1 VV 2 14. 10 9.87 12.90 9.03 ACE a. 9.01 1 1 VV 2 ¿2.00 22.00 19.50 19.50 2 LA .80 23.08 1 ORF 280.00 244. 10 2 ACP .12 9.01 2 VV 2 252.00 219.69 _2 LA 20. 80 23.08 6563 II 1 2 VV 2 252.00 219.69 l E 45. 45.00 49.53 49.53 6583 II ) l ORF 69.00 60.07 1 W A 45. 45.00 49.53 49.53 6717 II ) 1 AE2 0.74* 0.64* __2 ACP 44.30 . 48.76 . _1_ ORF 9-. .00 A 7.77 A 2 LA 63 70.33 6730 (S l ) 1 B AE2 1.00* 0.86* 2 VV 2 53, 58.33 1 ORF 12.00 A 10.36 A 3968 _tí I_ -2 ALE 44.30 48.75 10 MU -LS— TV 1 1 GMS 54.00 54.00 35.68 2 LA 63. 70.32 2 VV 2 53. 58. 33 REGION KEY (REG I ON,REFER ENCE T EXPLANAT ION) 4097 III _2 ACE 32.10 FAST SIDE 1 E A 26. 30.55 28. 19 33.12 A , WEST SIDE l W A 30. 30.55 32.52 33.12 AE2 , REGIONS A AND B CN DIFFERENT SCALES 7 ACP 32.09 1 LA 33. 30.55 36.75 33.12 END NGC 6818 (PK NO. 25-17 1) 1 VV 2 32. 30.55 35.01 33.12 1 E A 66. 59.10 69.74 -62^45 1 W 59. 00 59. 10 62.34 2 ACP 69. 50 73.44 BEGIN NGC 6826 (PK NO. 83+12 1) 0.04 (RAD 10—H BETA) _J -AJN 50. 50X — 53.36X l LA 53. 59. 10 56.00 62.45 WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 1 ORF 44. 59.10 46.49 62.45 3132 0 III 1 CAK4 1.00 1.00 1.04 1.04 _J VV 2- 73. 59.1 0 -irU 67 62.45 3187 —HE—I -J CAK 4 1 E A 21. 22. 14 3354 NF I I l CAK4 0.60 0.60 0.62 0.62 2 ACP 69. 73.26 3447 HE I 1 CAK4 0.80 0. 80 0.83 0.83 _J AN— -25.93X 3 5-30 HF -I 1 _C.AK4 l LA 43. 24.72 46.28 26.06 3554 HE I l CAK4 0.40 0.40 0-.41 0.41 l ORF 19. 24.72 20. 03 26.06 3587 HE I 1 CAK4 0.60 0.60 0.62 0.62 _J W 2 15. 24.72 1 5. 81 -1 CAK4 1 ACP 18.46 4. 83 19.26 3634 HE I 1 CAK4 0. 80 0.80 0.82 0.82 1 VV 2 18.46 33.69 19.26 3661 H I 1 CAK4 0.0 0.0 0.0 0.0 _1 ALE 4.36 4.51 4.51 —1 CAK. 4 4634 N III 2 ACP 9. 10.05 3663 1 CAK4 0.20 0.20 0.21 0.21 4640 N III 2 ACP 9, 10.05 3664 1 CAK4 0.30 0.30 0.31 0.31 4686 HE II _I E A 93, 94.78 3666 -J CAK4 0.40 l W A 82. 74.13 83. 57 75.55 3667 CAK4 0. 50 0.50 0.5L 0.51 1 ACP 64. 74.13 65.73 75.55 3669 CAK4 0.60 0.60 0.62 0.62 _J AN -9a.7nx 3671 n. 0.60 0.6? l LA 38. 74.13 38.93 75.55 3673 CAK 4 0. 70 0. 70 0.72 0.72 1 ORF 82. 74.13 83. 57 75.55 3676 CAK4 0.70 0.70 0.72 0.72 VV ? - 74.13 86.73 -7.5.55 3679 -CAK 4 0.80 (AR IV ) 2 ACP 9. 18 3682 l CAK4 0.90 0.90 0.93 0.93 3 LA 5.79 3686 1 CAK4 1.00 1.00 1.03 1.03 2 ACP 9.18 3691 _J CAK4 1.20 1.70 1 .23 1 .23 LA 5.79 3697 I CAK4 1.30 1.30 1.34 1.34 l E A 13. 00 9.16 13. 17 9.28 3703 I CAK4 1.60 1.60 1.65 1.65 1 ACP 5. 38 9.16 5.45 9.28 3705 I CAK4 1.10 1. 10 l. 13 1.13 l AW70 9. 10 9.16 9.22 9.28 3712 I CAK4 2.00 2.00 2.06 2.06 3 LA 5, 70 5.77 3722 I CAK4 3.00 3.t)8 1 E 1QQ. nn irn.nn inn.nn 3722 T1T 1 C AK4 •3. no 3.08 1 W A 100. 00 100.00 100.00 100.00 3726 1 A 41 26.00 26.73 l ACP 100. 00 100.00 100.00 100.00 1 AUV 1.00*A 1.03*A _1 AN .100, QOX 1QQ.0QX -I CAK4 12-.Q0 12-33 1 LA 100. 00 100.00 100.00 100.00 35. 90 36.90 i LA54 100. 00 100.00 100.00 100.00 1.37* 1.41* JL ORE _JLQ£L LÛ 1Q0.QQ 100.00 100.00 19.QQ 19 «.53 l VV 2 .00 100.00 100.00 100.00 1 VV 1 40.OOX 41.12X 4922 HE 1 A W70 .65 0.65 0.65 0.65 1 AUV 0.48*A 0.49*A 4931 _LQ_ III I _1 AW70 Q.ll Q.ll 0-11 1 CAK4 8.40 8.63 (0 III) 2 E 1275. 1263.87 1 LU 1.00* 1.03* l ACP 586. 00 580.89 3734 1 CAK4 2.50 2.50 2.57 2.57 AN 589. QQX _ 583.86X 3750 _L CAK4 3.30 3.30 3.39 1 LA 585. 00 443.75 579.89 439.88 3757 1 0 3.72 3.72 3.82 3.82 1 LA54 290, 00 443.75 287.47 439.88 3770 l CAK4 4.00 4.00 4.11 4.11 -J. ORE __ 301. QQ A 298. 37 A 3776 _1 CAK4 Q.Q Q.Q 0.0 —1.0— 1 VV 2 314. 00 443.75 311.26 3778 III 1 CAK4 0.20 0.20 0.21 0.21 2 E A 1275, 00 1258.33 3791 III 1 CAK4 0.10 0. 1 0 0. 10 0. 10 -1 ALE 1761, m 1473.67- 1737.98 14 3797 _J -1 CAK4 5.. 20 5.7 5 5.34 5.90 1 LA 1790. 00 1473.67 1766.60 1 454.40 7.60 5.75 7.80 5.90 l LA54 870. 00 1473.67 858.63 454.40 0 4.46 5.75 4.58 5.90 _1 VV 2 - 3530. -QQ A_ 3483.85 A HE -I— CAK4 Q.Q Q.Q Q.-Q . Q.Q 5015 HE I l AW70 . 36 0.36 0.35 0.35 3819 HF I CAK4 1.60 1.60 1.64 1.64 5041 SI II AW70 .23 0.2 3 0.23 0.23 3835 I CAK4 7.90 9.72 8. 10 9.96 5047 HE I AH7Q - Q. 15 -1.15 LA 14. 50 9.72 14.86 9.96 5056 SI II AW70 0.06 0.06 1 0 6.76 6.93 5145 (FE VI ) A W70 0.47 0.47 3 A41 51.00 52.22 5158 (FE VII) AW7Q 0.25 0.25 0.24 1 CAK4 43. 10 46.13 44U3 _4.7. ¿4 5176 (FE VI > l AW7 0 0.32 0.31 0.31 LA 50.70 46.1 3 51.92 47.24 5191 (AR III) 1 A W70 0.48 0.47 0.47 0 44. 60 46. 1 3 45.67 47.24 5199 __LN I L_ J AW70 Q.7Q Q.7.L- Q.68 Q.68 VV 1 74. 55 X 5270 (F6 111) 1 AW7 0 0.05 0.05 0.05 A41 51.00 52.19 5277 (FE VII ) l AW70 0. 11 0. 11 0.11 CAK4 18.00 18.42 53Q9 -1C A V L J AW70 0.22 n.?i n.?i -LA 23^.50 23.50 24.05 24.05 5323 (CL IV ) l A W70 0.14 0. 13 0.13 2 17.40 17.81 5335 (FE VI ) l AW70 0.25 0.24 0.24 3 VV l 72.80X 74.50X _5411 J AH7Q - 11,90 6.94 -11.31 3 A41 51. QQ 52.19 1 VV 2 50 11.90 15.68 11.31 2 CAK4 18.00 18.42 5346 1 AW70 35 0.35 0.33 0.33 2 0 17.40 17.81 5517 .tcl nn J A AE2 02* _ 0.96* _3 VV 1 72.80X 74.5QX 1 AW7 0 48 1.39 3919 C II CAK4 0.0 0.0 0.0 0.0 l A AE2 00* 0. 94* 3920 C II CAK4 0.20 0.20 0.20 0.20 NGC 6818 (PK NO. 25-17 1) NGC 6826 (PK NO. 571 © American Astronomical Society • Provided by the NASA Astrophysics Data System TABLE 8—Continued 197 6ApJS. . .31. NGC 6826 í PK NO. 83 + 12 1) NGC 68?6 (PK NO. + 1> WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS r AVE Q CORR I AVE C 3926 HE I I CAK4 0.30 0.30 0.31 Q,Jl 4881 nn 1 4H7Q 0.06 Q.Qfr 0.06 _ 0 «06. 3961 S III 2 CAK4 0.0 0.0 0.0 0.0 4903 A W70 0.08 0.08 0.08 3961 0 III 2 CAK4 0.0 0.0 0.0 0.0 4908 A W70 O. 09 0.09 0.09 0.09 H£ J 1 CAK4 1 « 70 - 1.7Û_ 1.7A 1.74 4915 AW70 P. Q» 03 -0.03 Q.Q3-. 2 A41 23.00 23.50 1 1.40 1.40 1 CAK4 15. 10 15.43 15.43 1 F 0.31* 0.31* _2 LA -3Q.6Q_ 31.26 _1 S— _aß_ Qa-27*— —Q.27* 2 VV 1 34.60X 35.34X C AK 4 1.70 1.55 1.70 1.55 2 A41 23.00 23.49 4931 (0 I III AW70 0.10 0.10 0. 10 0.10 _1 CAK4 . 15.30 15.30 15.63 15.63 4959 _JLD I II ï ■ AAI 270.00 ¿5.2. 11 269.47 —251«62 30.60 31.26 AN 149.OOX 148.71X 31.00 31.67 CAK4 253.00 252.11 252.51 251.62 .VV 1- 34.6QX 35.34X CPDA 239.90 252.11 239.43 251.62 3970 (NE III) 3 1.00 31.67 LA 225.00 252.11 224.56 251.62 4009 HE I l CAK4 0.30 0.3 0 0.31 .31 LA54 223.00 252.11 222.57 251.62 4026 HE I J CAK4 2.90 2.69 2^ jJUt— HS 255.QQ 252.11 .¿5.4. 50 -251.62 1 LA 2.70 2.69 2.75 2.74 0 251.00 252.11 250.51 251.62 1 0 2.46 2.69 2.51 2.74 R2 300.00 252.11 299.42 251.62 _J CAK4- 0.20 Q.2Q Q.2Q o,?n 4977 (FE vm A.H.7.0 Q. 10 0.10 -0. 10- 0.10 4069 0 II 1 CAK4 0.10 0.10 0. 10 0.10 (o un A41 800.00 797.67 771.80 4072 Q TI 1 CAK4 0.0 0.0 0.0 0.0 AN 367. OOX 365.93X 4076 -LS LL—L J CAK4 Q.Q 0.0 Q..£L- 0.0 BDQ 251.00* 250.27* 4089 SI I V CAK4 0.10 0.10 0. 10 0.10 1 C AK 4 770.00 774.06 767.75 771.80 4097 N III CAK4 0.90 0.90 0.92 0.92 1 CPDA 724.40 774.06 722.29 771.80 41.01 —H I 1 A41 19.00 22.62_ iq. 34 7 3- (V3 -1 LA_ 742.00 774.06 739.83 -171.80 i CAK4 26.00 22.62 26.47 23.03 LA54 709.00 774.06 706.93 771.80 1 LA 25. 10 22.62 25. 55 23.03 MS 725.00 774.06 722.88 771.80 _1 □ 24.00- 72.62 24.43 2.3.03 - R2.-. 44fl^-Q0 -774.06 945.73 -771 .BQ 1 R2 19. 00 19.34 23.03 VV 1 320.30X 319.37 X 1 VV l 30. 90 X 31.46X AW70 1.82 1.91 1.81 1.90 4103 _2 CAK4 0.70 Q . 20 CAK4 2.00 1.91 1.99 1.90 . 4103 N III 2 CAK4 0. 20 0.20 A W70 0.24 0.24 0.24 4110 0 II l CAK4 0.0 0.0 0.0 0.0 BR 0. 04* 0.04* 4116 SI IV 1 CAK4 0.20 0.2 Q._ 0.20 0.70 -L .s as V) . DR * -jQ.08* 4120 HT I CAK4 0. 60 0.60 0.61 0.61 5191 (AR III) AW70 0.08 0.08 0.08 0.08 4132 0 !I CAK4 0.20 0.20 0.20 0.20 5198 (N I AW70 0.04 0.04 0.04 0.04 4143 HE T C AK 4 0.60 0-6 0 0-61 0.61 -.5220 ■ LEE III ) AV.ZÛ 0. 18 -0. 18 4153 1 CAK4 0.30 0.30 0.31 0.31 5277 (FE VII) A W 70 0. 06 0.06 0.06 0.06 4168 1 CAK4 0.0 0.0 0.0 0.0 5411 HE I I AW70 0.10 0.10 0. 10 0.10 _L C AK4— 0.90 0.-91 5517 (Cl Till A.AE2 1.32* 1.3D* 4317 CAK4 0. 20 0.20 l AW70 0.45 0.44 4340 A4 1 40.00 40.49 1 F BR 0. 13* 0. 13* -AN— 0.09* -O.nq* 1 CAK4 45.80 44.85 46.36 45.40 1 A AE2 1.00* 0.99* l LA 47.30 44.85 47.88 45.40 1 AW70 0.55 0. 54 -L_£—as 0. Il* 1 OCR 41.70 44.85 42.21 45.40 0. 09* 0.09* 2 VV l 131.OOX 132.61X (01 ) 1 F BR 0. 39* 0.38* _J C AK4— n.3n 0.30 0.30 0.47» 40.00 40.47 1 AW7 0 0.12 0. 12 4. 71 X 4.77X 1 F BR 0. 14* 0. 14* —0. 06* 1 CAK4 5.90 5.53 5.97 5.60 15.80 15.49 1 LA 5.00 5.53 5.06 5.60 8.67* 8. 50* _J □ 7.75_ 7.34 5.60 71.37» 70.95» □ CB 3.98 4.03 CAK4 13.90 15.1^ 13.63 14.84 VV 1 131.OOX 132.54X 0 15. 70 15.13 15.39 14.84 4366 n 11 CAK4 0.0 0.0 0.0 3.0 VV l 346.OOX 339.23X 4387 HE I CAK4 1.00 1.00 1.01 1.01 (01 ) 1 F BR 0. 18* 0. 18* 4471 HE I A41 5. 70 5.95 5. 75 6.01 BR 0.05* 0.05* . AN— 17.OOX 12.11X CAM Q.Q » Q.Q Q.Q * CAK4 6.40 5.<55 6.46 6.01 l 13.30X 12.95X LA 5. 40 5.95 5.45 6.01 l F 0.12* 0. 12* 6.31 5.95 6^37 6. m -L S 0. 10* —Q.1Q* 1 VV 1 6.70X ö. 76X 6364 (01 ) 1 0. 10* 0. 10* 4623 i A W70 0.11 0.11 0. 11 0.11 6548 (N II) 1 6. 02* 5. 84* . 463_4_ —N LLL 1 A W 70 0.34 0.42 0.34 Q.^42 -L S . JUL_ 0-84* —Q.81* 1 CAK4 0. 50 0.42 0. 50 0 .42 OCB 1.90 1.90 1.84 1.84 1 AW70 0.96 1.08 0.97 1.09 CAK4 287.00 271.33 278.38 263.18 _J CAK4 .20 l.OB 1.21 1.Q9 CAM 1. QQ* —fl.97* 4641 l CAK4 0.40 0.40 0.40 0.40 LAR 10.00* 9.70* 4649 l AW70 0.38 0.44 0. 38 0. □ 288.00 271.33 279.35 263.18 1 CAK4 Q.5Q 0.44 □ CB 239.00 231.82 -263.18 4651 0 III 1 CAK4 0.20 0.20 0.20 0.20 VV 2184.OOXA 271.33 2 118.41XA 4657 (FP I II) 1 AW7 0 0.37 0.37 0.37 0.37 6563 (N II) VV 2184.OOXA 2118.41XA 4658 J C A K 4_ 0.30 Q. 30 Q. 30 0.30 6583 _LN II 1 _E 8E_ 26.18» ¿5.39* 4661 0 II CAK4 0.20 0.20 0.20 1 S BR 2.23* 2. 16* 4678 1 AW 70 0.07 0.07 0.07 1 CAM 0.04* 0.04* 4686 HF I I _1 AW7Q 0. 08 3.08 □ CB 9. 10 8.82 1 5.60 5.62 BR 1.19* 1.15* 1 F 0.15* 0.15* BR 1.56* 1.51* _S BB— 0.17» . 0. U» CAK4 4.66 4.66 4.51 4.51 4701 (FE III) 1 AW70 0.05 0.05 0.05 0.05 l B AE2 0.63* 0.61* 4711 (AR IV ) 2 AW70 1.03 1.03 1 F BR 0.21* 0.20* J C A K4 0.70 Q..ZQ- , Q.7Q 0.70 1 S BR O-j-13» . 0. 13* 2 AW7 1.03 1.03 6723 (S T I I CAK4 1.69 1.64 l F BR 0.04* 0.04* 6730 (S II) B AE2 1.00* 0.97* 1 S BR 0,04* 0.04» F BR -0^-41* 0.40* 1 CAK4 1 .00 1.00 1.00 1.00 l S BR 0. 14* 0. 14* (AR IV ) 1 AW 70 0.38 0.44 0.38 0.44 l F BR 1.47* 1.42* l CAK4 0.50 0.44 0.5C 0.44 L S as_ 1.26» 1-21 ♦ 4.76* 4.58* 1 A 41 100.00 100.00 100.00 100.00 1 S BR 3.47* 3.34* 1 AN 100.OOX 100.OOX _L C.AK.4 ±22 5.73 —5« 52.. 5.52 1 CAK4 100.00 100.00 100.00 100.00 9069 III) 8.70 8.23 1 CPDA 100.00 100.00 100.00 100.00 9532 I LAR 0.91* 0.86* _i LA 100.00 IQQt-Qfl. 100.00 100.00 9539 _Q 30.90 —2.9,14 LA 54 100.00 100.00 100.00 100.00 9539 (S III ) 30.90 29. 14 MS 100.00 100.00 100.00 100.00 9546 (S III) LAR 0.91* 0.86* _0 100.00. 100.00 100.00 . lOQ^OO 1 08?9 HE T L AR 3.90» -3.65* OCB 100.00 100.00 100.00 100.00 □ 74. 10 74.10 69.42 69.42 R2 100.00 100.OC 100.00 100.00 10 MU (S IV ) l GMS 12.50 12.50 11.40 11.40 W 1 100.OOX 100.OOX NGC 6826 (PK NO. NGC 6826 (PK NO. 83+12 1) 572 © American Astronomical Society • Provided by the NASA Astrophysics Data System TABLE 8—Continued 197 6ApJS. . .31. © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued Nfíf 6fl53 (PK NO. BEGIN NGf. 6857 ( PK NO. 70* 1 71 fHYDRnfiFN I fNECl WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IOENT N RG REF OBS I CORR I AVE C 4363 (o i in 1 3 BDO I. 00* I.01* 3727 (0 II 1 I PF 18.00 77. 79 I 4 BDO 1.00* 1.01* 4340 1 PF 24.00 24.00 46.08 46.08 L 5 BOO 1.00* 1.01* 4861 1 PF 100.00 100.00 100.00 100.00 _1 fr BDO 1.00* .01* 4959 _LQ_ 1)1 PF 144.00 144.00 129.91.. 129.91 1 7 BOO 1.00* 1.01* 2 VV1 8.40* 7.57* 1 8 BDO 1.00* 1.01* 5007 (0 III ) 2 VV1 8.40* 7. 19* 1 9 900 ItQO* -JtO.l*- 5876 HE l 1 P.F 39.00 39.QQ 13.61 13.61 l 10 BDO 1.00* 1.01* 6300 (0 ) 1 0.30* 0.07* 1 11 BDO 1.00* 1.01* 6563 1 PF 1308.00 1308.00 257.87 1 12 BOO .00* —1.Q1* -2 VV1 L4.0Û*. 2.76* C 16.00 16.09 6563 (N II Î 2 14.00* 2.76* 0065 1.00* 1.01* 6584 ( N II ) 1 71.00 71.00 13.77 13.77 _SM— -Q.3¿* 0. 39* 7065 HE I 14.00 14.00 1.98 1.98 l C AKT 5.60 5.85 5.63 5.88 7751 (AR III ) 1 PF 29.00 29.00 2.70 2.70 1 E AKI 8.40 5.85 8.44 5.88 9015 H I 1 PF 41.00 41.00 2. 18 2.18 1 M AKI -4.4Q 5.85 . -4.4Z_ 9 069 ( S III } 1 621.00 -fejLUO.Q- 32.43 32.43 c 5.00 5.85 5.02 5.88 10049 H I 151.00 151.00 5.77 5.77 4541 HE II c 4.00 4.00 4.02 4.02 10830 HE I 741.00 741.00 22.93 22.93 ^996 HE II _L_C_ AKI 9.41 QQ ^2.2q_ 94.1?.. 42.37 l E AKI 24.00 42.29 24.05 42.37 NGC 6857 (PK NO. 70+ 1 2) 1 AKI 51.00 42.29 51.11 42.37 54.QQ . 42.29 - -54.11 42.37 1 C 43.00 42.29 43.09 42.37 l Y 30.00 42.29 30.06 42.37 BEGIN NGC 6879 (PK NO. 0.50 (RADIO-H BETA) 3Q.QQ.- .42t29_ 30.06 42.37 IOENT N RG REF (AR IV ) 2 C AKI 4.50 4.51 WAVE OBS I AVE 0 CORR I AVE C 2 AKI 3.40 3.41 3727 (0 II) 1 VV 2 29.60 41.74 2_ _C_ 7.QQ 7.01 3869 ( NE 111 ) A VV 2 26. 5Q 76.50 1Q2.88 102.88 2 C AKI 4.50 4. 51 3889 I 53.00 70.78 2 M AKI 3.40 3.41 3889 HE I VV 53.00 70.78 _2 C -7.QQ- 7.01 3970 (NE im ■ VV.. _64.7Q 84.36 l C AKI 4.70 4.80 4.71 4.81 3970 VV 2 64.70 84. 36 1 M AKI 2.70 4.80 2.70 4.81 4102 VV 2 35. 30 35.30 44. 16 44.16 _L_ X 7.00 4.80 7.01 4.81 4340 -VV 2. 29.40 _2-9. 4.0. 34. 26 34.26 l C AKI 100.00 100.00 100.00 100.00 4363 (0 III) 11.80 11.80 13.66 13.66 1 E AKI 100.00 100.00 100.00 100.00 4686 HF I I 23.60 23.60 24. 87 24.87 AK I 1X0.00- 100.00 . 4861 H I 100.00 100.00 100.00 100.00 1 100.00 100.00 100.00 100.00 VV 2 100.00 100.00 100.00 100.00 1 C 100.00 100.00 100.00 100.00 COAL 363.10 305.05 354.36 297.71 1XQ>X0l- 100.00- ..VV 2 ¿47.00, . ¿0-5.05 297.71 M I 7 3 100.00 100.00 100.00 100.00 REGION KEY (REG IONFEER ENGE,EXPLANAT ION I WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C A, AE2 . REGIONS A AND B ON DIFFERENT SCALES 5-Q47 -HE I __L AW7Q Q. IQ 0.10 .Q«J)9 0*09. PE, AKI PHOTOELECTRIC OBSERVATIONS 5056 l A W70 0.07 0.07 0.06 0.06 PG, AKI PHOTOGRAPHIC OBSERVATIONS 5076 1 AW70 0.24 0.24 0.21 0.21 5131 _Q ¥_ -1 AW.10.. 0.05 0.05 Q.i?5 -Q.Q5- NGC 6884 (PK NO. 82+ 7 1) 5145 (FE VI I l AW70 0. 10 0.10 0. 08 0.08 5159 IFF VII ) 1 A W70 0.03 0.03 0.03 0.03 5176 (FE VI 1 J &.H7Q . Q. 03... 0^03 Q.Q3 _Q.Q3 5191 (AR III) 1 AW70 0.21 0.21 0. 17 BEGIN NGC 6886 (PK NO. C = 1.13 (R ADIO—H BETA! 5199 (N I ) l AW70 0.85 0.85 0.69 5270 (FE III) AW70 0.05 0.05 . ■51.» n.20» 3889 HP I 2 ACP 13.90 . 73 6730 (S II) L B A E2 1.00* 0.40* 2 VV 2 28.00 A . 84 A 9068 (S IIP l PER 102.00 lC2.00 21.30 (NE IIP 2- 33.00 9532 _LS I I P J PER. -35D.Q0 351.00 67.-27 ACD 45.90 10830 HE I PER 466.00 466.00 73.72 73.72 VV 2 40.00 10938 H I PER 18. 00 18.00 2. 80 2.80 3 3. 00 ACP 45.90 83. REGION KEY (R EG ION,REFERENCE,EXPLANAT ION) VV 2 40.00 72. A, AE2 , REGIONS A AND B ON DIFFERENT SCALES U 20-- 4069 ( S 11 ) 2 A 4.40 .47 NGC 6886 (PK NO. 60 -7 2) 4076 ( s 11 ) 2 A 4.40 .44 ¿.nq? T II— _2 ACP— 2U 10 . 12- 1 A 17.00 28. 2 ACP 21.10 35. BEGIN NGC 6891 CPK NO. 54-12 P C = 0.22 (RADIO-H BETA) -J PER 2-4. on 36.00 A WAVE IDENT N PG REF OBS I AVE O CORR I AVE C 4340 H I 40.00 3187 HE T 1 PG AKT 0.80 0.80 1.01 1.01 5-3-. 1Q 3613 -HE -L 1 .EG..AKI 0.40 0.40 OCT- 0-47 43.00 39.67 56.07 3634 HF I 1 PG AKI 0.90 0.90 1.06 L .06 36.00 39.67 56.07 3669 H I 1 PG AKI 0.90 0.90 1.05 1.05 4363 (O IIP 15.00 17.50 20. 24.37 3671 H I I PG AKI 0.70 0.70 0.82 0.82 ACP 53.10 73. 3673 H I 1 PG AKI 0.90 0.90 1.05 1.05 VV 2 20.00 17.50 27. 24.37 3676 H I I PG AKI 1.00 1.00 1. 17 1.17 4471 HE I 2.20 5.89 2. 7.68 3-679 . __H I— I PG AKT 1-QQ 1-17 1-1.7- l ACP 9. 59 5. 89 12. 49 7.68 3682 l PG AKI 1.30 1.30 1. 52 1.52 I VV 2 20.00XA 26, 06XA 3686 1 PG AKI 1.40 1.40 1.64 I .64 454.1 HE I I 1 ACP 6.97 6.97 a. £1 3.67 3691 1 PG AKI i.aa.. 1-80 DO 2.10 4634 N III 4.20 3697 H I L PG AKI 2.60 3.04 ACP 6.00 3703 H T 2 PG AKI 3.90 4. 55 AW7O 0.36 3703 HE I 2 PG AKI 3.90 4.55 4.20 3712 1 PG AKI 3.40 3.96 ACP 6.00 .97 3721 2 PG AKI 3.80 4.42 AW7O 1.72 1.72 . oa 2.00 3721 _LS III ) 2 P-G-AKI 3.80 4.47 4649 II 3 AW70 0.26 (O T I ) 1 19.00 22. 10 4650 I IT 3 AW7C 0,26 1 PE AKI 20.30 23.62 4651 III 3 AW7Q 0.26 1 PG AKI . 12..8fl„ 14. 89 4657 AW70 0.27 1 1.57* 1.83* 4658 3 AW7 O 0.27 1 VV 2 24.60X 28.62X 4661 3 AW70 0.27 3729 (O II) 1 PG AKI 8. QQ -3Q 40.00 41.67 .05 46.93 1.00* 1.16* ACP 37.00 41.67 .67 46.93 3734 i PG AKI 4.50 4.50 5.23 5.23 VV 2 48. 00 41.67 46.93 3750 1 PG AKT 5.30 5.3-Q _ít*_ _6 « 14— 4711 (AR IV ) 4. 00 ,43 3771 1 PG AKI 5.00 5.00 5. 78 5.78 ACP 10.60 ,73 3797 1 A 2.20 4.55 2. 53 5.24 4713 HE I ACP 10.60 ,72 1 PG AKI 6.90 4.55 7.95 5.24 4725 (NF IV ) 1 A W70 0.69 3819 1 PG AKI 2. 40 2.40 2.75 2.75 4740 (AR IV ) 1 A 4.00 6.63 3835 1 A 5.-20 7.07 5.95 8.09 1 9-25 100.00 100. 7.19 1 PE AKI .30 7-0-7 7-21 —8— 100.00 100.00 1 PG AKI 9.70 7.07 11.11 8.09 ACP 100.00 100.00 100. 100.00 1 73.00 51.30 83.18 58.45 COAL 100.00 100.00 loo*. 100.00 11 .Elf....AK I 39.9Q. 51.3Q 45.46 58.45 1 PER 100.00 100.00 100. 00 100.00 PG AKI 41.00 46.71 l VV 2 100.00 100.00 100, 00 100.00 VV 2 50. 10X 57.08X HE I _1 AJLLC— 0.45 Q. 4-5_ a. 43 0.43 -I A_ . 23-.OQ 13.80 26-1? 15.67 4931 (C IIP 1 A W7 0 0. 11 0.11 0. 11 0. 2 PE AKI 4959 (C IIP 1 A 050.00 537.25 615. 19 508.48 2 PG AKI 20.30 23.06 1 ACP 493.00 537.25 466. 60 508.48 2 VV 2 -3P8PJL 36.12X l PER 525.00 537.25 496. 89 508.48 3889 HE I 2 PE AKI 13.80 15.67 1 VV 2 481.00 537.25 455. 24 508.48 2 VV 2 3I.80X 36.12X _1 A -LfrOfl.QQ- -L133.-QQ— -1473. -L3 1595.59 -3.922 _C LL_ I PG AKI 0.50 A 0-57 A 1 ACP 1345.00 1733.00 1238. 35 1595.59 3964 HE I 1 PG AKI 2.10 2.10 2. 2.36 l COAL 2455. 00 1733.00 2260. 34 1595.59 3967 (NE IIP 2 A 35.00 39.35 _J PFR 1 665. on J 733.00 1532. Ü8 1 595^.59 1 PG AKI 17.80 17.80 20.01 20.01 VV 2 1600.00 1733.00 l595.59 44.50X 50.03 X 5015 HE I AW70 0.41 0.41 0.38 35.00 39.35 5041 SI II _1 AHJQ n. in ÛD-0- 0.09 NGC 6891 (PK NO. NGC 6886 (PK NO. 60 -7 2) 576 © American Astronomical Society • Provided by the NASA Astrophysics Data System TABLE 8—Continued 197 6ApJS. . .31. . N&L 6891 IPK ND. 54-12 BEGIN NGC 68S4 1PK NO. 69 -21) C = 0.70 (RADIO-H SETA) WAVE IDENT N RG REF OBS I CORR I WAVE IDENT N RG REF OBS I AVE 0 CORR I 3967 _±l I 2 PE AKI 2Q.QQ ??-49 3726 (0 II ) 1 AKI 93.00 150.52 1 PG AKI 16. 70 18.78 18.78 150.00 242.77 2 VV 2 44.50X 50.03 X 3729 (0 II ) 1 AKI 93.00 150.31 3970 (NE III) 2 PE AKI 2Q.QQ 22.48 3868 (NE III) 1 AKI 59.00 69.37 4009 HF I 0.30 0.30 0.34 0.34 76.00 115.12 102.24 4026 HE 6.40 5.17 7. 14 5.76 3889 H I AKI 20.00 29.99 1 PG AKI 4. 10 5.17 4.57 -5.76- 3889 HE I AKT 20.00 29.99 l c 5.17 5.58 5.76 3967 (NE III) 2 AKI 34.00 49.36 4068 ( S II ) 1 PG AKI 0.80 0.89 0.89 3970 H I 2 AKI 34.00 49. 30 4076 IS XI L 1 PG AKI 0« 40 0.4-0. 0.44 0.44 ? M 38.00 55. 10 4097 III 2 PG AKI 0.80 0.88 3970 (NE III) 2 38.00 55. 10 4101 I 1 A 25.00 24.97 27.59 27.56 4101 H I 1 18.00 17.50 24.64 23.95 1 PE AKI 23.60 24.97 26.05 27.56 1_ -IIaJOQ. . I 7.50 ...23..27 _23.« 9J 1 PG AKI 25.30 24.97 27.92 27.56 4340 32.00 32.50 39.65 40.27 l C 26.00 24.97 28.70 27.56 33. 00 32.50 40. 89 40.27 _1 V-V 2 4C.90X 45.14X 4686 15.00 19.00 16. 15 20.45 4121 HE I 1 PG AKI 0.80 0.80 0.88 0.88 23.00 19.00 24.7b 20.45 4143 HE I l PG AKI 0.60 0.60 0.66 0.66 AKI 100.00 100.00 100.00 100.00 4267 _C LL_ 1 PG AKI l.QQ 1.08 . 2j»7Q— ,££AL , IQOj.Q.Q, 100.00 -IQ.Q.flQ LQÜ.QQ 1 4.00 2.50 4.32 2.70 100.00 I 00.00 100.00 100.00 t A 51.00 45.17 54.55 8.31 (G III ) 1 AKI 271.00 325.50 261.92 314.59 2 PE AKI 46.00 49.21 _L_ M 3BQ»QQ, -XX5.-5Q 367.26 314.59 1 PG AKI 41.50 45.17 44.39 48.31 5007 (G I II ) L AKI 875.00 1003.67 831.35 953.60 1 C 43.00 45.17 46.00 48.31 l COAL 1096.00 1003.67 1041.32 953.60 _j v.v ¿ 50.IPX 53.59X L_ _M_ 1 Q4Q..QQ XQ_Q3«jE¡.7. 988. 12 953.6Q 2 PE AKI 46.00 49.06 1 PG AKI 5.70 5.35 6.08 5.71 NGC 6894 (PK NO. -J C 5.00 5.3.5-. 5.33 -5..7L- 1 VV 2 25.50X 27.20X 4387 HE I l PG AKI 1.00 1.06 _44 71 .HF I- 1 A 7.2.2 6.95 BEGIN NGi:...69a5 ( PK NQ. 61.-9 U C_=. Q.ll (RADIQ-H BETA) 1 PE AKI 7.60 7.22 8.00 7.61 1 PG AKI 6.70 7.22 7.05 7.61 WAVE IDENT N RG REF PBS I AVE 0 CORR I AVE C 8.00 7.2-2 -8.42— 7.61 3133 P III X  22.00 -22X3Q 24.76 24.76 l VV 2 23.6ÛXA 24.85XA 3203 HF I I 28.00 2 8. 00 31.36 4510 (K IV ) 1 PG AKI 0.40 A 0.42 A 3727 (0 II) 8.70 9. 38 - 4591 0 Li t PG AKI 0.52 20.90 22.54 4634 II 0.40 0.41 0.41 1 AC PG 38.80* 41.85* 4634 III 2. 50 2.58 3835 l ACPG 9.59* 10.26* 0. 70 0.72 -0.72 3868 _J à 52.00 61-47 55.51 4637 N III 2 C 3.00 3.09 AGP 77.40 61.47 82.62 65.61 4637 C I ll 2 C 3. 00 3.09 ACPG 125.00* 133.43* 4640 III -2 A— 2.50 2.5Z_ . 5 5.00 —58.71 .65.61 1 PG AKI 1.30 1.55 1.34 1.60 3 VV5 16.00* 17.08* l AW70 1.80 1.55 1.85 1.60 2 ACPG 13.30* 14. 17* -2 AW70 0-80 —0.82— 3 V V D5 1 6.OPT . 1 7. 0.5,t 2 PG AKI 0.40 0.41 3889 HE I 2 AC G 13. 30* 14. 17* 2 AW70 0. 80 0. 82 3 VV5 16.00* 17.05* 2 PG AKT 0.40 0.41. . 3967 (NE III) J â 22.QQ 22.00 23.33 4686 HE I I 1 VV 2 24.60X 25.18X 2 AGP 34. 10 36. 16 4711 (AR IV ) 2 PG AKI 2.00 2.04 2 ACPG 59.20* 62.77* 2 AW70 —2^X5— _2 VY5 6.40* 6.79» 2 C 3.00 3.06 2 ACP 34.10 36. 15 2 PG AKI 2. 00 2.04 2 ACPG 59.20* 62.76* _2 AW-7 0 2.70 2.75 _2 a 26-QQ 27.56 2 C 3.00 3.06 VV5 6.40* 6.78* l PG AKI 0.60 1. 17 0.61 1.19 3970 (NP III) M 26. 00 2 7.56 l AW70 0.30 1.17 0.91 1.19 4068 ( S II) ACPG 0.55* 0.58* l C 2.00 1.17 2.03 1.19 4076 ( S II) ACPG 4.35* 4.58* 1 A 100.00 ICO.00 100.00 100.00 4097 N III AGP 32.00 33.63 1 PE AKI IQQ..QQ 100.00 100.OQ 100.00 4101 __H I 16.00 17.00 16. 81 X7..86.. 1 PG AKI 100.00 ICO.00 100.00 100.00 2 ACP 32.00 33.62 C 100.00 100.00 100.00 100.00 1 ACPG 32.00* 33.62* _I COAL 100.00 100.00 100.00 1-GXiPQ. _j a 18.QQ .18.9.1 7.56* l VV 2 100.OOX 100.OOX 7.20* l PG AKI 3.00 3.00 2.90 2.98 24.00 24.82 1 A W70 3.00 3.00 2.98 2.98 77.30 79.95 l C 3.00 3.00 2.98 2*98 66.80* 69.09* 4931 (0 III) 1 A W70 0.60 0.6 0 0.60 0.60 36.00 31.33 37. 23 32.41 4959 (0 III) 1 A 300.00 302.33 296.80 299.11 ORE 34» OQ 31.33 35. L6 32.41 1 PE AKI 293.00 302.33 289.88 299.11 ? VV5 15.00* 15.51* 1 PG AKI 314.00 302.33 310.65 299.11 (0 III) 2 ACP 77.30 79.83 1 VV 2 209.OOX 206. 77 X X ACJP-G 8«l16* 8.43». 830.00 785.65 816.76 773.11 M 12.00 9.50 12.39 9.81 1 COAL 741.30 785.65 729.47 773.11 l ORE 7. 00 9.50 7.23 9.81 1 VV 2 592.OOX 582.55 X .2 VV5 15.QQ* .15.49* 5015 HE I l A W7C 4.90 A 4.82 A HF I I 39.00 79.50 39.45 80.42 5047 HE I l AW7C 0.80 0.80 0.78 0.78 ACP 114.00 79.50 115.33 80.42 5191 (A9 HI) J AW7Q 0.08 0.08 Q. 08 0.08 _M 63.QQ ■ .79.XH . 63.7.3 .aa..42- 5 199 (NI ) 1 AW 70 0.20 1.60 0. 19 1.54 l ORE 102.00 103.19 1 C 3.00 1.60 2.88 1.54 l VV 5 16.00* 16. 19* 5270 (FE III) I AW7Ç 0.20 0.20 0. 19 0.19 .4711- (AR IV ) _2 PiLP.Q 13Q.-0Q» 131.£3* 1 AW70 0.50 0.47 4713 HE I 2 ACPG 130.00* 131.27* 1 VV 2 33.70X 31.66X 4861 H I 1 A 100.00 100.00 100.00 100.00 -5.517. (CL III) X 4HJ.Q . U1Q 1. LQ— 1.02 1.02 1 ACP 100.00 1 CO.00 100.00 XQQtQQ... 5537 (CL III) 1 AW70 0.80 0.80 0. 74 0.74 COAL 100.00 100.00 ICO.00 100.00 5802 C TV 1 C 7.00 7.00 6. 32 6.32 M 100.00 1 CO.00 100.00 100.00 5875 HE I J AW7C BB.flÜ- 3S.on 34, nq 31 .39 ORE 100.00 ■ 1QQ.QQ 1QQ.QQ LQÆ.QQ- 32.00 28.70 2 780.00 775.83 50.10X 44. 94 X 1 ACP 244.00 310.00 242.70 303.34 63QQ _LD I ) 1— Q.QQtA Q.OO*A _j a 37Q-JQ .310.00 368.Q2 . 308.34- VV 2 44.50 44.50 38.40 38 .40 I ORE 316.00 314.31 l C 380.00 380.00 321.33 321.33 ? VV 5 180.00* 179.04* _1 CAN I .00* 0.85* 5QQ7 IV III) _2_ 780.00 773.75 VV 2 178.OOX 150.52X 1 ACP 789.00 355.87 782.68 849.01 6563 (N IT ) 2 VV 2 178.OOX 150.52X 1 COAL 758.60 855.87 752.52 849.01 6583 (IX K ) x CAa . 0-03* -Q..Q3». _i a_ 1020.QQ 855.87 1011.83 84,9.01. 6678 HE I l C 16.00 16. 13.41 1 ORE 696.00 A 690.43 A 2 VV5 180.00* 178.56* REGION KEY (REGIQN.REFERENCE,EXPLANAT ION) .5876 HE I., _L QRF -A »..00 A . 3.79 A PE, AKI , PHOTOELECTRIC CBSFRVATIONS 6563 (N II) VV5 50.00* 45.98* PG, AKI , PHOTCGRAPHIC OBSERVATIONS 6563 H I ORE 408.00 375.18 375.18 NGC 6891 (PK NO. NGC 6905 (PK NO. 577 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued NGC 6905 (PK NO. NGC 7008 (PK NO. 93+ 5 2) N RG REF OBS I CORR T WAVE IOENT N RG REF OBS I AVE CORR I AVE C _2 ÿ.^£- 50.QQ* 45.98* - 4340 H I 1 HB AC PG 4L.7Q- -19.26 .51.04 48.05 6717 S2- .29 ACPG 4. 79 3.04 6.53 4.15 1 1 C 11.00 8.86 11.53 9.29 1 HB ACPG p 1.30 3.04 1.77 4.15 1 2 C 13.00 8.86 13.63 9.29 4Q76. Ui LJ L 11 HP AV A£ -JmÙA. 2.68 4.97 3.64 8.86 ACPG-G_ 1. 70 2.31 _1 3 .C— l 4C 11.QQ 8. 00 8.86 11.53 8.39 __2*23— 9.29 2 ACP 33.60 45.25 1 ACP 100.00 100.00 100.00 100.00 1 AV ACPG .1 AV ACPG 100.00 ,-LQQ. QQ 1QQ.QQ . 10Û* QQ. 1 HR ACPG 1.70 2.29 1.89 1 HB ACPG 100.00 100.00 100.00 100.00 2 ACP 3 3.60 45. 17 l LB ACPG 100.00 100.00 100.00 100.00 1 AV ÆCPi- 24.60 33.07 _L_â âü 100.00 1 00.00 100.00 1Q0.00 HB ACPG 21.90 24.63 29.44 33.11 100.00 100.00 100.00 100.00 1 LB ACPG 20.80 24.63 27.96 33.11 1 C 100.00 100.00 100.00 100.00 1 A Ai 23. 00 24.63 30.92 33.11 2 C IQQ.f QQ 100.00 100.00 100.00 AS 20.00 24.63 26.89 33.11 C 100.00 100.00 100.00 100.00 1 C 29.00 24.63 38.99 33.11 C 100.00 100.00 100.00 100.00 2 C 30. 00 .¿4,63 40. 33 33.LL CQAL. IQfl.QQ LQQ*QQ LQQ*DQ 1 QQ.QQ 27.00 24.63 36.30 33.11 100.00 100.00 100.00 100.00 22.00 24.63 29.58 33.11 MI 73 100.00 100.00 100.00 100.00 2 8. QQ .24«_£3 37.64 33.11 ORF 1QQ.Q0 100.00 100.00 ifla.QQ- 4200 HE I I 1 HB ACPG 1.20 1.20 1.55 1.55 (0 III) l ACP 306.00 302.27 296.32 292.71 4227 ( FE V ) 1 AV ACPG 2.77 2.77 3. 54 3.54 1 AV ACPG 243.00 302.27 235.31 292.71 —426J— C I I 1 AV ACP-G— 3jl 3.30 4. 15 4.15 1 HB ACPG 404.00 -3jQ2-^ZJ _391.22 292.71 2 ACP 56.90 69.65 1 LB ACPG 436.00 302.27 422.21 292.71 1 AV ACPG 40.40 49.45 l A AS 379.00 302.27 367.01 292.71 NGC 7008 (PK NO. NGC 7008 (PK NO. 93+ 5 21 578 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued NGC 7QQB (PK.NCL 931 5—Zl. NGC 7Q09 LPK-.ND, 37-34 1) WAVE IDENT N RG REF OBS AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 4959 _LQ III I 1. & LS 3Q9.QQ 302,27 299-23 297-71 3475.57 INF V _J C A41 1.10 I, 1Q 1.28 1.28 1 C 215.00 302.27 208.20 292.71 KOS 12.00X 13.92X 2C 200.00 302.Zl 193.67 292.71 3425.57 0 2 AKl 0.05 0.06 JL 3 C 175.00 302.27... 169-..46.- 292-71 342 7 0 KA 0.05 0.06 1 340.00 302.27 329.24 292.71 3428.70 0 III l AKl 1.20 1.20 1.39 1.39 1 ORF 318.00 302.27 307.94 292.71 3430.55 D III 1 AKl 0.21 0.21 0.24 0.24 5007 _LQ HI) 1 AÇP 979.00 816.85 932.88 778.38 3438.35 NE II _2 AKl 0.08 AV ACPG 666.00 816.85 634.63 778.38 3438.35 AR II 2 AKl 0.07 HB ACPG 1175.00 816.85 1119.65 778.38 3440.32 0 III 1 AKl 0.08 0.08 0.09 0.09 LB ACPG 1136.00 816.85 1Q82.49 778.38 3442.00 NE II 1 AKl 0. 06 0.06 0.07 0.07 AS 900.00 816.85 857.61 778.38 3444.00 0 III 1 AKl 5.25 4.97 5.76 AS 700.00 816.85 667.03 778.38 1 C A41 4.70 4.97 5.44 5.76 1 C 625.00 816,85.. 59.5,56 778.38 _1 KOS 15.00X 17.36X 2 C 620.00 816.85 590.79 778.38 3447.59 HE I AKl 0.13 0. 13 0.15 3 C 500.00 816.85 476.45 778.38 3453.20 HE I 1 KA 0.03 0.03 0.03 0.03 COAL- 724.40 816.85 690.?8 778.38 3456.80 HE I 1 KA 0.03 0.03 0.03 0.03 960.00 914.78 3461.00 0.03 0.03 0.03 ORF 991.00 944.32 3463 0.04 0.04 0.05 0.05 HE II X_£ 24.00 21,25 19.90 17.62 3464.21 0.02 .02 0.02 0.02 2 C 26.00 21.25 21.56 17.62 3466.04 HE I AKl 0.05 0.05 0.06 3C 23.00 21.25 19.07 17.62 3472.00 HE I AKl 0.03 0.03 0.03 0.03 5C 12 ■ Q.Q 21.25 9.95 17.62 3478.95 AKl 0.06 0- 06 0-07 0.07 5517 (CL III) 1 A AE2 1•30*A 1•04*A 3480.80 NF II AKl 0.04 0.04 0.05 5537 (CL III ) l A AE2 1.00* 0.80* 3487.77 HE I AKl 0.02 0.02 0.02 0.02 5876 HE I _J L_£L_ 28.00 29.25 2Q.21 21.11 3495.30 KA Q.Q4 0.04 . a,.Q5_ Q.Q5 30.00 29.2 5 21.65 21.11 3498.70 AKl 0.07 0.07 0.08 32.00 29.25 23.09 21.11 3 504 AKl 0.05 0.05 0.06 7 7- no 79.7 5 21.11 3517-51 AKl 0- flA n. n¿> n.Q7 1 C 600.00 613.86 362.78 371.15 3530.58 HE I 1 AKl 0. 14 0. 14 0. 16 0.16 2 C 603.00 613.86 364.59 371.15 3542.50 NF I I 1 KA 0.03 0.03 0.03 0.03 3C 646.00 613.86 390,59_ 371.15 3545 _Q KA 0.04 0.04 0.05..- 0.04 4 C 592.00 613.86 357.94 371.15 3554.55 HE I l AKl 0.17 0. 1 7 0. 19 0.19 5C 605.00 613.86 365.80 371.15 3558.30 NE I I l KA 0.03 0.03 0.03 0.03 440-no 613.86 371.15 3461.00 NF IT -J KA 0.03 0.03 Q-Q.3- 0-03 ORF 811.00 490.35 3566 0 KA 0.03 0.Û3 0.03 0.03 6717 ( S II ) 1 B AE2 0.90* 0.53* 3568.62 NE II 1 AKl 0. 12 0.12 0. 14 0.14 6730 (S II ) 1 R A F7 1-00* 0.58» 3474.79 NF II _1 AKl 0.03 0.03 0.03- 0.03 3578 AKl 0.02 0.02 0.02 REGION KEY (REG ION,REFERENCE,EX PL ANAT ION) 3583 AKl 0.03 0.03 0.02* AV. ACPG. AVERAGE 3587.36 AKl 0.23 0.23 0.26 ■ HB, ACPG, HIGH EXCITATION BLOB 3599.70 HE I 2 KA 0.04 0.05 LB, AC°G, LOW EXCITATION BLOB 3599.70 HE I 2 KA 0.04 0.05 A, AF2 . REGIONS A AND B ON DIFFERENT SCALES -3601 _0 KA. - 0.05 0.06 AS DISTANT KNOT 3613.70 HE I AKl 0. 17 0. 17 0. 19 0.19 AS KNOT NEAP STAR 3634.35 HE I AKl 0.40 0.40 0.45 0.45 EAST SIDE OF RING 3648.90 _0 TIT -0^0-3.. ■ -ÛU13- Q. 03 0.03 2, C WEST SIDE OF RING 3657.59 2 AKl 0.24 0.27 3, C CUTER HALO WEST OF STAR 3657.59 2 AKl 0. 24 0.27 6, C NORTH...SI PE OF RING 3658.BI _J AK.l . ..a-23 0.26 C * SOUTH SIDE OF RING 3659.28 AKl 0.22 0.22 0.25 0.25 3660.22 AKl 0. 21 0.21 0.24 0.24 NOr. 7008 (PK NO. 933 5 3 441 - ? 4 -J AKl 0.21 0.21 0.24 0.24 3662.29 1 AKl 0.24 0.24 0.27 0.27 3663.40 l AKl 0.0 0. 0 0.0 0.0 3444-48 1 AKl 0-77 0-77 0.31 0.31 BEGIN NGC 7009 (PK NO. 37-34 11 C = 0.17 (RADIO-H BETA) 3665.93 AKl 0.27 0.27 0.31 0.31 3667.52 AKl 0.32 0.32 0. 36 0.36 WAVE IDENT N RG REF OBS I AVE C CORR I AVE C 3669 AKl 0. 31 0.31 0. 35 0.35 3121.71 0 III l AKl 0. 84 0.84 1.01 1.01 3671.32 AKl 0.38 0.38 0.43 0.43 3132.87 0 III l AKl 9.50 10.90 11.40 13.08 3673.61 AKl 0.42 0.42 0.47 0.47 i r a 41 17-30 1 0-90 14. 76 13.08 3676.75 AKl 0.46 0. 46 0. 47 0.57 3187.74 HE I AKl 1.50 1.80 1.79 2.15 3679.25 l AKl 0.49 0.49 0.55 0.55 1 C A4I 2.10 1.80 2.51 2.15 3682.74 l AKl 0.60 0.6 0 0.68 0.68 —3-20.3.10 HF II L AK.L. 3.00 3.-Q-5— 3..5J- 3.63 3686.86 _1 AKl Q «68 0.68 Q. 77 0.77 3.10 3.69 3691.49 l AKl 0.82 0. 82 0.93 3218.30 G 0.05 0.06 3694.17 NF I I 1 AKl 0.31 0.37 0.42 0.42 3218.30 NE II 0-05 0-06 ■3.6-91..1 1- H I _1 AKl 0.99 0.99 1,12. 1.12 3260.98 0 III l AKl 0.16 0.16 0.19 0.19 3698.90 C III L KA 0.04 0.04 0.05 3263.43 NE II l AKl 0. 15 0.15 0. 18 0.18 3702.82 0 I II 1 AKl 0.33 0. 33 0.37 0.37 3265.46 _Q LLL _1 AK1_ 0. 11 0.11 .13 0.13 3703.82 _H I A AKl -1.17 1.17 1,32- 1,32- 3267.31 III 1 AKl 0.06 0.06 0.07 0.07 3705.02 HE I AKl 0.70 0. 70 0.79 3299.36 III l AKl 0.91 0.91 1.07 1.07 3707.23 0 III AKl 0.33 0.33 0. 37 0.37 3305.15 II J AKl 0.05 0.05 0.06 0.06 3709.67 n in AKl 0.08 3306.60 II 1 AKl 0.06 0.06 0.07 0.07 3709.67 NE I I AKl 0.07 3312.30 1 II 1 AKl 2. 12 2.8 l 2.49 3.30 3709.67 AR I I AKl 0.07 0.08 -1 C A41 3.50 2.81 .11 3.30 3710.50 _S LLL 0.04 0.05 3323.90 NE II 0.08 0.08 0.09 0.09 3711.92 l AKl 1.27 1.27 1.43 3329.20 NE II 0.08 0.0 8 O. 09 0.09 3713.04 NF I I 1 AKl 0.24 0.24 0.27 0.27 3331.00 N 11 0.09 0.09 P. o.ll 3714.04 _e LLL 1 AKl 0.22 0.22 l 0.2? 0.25 3334.87 NE II 1 AKl 0.28 0.28 0.33 3715.15 III 0.30 0.30 0.34 3340.74 0 III 1 AKl 2.82 2.82 3.30 3717.80 III 0.04 0.04 0.05 0.05 3 C A41 3.60 4.22 3721.90 _J AKl 2.32 2.32 2.61 2.61 3 KOS 15.00X 17.56X 3726.01 (O II ) 1 AKl 8.48 3342.50 (NF III) l AKl 0. 18 0.21 I AN A41 180.00 202.33 3 C A41 3.60 4.21 i C A41 16.60 18.66 3 KOS 15.00X 17.56X AUV 1.00* 1.12* 3 C A41 3.60 4.21 LA 18.50 20. 79 3 KOS 15.OOX 17.55X OPC 1 5.40 17.31 3354.00 N I II 0.05 0.06 0.06 l PTP 15.90 3354.92 HE I AKl 0. 18 0. 21 1 VV 2 8.90 10.00 3354.92 NE II AKl 0.18 0.21 3728.73 (G II ) AKl 5-61 6.30 3367.00 0 I I l AKl 0. 10 0. 10 0.12 0.12 AUV 0.51* 3399.80 (FE V ) 1 AKl 0.05 0.05 0.06 0.06 3730.85 HE I AKl 0.02 0.02 0.02 0.02 3405.74 0 III 1 AKl 0.14 0.14 0. 16 0.16 373-2,60 HF I AKl .0,09 Q.Q9 0. 10 0.10 3408.13 1 AKl 0.08 0.09 3734.39 H I 1 AKl 1.94 1.94 2.18 3411.84 IV 2 AKl 0.05 0.06 3736.62 0 TV 1 AKl 0.02 0.02 0.02 0.02 3411.84 NE II _2 AKL 0.05 0.06 3740.24 0 II _1 AKL .06 -Q..Q6 0.0.7 Q.m-DSL- 3414. NE II AKl 0.18 0.21 3745.83 HE I 0. 03 0.03 0.03 3414.80 0 III AKl 0. 18 0.21 3748 HE IT 0.04 0.04 0.04 0.04 3417.71 NE II 1 AKl 0.07 . 0.08 . _Q-<_Q8_ 3750,14 H I 2.43 2.91 2.72 3.27 3423 0.06 0.07 LA 3.40 3. 81 3425.57 0.05 0.06 AKl 0.52 NGC 7009 (PK NO. 37-34 1) NGC 7009 (PK NO. 579 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued NGC 7QQ9 Í PK NO. 37-34 1) NGC 7009 (PK NO. 37-34 1) WAVE IDENT N RG REF OBS I CORR I WAVE IDENT N RG REF □ BS I AVE 0 CORR I AVE C .-3.754.5 Q _Q LLI_ AM- —Ü^52..- Q..58- 3959 _Q KA Q» 03 . 0.03 0.03 —0.03 3755.90 HF I 1 KA 0.04 0.04 0.04 0.04 3964.79 HF I 1 AK1 0.66 0.72 3757.33 0 III l AK 1 0.33 0.33 0.37 0.37 3967.40 (NE III) 2 AKl 47.50 52.00 3759.93 ni_ _L aki_ -Lr.5-4 . -1.54.. —L..72 1.72 2 AN A4I —40. 00.. 43.79 3762.40 0 I I 2 AKl 0.10 0.11 2 C A41 39.50 43.24 3762.40 SI IV 2 AKl 0.10 0. 11 2 ACP 28.30 30.98 3766.49 NE II _1 AK.1 - 0.-06 . 0.0.6 -0. 07 QæJLÏ... _2 LA 48.40 -52.99 1 AKl 3.38 3.59 3.78 4.02 2 OPC 40.00 43.79 1 LA 3.80 3.59 4.25 4.02 2 VV 2 47.40 51.89 3773.08 SI IV _J AKl 0« 07 0.0 7 0. 08 0.08 3970.00 H T _2 A-Kl 47.50 52.00 3774.13 UI 1 AKl 0. 20 0.20 0.22 0.22 2 AN A41 40.00 43.79 3777.16 NE I I 1 AKl 0.07 0.07 0.08 0.08 2 C A41 39.50 43.24 3779.50 N III 1 KA 0.03 0.03 0.03 0.03 -2 ACP 28.30 30.98 3780 0.03 0.03 0.03 0.03 2 CB AE 43.00 47.07 3781.80 HE II 0. 07 0.07 0.08 0.08 2 WA AE 52.00X 56.93X 3783.80 (FE V ) 0.03 0.03 0.03 0.03 2 WE AE 45.QQX 49.26X 3784.91 I I AKl 0.04 0.04 0.04 0.04 2 LA 48.40 52.99 3791.42 I II 1 AKl 0.33 0.33 0.37 0.37 2 OPC 40.00 43.79 3792.70 UI... 1 KA Q.Q3 Q. 03 0 «03 _2 2 47.40 51.89 3795.20 (FF V ) l KA 0.05 0.05 0.06 0.06 2 CB AE 43. 00 47.07 3796.36 HF I I 1 AKl 0. 10 0.10 0. 11 0.11 WA AE 52.00X 56.93X 3797.93 _H I J AKl 4.28 4.77 5.29 WE AE 45.Q0X 49.26X LA 5.20 4. 74 5.80 5.29 3973.16 G II 1 AKl 0.06 0.06 0.07 0.07 3805.96 HF I 1 AKl 0.05 0. 05 0,06 0.06 3974 0 KA 0.03 0.03 0.03 0.03 3811.08 _Q LU- _J AKl . - Q. 03 Q« 03 Q. 03... 0. Q3. 3976.77 G TV _1 AKl Q. Ql 0.01 -Q.Q1 0-01 3813.59 AKl 0. 11 0.11 0. 12 0.12 3979 0 AKl 0.02 0.02 0.02 0.02 3819.66 AKl 1.12 1.12 1.25 l .25 3982.96 O II 1 AKl 0.02 0.02 0.02 0.02 3826.93 AKl 0-02 -0.02 . 0-02 -Q..Q2-. 3986.1 9 S III J AJLL— 0.03 0.03 -0.03 3829.38 MG I 1 AKl 0.03 0.03 0.03 0.03 3993 0 AKl 0.03 0.03 0.03 0.03 3831.74 S III 1 AKl 0.04 0.04 0.04 0.04 3995.04 N II 1 AKl 0.02 0.02 0.02 0.02 3833.77 HF I _2 AKl- Q. 19 0.21 3997.15 (F LV—L J AKl 0.02 0.02 3833.77 HF I I 2 AKl 0.19 0. 21 3998 AKl 0.04 0.04 0.04 0.04 3835.43 H I 1 AKl 6.15 7.01 6.83 7.78 4001 AKl 0.02 0.02 0.02 0.02 1 CB-AE 7.60 7.01 -.&^44. 7.78 . 4QQ3.62 N I IT -AKl 0.07 1 LA 8.80 7.01 9.77 7.78 400 5 0.03 0.03 0.03 0.03 1 OPC 5.90 7.01 6.55 7.78 4009.31 HE I AKl 0.22 0.22 0.24 0.24 1 PT P 6.60 -2.0-1.. 7. 33 7.78 ■ 4026.15 LLE I— ■ AKl 3838.23 HF M I 2 AKl 0.09 0.10 l- C A41 1.40 2.95 1.52 3.21 3838.23 G I 2 AKl 0.09 0. 10 1 CB AE 2.40 2.95 2.61 3.21 3843.00 M U_ _I K-A 0.02 0.02 —1 WA AE 3848.00 II 1 KA 0.03 0.03 LA 3.10 3.37 3851.10 TI 2 AKl 0.05 0.06 PTP 2.34 2.55 A 3851.10 U -2 A-K-i— 0.05 -0.06 -3.21 3852.90 S I I 1 AKl 0.03 0.03 0.03 0.03 4035.08 Q 1 AKl 0.06 0.07 0.07 3855.90 SI II l AKl 0. 10 0. 10 0. 11 0.11 4041.41 N 2 AKl 0. 11 0. 12 3858.04 .HF II AKl . 14 0. 14 n. 16 0.16 4041.41 P _2 AKl Q. 11 3858.04 HE I I 1 AKl 0. 14 0. 14 0. 16 0.16 4043.57 N II 1 AKl 0.04 0.04 0.04 0.04 3860.60 s m l KA 0.04 0.04 0.04 0.04 4054.50 O II 1 KA 0.02 0.02 0.02 0.02 3862.57 SI II J AKl 0.12 .12 o>13 0.13 -.4056.03 C III -J AKl 0.07 -0.02 Q. 02 . 0.02 3864.60 0 I I 2 KA 0.04 0.04 4060.80 (F IV ) 3 AKl 0.04 0. 04 3864.60 0 I I 2 KA 0.04 0.04 4060.80 G II 3 AKl 0.04 0.04 3866 -0 AKl . -0^0 -Q-.-Q 4Q6Q.8Q Q LI 3 AKl Q.Q4 Q. 04 3868.63 (NF I II 1 l AKl 100.00 101.01 110.61 111.73 4062.91 O II 2 AKl 0.05 0.05 l AN A 41 110.00 101.01 121.67 111.73 4062.91 NF II 2 AKl 0.05 0.05 -3 C A4 1. —98. 50 108.95 4068.37 (S I T > J AKl - Q.67 -Q.73 1 ACP 108.00 101.01 119.46 111.73 l CB AE 2. 50 2.71 1 CB AF 101.00 101.01 111.72 111.73 l WA AE 7.00XA 7.58XA 1 WA AE 120.OOX 132. 73 X 1 WE AE 4.OOX 4. 33X 1 WE AE 95.00X 105.08X 4069.96 G I I 2 AKl 0.53 0.57 l LA 99.30 101.01 109.84 111.73 4069.96 0 I I 2 AKl 0. 53 0. 57 _! QPC 80.70 101-01 89.76 111.73 4072 (S JJ- } _l LA_ 2. 50 -Z..5Q 2.71 -2-. 71 l PTP 98.00 101.01 108.40 111.73 PTP 1.05 A l. 14 A l VV 2 111.10 101.01 122.89 111.73 4072. II AKl 0.44 0.44 0.48 0.48 3870 _Q 4JU Q. 16 Q. 16 0. 18 0-1 8 _*lQ7Aj -III AKl Q.Q6 0.06 Q« 06 0-06 3871.73 HF I l AKl 0.08 0.08 0.09 0.09 4075. 94 G I I 2 AKl 0.58 0.63 3875.3C 0 T I 1 KA 0.03 0. 03 0.03 0.03 4075, 94 (S II ) 2 AKl 0. 58 0.63 _ L2J.82.i9 LL _2 AKl . HaLL . -0.11 0. 12 0.12 .4080. iO Q_ III 1 AKl 0.07 0.08 3888.79 2 AKl 18.90 20.85 4081, II l AKl 0.03 0.03 0.03 0.03 2 AN A 41 20. 00 22.07 4083. II 1 AKl 0.14 0.14 0. 15 0.15 3 C A 4-1 _ 98.50 .JLaa. 68 -Æ0-8.5. 24 Q_ -H.. l AKl 0.1^ 0.14 _Qi_L5_ -Q.15 2 WA AE 25.OOX 27.58 X 4087. 19 1 AKl 0. 14 0. 15 2 WE AE 7.OOX 7.72X 4089. 1 8 2 AKl 0.30 0.32 _2 LA_ .18*40 20.30 4089. U SI_ _2 AKl t 30 _Q-fL-32 1 ÜPC 16. 00 17.65 17.65 4092. II AKl 0.09 0. 10 2 VV 2 23.70 26. 15 4097. III 3 AKl 1.94 2.09 3888.79 HE I 2 AKl 18.90 -2Pt95 -2 C A41 24.90 26.88 2 AN A41 20.00 22.07 4097.25 G II AKl 1.94 2.09 3 C A41 98.50 108.68 4097.25 O II AKl 1.94 2.09 2 WA AE 25.OOX 27.58X 4101.67 H I _1 AKl -26.50 25.61 28.60 _2J-»6^ 2 WE AE 7.OOX 7.72 X 1 AN A41 20.00 21.58 27.64 2 LA 18. 40 20.30 C A41 24.90 26.87 2 W 2 23.70 26.15 _L.C3 AE —¿2« 7Q 25,61 29.89 27.64 3891.44 (FE V 1 AKl 0. II 0.11 0. 12 0.12 1 WA AE 25.OOX 26.98X 3895.66 (FE V 1 AKl 0.09 0.09 0. 10 0.10 1 WE AE 22.OOX 23.74X 3905 0 AKl 0.04 0.04 0.04 0.04 _J LA_ 28.30 30-54 27.64 3907.38 0.03 0. 03 1 MI73 25.20 25.61 27.20 27.64 3912.00 0.03 0.03 l OPC 25.40 25.61 27.41 27.64 3912.00 KA 0.03 0-03 -1 PTP .25. IQ 25.61 27.09 27.64 3918.91 Il 2 AKl 0.04 0.04 VV 2 26. 70 28. 81 3918.91 II 2 AKl 0.04 0.04 4103.41 N III AKl 0.97 1.05 3920.52 HF II II _1 AKl 0.03 . 0.05 0.05 0.05 C A41 24.90 26.87 3923.51 1 AKl 0. 18 0.18 0.20 0.20 4103.41 G II 2 AKl 0. 97 1.05 3926.56 HE I 1 AKl 0.16 0.16 0. 18 0.18 4104.90 G II l AKl 0.10 0.10 0. 11 0.11 3928.87 S III 2 AKl 0.02 0.02 —4107.01 Q LL_ _1 AKl Qa 06 0.04 Q. 06 Q..Q5 3928.87 AP I I 2 AKl 0.02 0.02 1 KA 0.03 0.04 0.03 0.05 3933.19 S I I 1 AKl 0.03 0.03 0.03 0.03 4110.63 0 I I 1 AKl 0.05 0.05 0.05 0.05 3935 0 AKl 0.03 0.03 0. 03 0.03 4112.55 CL II 1 AKl . 0.04 0.04 0.04 n-f>4. 3944.87 l AKl 0.03 0.03 0.03 0.03 4115.88 SI IV AKl 0.03 0.03 0.03 0.03 3947.99 l AKl 0. 05 0.05 0.05 0.05 4119.52 O II AKl 0.22 0.22 0.24 0.24 3954.94 1 AKl Q---94. . 0.04 0.04 O.OA 4120.85 HE I AKl 0.24 Q- 24 3955.90 0.03 0.03 0.03 0.03 4123.55 (FE V ) AKl 0.03 0.03 0.03 0.03 3959 0.03 0. 03 0.03 0.03 4125.30 S III AKl 0.03 0. 03 0.03 0.03 NGC 7009 (PK NO. NGC 7009 (PK NO. 37-34 1) 580 © American Astronomical Society • Provided by the NASA Astrophysics Data System TABLE 8—Continued 197 6ApJS. . .31. NGC 7009 IPK NO. 37-34*1) -ttg-C 70Q9 l-PK_N,Q, 37-34 1) WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C N RG REF OBS I CORR I AVE C 4128.70 AR I I 1 AK1 0.05 0.05 0.05 0.05 ? KA 0.02 0.02 4130.DO ÍFE III) 1 KA 0.03 0.03 0.03 0.03 4353. 2 KA 0.02 0.02 4132.66 0 II 1 AK1 0. 10 0.10 0. il 0.11 4355 0 AK1 0.02 0.02 0.02 0.02 4135 O AK1 0.03 0.03 -QtQ.3_ _Q-»-Q3 4363.16 (0 III) 1 AK1 7.94 8.49 8.35 -£.»33 4136 AK1 0.02 0.02 0.02 0.02 1 C A41 10.30 8.49 10.83 8.93 4139 AK1 0.04 0.04 0.04 0.04 2 ACP 57.50 60.44 4143.81 HE I AK1 0.36 0.36 0.39 -P-t3.9 1 CB AE 8.00 8.49 8.41 8.93 4146.00 0 I I 2 AK 1 0.04 0.04 1 WA AE 11. 10X 11.67X 4146.00 0 I I 2 A KI 0. 04 0.04 1 WE AE 7.50X 7.88X 4150.56 NE II _L AK1 Qt 02 Q«_Q2— Q.Q2 _1 âîL. 10. 70X 11.25X 4153.66 11 l AKl 0. 16 0.16 0. 17 0.17 BOO 1.00* 1.05* 4155.48 0 11 i AKl 0. 11 0.11 0.12 0.12 1 LA 8.40 8.49 8.83 8.93 4L63..12 V L1 AKl Qt Q3 . Q.Q3 Q.Q3 Q .03 1 QCB .-8-» 50 »49 -.93 .93 4166 0.02 0.02 0.02 0.02 OPC 9. 70 8.49 10.20 8.93 4169.14 II AKl 0.08 0.08 0.09 0.09 PTP 6.60 8.49 6.94 8.93 4171.57 II l AKl Q.Q3 Q..Q3 Q.Q3- Q.Q3 4^65.90 NF T I 0.06 n. Oft 4176.00 AKl 0.03 0.03 0.03 0.03 4366.97 0 I I 1 AKl 0. 16 0.16 0. 17 0.17 4181.15 1 AKl 0.04 0.03 0.04 0.04 4369.20 0 I I l AKl 0.05 0.05 0.05 0.05 _J KA_ Q.Q3 —Q.-Q-3— ..Qa-Q3_ _Q.Q4 4371.73 -0 UL_ AKl 0.05 -JO.05 0-05 4185.51 0 11 1 AKl 0.08 0.08 0.09 0.09 4376.67 C I I 1 AKl 0.05 0.05 0.05 0.05 4186.94 C III 1 AKl 0. 13 0.13 0.14 0.14 4379.20 N III 1 AKl 0.39 0.3 9 0.41 0.41 4189.78 _□ LI_ _1 AKl Q « 11 Q.ll 0.12 0.12 4384 HF I 1 IA 2.70 2.70 .2.83 2.83 4195.72 III AKl 0.08 0.09 0.09 4387.90 HE I l AKl 0.68 0. 74 0.71 0.78 4199.90 HE II 1 AKl 0.49 0.39 0.52 0.42 l CB AE 0.80 0.74 0.84 0.78 -1..CË-AE.... Q.3Q Q«39 Q. 32 Q. 42 4397.nn NF T I -J AJ£J 0-10 0. 1 0 4202.00 AR II AKl 0.02 0.02 4396.00 0 I I 1 KA 0.02 0.02 0.02 0.02 4202.00 AR I I AKl 0.02 0.02 4398.02 NE I I 1 AKl 0.06 0.06 0.06 0.06 4215.8Q h LLL_ AKL- Q.Q3 Q.Q3 Q.Q3 Q.Q3 4408 _0 AKl 0-06 0.06 0-06 4217.20 0 I 2 AKl 0.03 0.03 4409.42 NE I I AKl 0. 10 0. 10 0.10 0.10 4217.20 NE II 2 AKl 0.03 0.03 4412.95 NE I I AKl 0.05 0.05 0.05 0.05 4219.79 NF II -J AKJ 0.08 0-09 4414.94 -0 UL_ AKl 0.13 0.14 4225.07 K I I 1 AKl 0.03 0.03 0.03 0.03 4416.94 NE II 2 AKl 0.11 0. 12 4231.61 NE II 1 AKl 0.03 0.03 0.03 0.03 4416.94 0 I I 2 AKl 0. 11 0. 12 4233.83 _C I _J AKl 0.02 0.02 0.02 0.0? 4419 _0 AKl 4237.04 II 2 AKl 0.06 0.06 4428.50 NE I l AKl 0.07 0.07 4237.04 II 2 AKl 0.06 0.06 4428.50 NE I I AKl 0.07 0.07 -4740 _0 KA 0.07- _o_a2— 4431.09 NF I I AKl 0-08 4242.24 1 AKl 0.10 0.10 0. 11 0.11 4432.7b AKl 0.07 0.07 0.07 0.07 4245 0 AKl 0.02 0.02 0.02 0.02 4434 AKl 0.03 0.03 0.03 0.03 4248 -0 AKl 0.02.. ■ 0.02 0.02 -4437.60 AKl 4250.53 NE II 1 AKl 0.03 0.03 4439.95 NF I I 1 AKl 0.03 0. 03 0.03 0.03 4253.88 n 11 2 AKl 0.09 0. 10 4446.68 NE I I 1 AKl 0.03 0.03 0.03 0.03 4253. —2 AKl - 4448.37 JO LL -I AKl- 4263.60 II 1 KA 0.05 0.05 0. 0.05 4452.40 C I I 1 KA 0. 04 0.04 0 0.04 0.04 4267.11 II l AKl 1.04 1.17 1. 10 1.24 4456.83 NE I I 1 AKl 0.04 0.04 0.04 0.04 -J f. A41 1.17 1.24 4459 _0 AKl 1 CB AE 0.80 0.85 4464 0 AKl 0.03 0.03 0. 03 0.03 4272.88 l AKl 0.03 0.03 0.03 0.03 4465.65 1 AKl 0.06 0.05 0.06 0.06 —47J5.57 _1 AKl 0.12 0.13 -J KA 0.05 0.05 4471.50 HF I 1 AKl 6.01 5.03 6. 25 5.24 4276.73 II AKl 0. 11 0. 12 1 C A41 4. 30 5.03 4. 47 5.24 4776.73 II AKl -ACP 5.03 4277.74 II 1 AKl 0.08 0.08 0.08 0.08 1 CR AE 4.90 5.10 4281.38 II 1 AKl 0.03 0.03 0.03 0.03 1 WA AE 4 • 60 X 4. 79X 4283.79 -LI _4 AKl 0.07 0.07 1 WF AF 6- 50X 6. 76 X 4283.29 AKl 0.07 0.07 AN 9.00 X 9.37X 4283.29 AKl 0.07 0.07 LA 6. 00 5.03 6.24 5.24 4283.29 AKl 0.07 0.07 OPC 4.80 5.03 4.99 5.24 4285.7C AKl 0.08 0.08 0.08 0.08 PTP 4.56 5.03 4. 75 5.24 4288.80 AKl 0.04 0.04 0.04 0.04 VV 2 3.70 5.03 3. 85 5.24 4291.61 AKl 0.06 O-Oft 4478.04 O II AKl 0.05 Qt 05 0»Q5 0.05 4291.61 2 AKl 0.06 0.06 4481.16 1 AKl 0.04 0.04 0.04 0.04 4294.85 1 AKl 0.10 0. 1C 0. 11 O.li 4487.85 l AKl 0.03 0. 03 0.03 0.03 4303.89 _1 AKl 0. 18 -Q.JLÍL. -Q*19 0.11 4489.7C _i AKl 0.04 Qt Q4 Qt.Q4 l KA 0.02 0.10 0.02 0.11 4491.89 0 II AKl 0.07 0.07 0.07 0.07 4307.33 11 1 AKl 0.05 0.05 0.05 0.05 4498.52 AP I I l AKl 0.03 0.03 0.03 0.03 -43.Q9.2 1 11 1 AKl 0.02 0.02 Q.QZ 0.02 45Q4 _Q AKl -Q-t.Q, -Qt Q 0.0 4309.21 2 AKl 0.02 0.02 4510.99 N III l AKl 0.23 0.23 0.24 0.24 4311 0 AKl 0.0? 0.02 0.02 0.02 4515.08 N III 1 AKl 0.08 0.08 0. 08 0.08 ■4.312.10 1 KA 0.02 0.02 -Q«-Q2. 0.02 4517.32 C III _i AKl 0.04 Q. 04 Q.Q4 4313.95 II 2 AKl 0.04 0.04 4518.10 III 0.07 0.07 0.07 0.07 4313.95 II 2 AKl 0.04 0.04 4523.65 N III AKl 0.08 0.08 0.08 0.08 4315.36 I I 2 AKl ' 0.05 0.05 4529.7Q _Q III AKl 0.05 Q.Q5 Q.Q5 Q .05 4315.36 2 AKl 0.05 0.05 4530.32 II l AKl 0.07 0.07 0.07 0.07 4317.24 1 AKl 0. 13 0. 13 0. 14 0.14 4534.57 N III 1 AKl 0.09 0. 09 0.09 0.09 4319.81 1 AKl 0.09 0.09 0.09 4541.59 HE II J AK.l 0.66 0.58 Q. 68 —Q..6Q 4324.00 III 2 KA 0.02 0.02 1 CR AE 0. 50 0.58 0.52 0.60 4324.00 III ? KA 0.02 0.02 4544, III 1 AKl 0.09 0.09 0.09 0.09 4325.83 II J. AKl Q.Q7 0.07 4547, III 1 AKl 0.05 0.05 0105 0.05 4331.39 1 AKl 0.03 0.03 0.03 0.03 4552, 54 N 1 AKl 0.07 0.07 0.07 0.07 4333.01 1 AKl 0.05 0.05 0.05 0.05 4562, 66 NF l AKl 0.03 0.03 0.03 0.03 4337.10 1 AKl 0.06 0.06 0.06 4564, 43 AR 1 AKl 0.04 Q.Q4 Q« 04 -Q.Q4 1 AKl 49. 10 43. 13 51.72 45.43 4571. I l AKl 0. 13 0.1 3 0. 13 0.13 1 AN A41 40.00 43.13 42. 14 45.43 4590. II 1 AKl 0. 10 0. 10 0. 10 0.10 I C A4 1 34.20 43.13 . 36.Q? 45.43 4596. 17 0_ I I _1 AKl 0.08 -Qt.Q.8 ■Q..Q8 Q.Q8 2 ACP 57.50 60.57 4602. 10 II 0.08 0.08 0.08 0.08 l CB AE 45.00 47. 40 4608. 30 (FE III) 0.03 0.03 0. 03 0.03 1 WA AF 45-QQ X 47- 40 X 4ftf)9 . U 42.00X 44.24X 4609. II AKl 0. 17 0. 17 50.00X 52.67X 4613. II AKl 0.03 0.03 0.03 0.03 LA 49.10 43.13 31.72 -45.»A3 - 4621 II AKl 0.03 0-03 0-03 0-03 l MI 73 42. 10 43.13 44.35 45.43 4631. ION II l AKl 0. 10 0.10 0. 10 0.10 l OCR 41.60 43.13 43. 82 45.43 4634. 16 N III 1 AKl 1.56 1.56 1.60 1.60 _J Q££_ 43.5Q .43.13 A5.92 45.43 _4 C A41 3.80 1 PTP 43. 70 43.13 46. 04 45.43 2 LA 6.30 6.45 1 R2 35. 00 43. 13 36. 87 45.43 4634 N l A AW70 1.43 1.43 1.46 1.46 1 W 2 51. IQ 43. 13 53.63 -45.43 —4638.85 CL. _J AKl 0.05 0.05 0-05 4344.51 0 II 1 AKl 0. 09 0.09 0.09 0.09 4640.64 N III 1 AKl 2.94 3.01 4345.72 0 I I 1 AKl 0. 15 0. 15 0. 16 0.16 4 C A 41 3.80 3. 89 4347.80 _Q II_ _1 AKl Q.Q7 0.07 0. 07 0.Q7 1. C-B—AE 4349.46 AKl 0. 22 0.22 0.23 0.23 A AW7C 3.90 3.99 4351.75 AKl 0.04 0.04 0.04 0.04 A AW70 3.90 3.99 NGC 7009 (PK NO. 37-34 1) NGC 7009 (PK NO. 37-34 1) 581 © American Astronomical Society • Provided by the NASA Astrophysics Data System TABLE 8—Continued 197 6ApJS. . .31. NGC 7QQ9 (PK NQ. 37-34 1) NGC 7009 (PK NO. 37-34 1) WAVE IDENT N RG REF OBS I CORR I WAVE (DENT N RG REF OBS I AVE 0 CORR I AVE C 4641 D I I 3 A AW7C 3.90 3.99 4959 (0 III) 1 LA_ - 3.5.1 »-9P_ 353.73 348.11 350.81 4641.90 N III AKl 0.91 0.93 l LA 54 433.00 353.73 429.43 350.81 4641.90 O II AK1 0.91 0.93 l OPC 364.00 353.73 361.00 350.81 - A£4 7.4 Q C LU_ AK1 Q. 32. Q. 36 . Q. 33 Q.37- 1 PTP 372._Q0_ 353.73 368.93 350.81 1 A AW70 0.40 0.36 0.41 0.37 l R2 350. 00 353.73 347.11 350.81 4649.14 O II L AKl 0.87 0.96 0.89 0.98 1 VV 2 222. 30 353.73 220.47 350.81 1 A AW7 0 1.05 0.96 1.07 0.98 1 WYSE 430. 00 426.45 A 4651.35 C III AK1 0.35 0. 4986 (FE III) 2 WYSE 50 A 1.48 A A41 3.80 3. 4986 N II 2 WYSE 50 A 1.48 A A AH 70 0.40 0.37 0.41- 0.38 4994 (FE VII) 2 WYSE 50 A 1*48 LA 6.30 6.44 4994 II 2 WYSE 1. 50 A 1.48 A 4658.42 C IV AKI 0. 07 0.07 5006 III) l AN A41 1060. 00 1067.86 1046.94 1054.70 C A41 § 88_ 0.24 1 C A41 960. 00 1067.86 948.17 1054.70 A AW70 0.40 0.23 0.41 1 ACP 1030. 00 1067.86 1017.31 1054.70 4661.64 O II AKl 0.30 0.33 0. 31 0.34 l WA AE 1217. OOX 1202.OOX AW 70 0.36 0.33 Ot 37 , 0.34 1 WE AE -1380. sm, 1363.QQX 4667.28 N II AKl 0.06 0.06 0.06 0.06 AN 460. OOX 454.33X 4673.75 O II AKl 0.10 0.10 0. 10 0.10 BDO 186. 00* 183.71* —4.676.2 6 Q Li_ AKl 0.24 0.25 0.24 Q.26- _ÜE —1QQ.Q-« 00* 981.68* AW7 0 0.27 0.25 0.28 0.26 LA 1030. 00 1067.86 1017.31 1054.70 46«5.68 HE II AKl 18.80 14.Q1 19. 14 15.18 LA54 1175. 00 1067.86 1160.52 1054.70 C A4! 13.50 14.91 13.74 15.18 PTP 1150, Ü0 1067.86 1135.83 1054.10 1 CB AE 15. 80 16.09 R2 1070. 00 1067.86 1056.82 1054.70 l AN 23.OOX 23.42X VV 2 0. O A1067.86 0.0 A1054.70 -J LA- 16. HO WYSE 1480. 00 A 1461.76 A ÜPC 14. 10 14.91 14.35 15. 18 HE I 1 BE 76* 1.74* PTP 1 2.. 80 14.91 13.03 15.18 1 WYSE 00 3.95 A VV 2 12. 60 14.91 12.83 15.18 (FF I IU—1 MYSF 4689 KA 0.05 0.05 0.05 0.05 5041 A W7 0 12 0. 12 4698 A W7 0 0.07 0.07 0.07 0.07 5074 WYSE 50 A 1.47 4701 (FE III) 1 AJcLLC Q. Lü. 0.16 5090 WYSE 50 A _L 47 A 4705.36 0 II AKl 0.05 0.05 0.05 0-.05 5111 1 A AW70 0.0 0.0 0.0 4711.34 (AR IV ) AKl 5.29 5.29 5.37 5.37 5117 1 A AW70 0.0 0.0 0.0 A4 1 5131 1 A AW70 . Qt 09 Q.Q9 .Q_jlQ9 5.70 5.79 5135 l A AW70 0. 0.0 0.0 OPC 4.40 4.47 5140 i A AW70 0.0 0.0 0.0 -4713. 1 7 h£—L AK 1 0.65— 8 1 48 _] A AW70 3 C A41 4.40 4.47 1 B AW70 0.13 0.17 0.13 2 CB AE 4.60 4.67 l A AW70 0.05 0.05 0.05 _2 LA —1 B AW7Q 2 OPC 4.40 4.47 5173 A AW70 0.10 0. 10 0.10 4712 (AR IV ) 2 CB AF 4.60 4.67 5176 A AW7 0 0.08 0.06 0.08 -47-2A— (NF IV ) -J AX 1 . B AW70 —Q^QB— O.Ofl AW 7 C 0.03 0.03 5181 N II WYSE 1.46 A 4734 (FE III) AW 70 0.C8 0.08 0.08 0.08 5191 (AR III) A AW70 0.19 0.21 0.18 -4J40.2C (AR IV ) AKl 7.^40 6.35 ■ 5.42- B AW7Q 0.19 0. 16 Q.lfi 3 C A 41 4. 40 4.45 1 CB AE .06 0.06 1 CB AE 4.40 4. 45 1 WA AE . 40X 6. 21 X -J LA —1 WF AF OPC 4.90 5.35 4. 96 5.42 1 A AW70 0.17 0.14 0.16 4755 AW70 0.12 0.12 0.12 0.12 1 P AW70 0.17 0.04 0.16 4.775. PC 0.12 —1 PTP 4775.00 C I 0. 12 0.12 1 A AW70 0.07 0.11 0.07 4782 NF II AW70 0.05 0.05 0.05 0.05 1 B AW70 0.07 0.04 0.07 4784.50 (CR V Q. IQ Q.1Q 0. IQ 0.10 (FF III) 1 AW7Q O- ?3 4805 A AW 70 0.07 0.07 0.07 0.07 B AW70 ,29 0.26 0.28 0.26 4819 A AW70 0.05 0.05 0.05 0.05 5304 A AW7 0 ,03 0.03 0.03 0.03 4821 ( FF I I I ) WYSE 0. 70 0. 70 5323 A AW70 0.04 0.04 0.04 4861.30 H I AKl 100.00 100.00 100.00 100.00 WYSE 0.96 A AN A4 l 100.00 100.00 100.00 100.00 5338 A AW70 0.06 A C A41 100.00 1 CO.00 100.00 100*tOQ 5343 A AW7.0. CL. 15 ACP 100.00 100.00 100.00 100.00 1 B AW70 0. 10 1 CB AE 100.00 1 00.00 100.00 100.00 5345 1 WYSE 1.44 A 1 WA AE 1QQ.QQX 100.QQX 5402 -J WYSE .QQ A- Q. 95 A l WE AE 100.OOX 100.OOX AE 24* 0.23* l AN 100.OOX 100.OOX 1 CB AE 25 2.25 1.19 2.14 _J K-QS 100.QQX 1QQ.0QX _1 A AW7.Q.. A5_ . 2«25 1.3B 2.14 LA 100.00 100.00 100.00 100.00 l B AW70 2.25 3. 14 2.14 L A 54 100.00 100.00 100.00 100.00 l VV 2 00 2.25 2. 86 2.14 MI 73- 100.00 1 CO.00 100.00 . -LOO.00 -J WYSE 00 A 7.62 A □CP 100.00 100.00 100.00 ICO.00 5422 B AW70 0.07 PTP 100.00 ICO.00 100.00 100.00 5488 1 B AW70 . 10 0.09 A R2 100*00 1QQ.QQ 1QQ.QQ .100.00 1 WYSE *-0.0 VV 2 100.00 100.00 (CL III ) 1 A AE 0.23* WYSE 100.00 100.00 A 1 CB AE 0.42 __4867.30 A FE IV ) 3 Q . Q-B 1 1A A E 2 71*_ 0-67* 4867.30 N III KA 0.08 0.08 l 2A AE2 80* 0.76* 4867.30 N III KA 0.08 0.08 1 A AW70 10 0.87 1.04 0.82 _.4B73 C LI- WYSF 1.QÛ A 1.00 _1 B AW7Q 36_ . Q. 87 1.00 0.82 4882.50 (FF III) 2 0. 09 0.09 WYSE 1.89 A l 0.24 0.24 5530 N II WYSE 50 A 1.42 A 4882.50 (FE III) 2 0^.09 Q. 09 5537 (cl im _AE 35* 0.33* 4896 (FF VII) l WYSE 1.50 A 1.50 A 1 CB AE 61 0.58 4901 A AW7 0 0.06 0.06 l IA AE2 00* 0.94* -A9Q4 J WYSE- 1. 50 A 1.49 A _1 2 A AE2- 00* .-0*94* 4906 A W70 0.10 0. 10 1 A AW70 1.06 1. 16 1.00 491 5 WYSF 1.50 1.49 A 1 B AW70 1.06 1.25 1.00 4921.96 HF I AKl 1. IQ 1. IQ 1.09 _1 WYSE- QQ .A 2.83 A 3.00 A 2.98 A 5563 l WYSE 50 1.41 4931.00 (O I III 0.45 0.36 0.45 0.36 5577 l WYSE 00 A 2. 82 0.28 0.36 0- ?B 0.36 5586 -I B AWjJL- .Qt04- 0*04 -0,0.4- 0.04 WYSE 2.00 1.99 1 A AW70 0.11 0.07 0.11 4931 (FE III) WYSF 2.00 1.99 1 B AW70 0.11 0. 15 0.11 4937 (FE III) WYSE JLl-5-0 1*49 5597 _J A AW7Q 0.02 0.02 0.02 4949 1 WYSE 1.50 1.49 A 5634 1 WYSE 1.40 A 4959 l AN A41 400.00 353. 73 396.70 350.81 5667 1 A AW70 0.16 0. 16 0.15 1 C A41 3A0-.-00 353.73 337.20 350.81 -J B AW7.Q - -0.16 0..1.5 1 ACP 351.00 353.73 348.11 350.81 5677 (FE VI ) 1 CB AE 0.28 1 CB AE 354.00 353.73 351.08 350.81 5677 N II l WYSE 50 A 1.40 1 WA AE 416.QQX 41 ? . 5/ X 5679 1 A AW7Q 3L4 0.37 Q.3J l WE At 450.OOX 446.29X l B AW70 0.39 0.42 0.37 l AN 170.OOX 168.60X 1 B AW70 0.05 0.05 0.05 NGF 7009 (PK NO. 37-34 l) NGC 7009 (PK NO. 37-34 1) 582 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. TABLE 8—Continued NGC 7009 1 A&W 10.80X _ 2 7 ♦_? 1 X— 1 KACE 0.0 0.0 0.0 0.0 KACE 8.62 22. 12 3868.75 (NE III 1 1 ABW 51.00X 114.94X A41 11.90 30. 53 1 1 KACE 50.20 48.80 113.14 109.98 _AH— L.QO* 2.57» 1 A41 44.30 48.80 99.84 109.98 AUV 1.00» 2.57» 50.70 48.80 114.27 109.98 LA 16.30 41.82 50.00 48.80 112.69 109.98 MI71 Bj 62 — 22.12 52.60X 118.55X 0 12.90 33. 10 3871.59 HE I l ABW 0.40X 0.90X FTP 14. 50 37.21 1 KACE 0.07 0.07 0.15 0.15 VV- 2 - 15.8QX -4Q.-54X- 3887.53 -HE . li 1— . ABW 0.0 X ■Q.Q 0.0 X .Q-.Q 3728.74 (O II ) 1 ABW 5.60X 14.33X 1 KACE 8.80 19.47 l 1 KACE 3.00 7.68 ABW 8.00X 17.68X J AH 0-47* 1.2Q* . 1- KA.C.E -&.8Q 19.45 AUV 0.47* 1.20» A41 8.00 17.68 MI71 3. 13 8.01 LA 7.90 17.46 _2.7 3-.-L_ ABW _ Q.21X Q. 54X 0 9.10 _20-j-Ll— 0 l KACE 0.03 0.08 VV 2 0.0 XA 0.0 XA 1 ABW 0.60X 1.53 X 1 KACE 8.80 19.45 _L 1 KACE— Q. 06 2.60X Q. 16 AAJ 8.00 17.68 3734.33 H I 1 ABW 6.62X 7.90 17.46 1 1 KACE 1.15 2.93 9.10 20.11 3736.77 O IV 1 ABW C.90X 2.29X VV 2 0.0 XA 0.0 Q.Q XA Q.Q 1 KACE 0. 16 0.41 3891.33 (FE V ) 1 ABW 0.50X 1. 10X ABW O. 50X 1.27X 1 KACE 0. 10 0.22 NGC 702 7 ( PK NO. 84-3 1) NGC 702 7 (PK NO. -3 1) 586 © American Astronomical Society • Provided by the NASA Astrophysics Data System TABLE 8—Continued 197 6ApJS. . .31. NGC 7027 (PK NO. 84-3 1) NGC 7Q27 (PK NO. 84-3 1> WAVE IDENT N RG REF OBS I CORR I WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 3895.48 (FE V ) I ABW 0.35X 0.77X 4103.31 N III I \ KAÇÇ 0.47 0.47 0.87 Q-»_9-l-. 1 1 KACE 0.05 0.05 0.12 A41 13.00 23.99 3911.86 (FE V I 1 ABW 0.07X 0. 15X ABW 0.20X 0. 36X 1 1 KACE Q. Ql Q..QL 0.02 Q.Q2 1 KACE 0.04 0.07 3919.21 C I I l ABW 0.07X 0. 15X 4120.73 HE I ABW O. 50X 0. 91X l 1 KACE 0.01 0.02 0.02 l KACE 0. 14 0.25 392Q.66 _C LL_ _1 ABW Q.16X Q.34X- 4122.46 (K V ABW 0.35X 0.64 X l 1 KACE 0.03 0.06 0.06 1 KACE 0.09 0.09 0. 16 0. 16 3923.47 HE II 1 ABW 0.70X 1.50X 4128.75 (FE I III l 1 KACE 0. 12 0. 12 0.22 0.22 _1 1 KACE Q.24 0.22- _fl.¿2 0.47 4128 0_ ABW 0. BOX . 54 X A41 0.20 0.22 0.43 0.47 4143.63 HE I 1 ABW 0.60X 1.07X 3926.55 HE I ABW 0.30X 0.64X l 1 KACE 0. 17 0.20 0.30 0.37 1 KACE 0.06 0.12 _L_ A41 • 24.. . 0.20 0.43 0.37 3954.50 0 I I 1 ABW 0.07X 0. 15X 4146 0 ABW 0.0 0.0 1 1 KACE 0.01 0.01 0.02 0.02 4152.55 C III i ABW 0.07X 0. 12 X 3956.86 0 IV _J 1 KAÇ.E 0.04 0.04 0.08 0.08 4156.28 C LU 1 A_ß_H Q.3QX -Q.53X 3956 0 ABW 0.22 X 0.46 X 1 KACE .02 0. 04 0.04 3961.64 1 ABW 0.20X 0.42X 4163.25 (K V ) 1 ABW 0.50X 0. 88X _2 I KAC-E Q.Q3 0.07 _L 1 KACE Q.18 -0.32 0.32 3961 (F IV I 1 KACE 0. 0.07 4168.92 03HE I ABW 0.11X 0. 19 X 3964.82 HE I 1 ABW 1. 10X 2.29X 1 KACE 0.03 0.05 J 1 KAC-E Qm 29 0.29 Q.6Q Q.6Q.. 4180.86 (FF V I I ABW Q. 15X -Q.26X 3967.47 (NE III) 1 ABW 25.00X 51.85 X 1 KACE 0.03 0.05 1 1 KACE 20.30 2 0.30 42. 10 4185.46 O II ABW 0.11X 0. 19X 2 A4! 21.60 44. 80 L KACE 0.03 Q. Q3 -Q.Q5 LA 26.40 54.75 4186.82 ABW 0.50X 0.86 X 0 24.50 50.81 KACE 0. 17 0.29 VV 7 8. 90X 59.94X 4189.75 ABW Q. 15X -Q.26X 1 ABW 25•00 X 51.81X l KACE 0.03 0.03 0. 05 0.05 2 1 KACE 6.20 A 12.85 A 4194 1 KACE 0.02 0.02 0.04 0.04 _2 A41 21.60 44.76 41QS.60 AÜW 26.40 54.71 KACE 0. 03 0.05 24. 50 50.77 4199.81 HE II ABW 1.50 X 2.55X 2B.9QX 59. 89 X K Ar p 3970 HE II 2 1 KACE 6.20 A 12.83 A 1 A41 0.30 0.51 3997.36 (F IV ) l ABW 0. 16X 0.32X 4227.35 (FE V ) I AUW 0.45X 0. 75X J I KACE 0.03 0.05 1 KACE 4003 ABW 0.0 X 0.0 X 0.0 4229.21 (FF V 11 1 KACE 0.03 0. 05 4007.91 ABW 0. 13X 0.26 X 4229 ABW 0. 11X 0. 18 X KACE 0.05 4.753,70 4009.26 HE I 1 ABW 0.40X 0.80X l KACE 0. 01 0.01 0.02 0.02 1 1 KACE 0.09 0. 18 4253.79 ABW 0.08 X 0. 13X 401 1.60 (NA V L _2 1 KACE 4761 n. 03 0.05 4011.60 1 ABW 0.06X 0.12X ABW 1 .OOX I • 61 X 2 1 KACE 0.01 0.02 l KACE 0.42 0.41 0.68 0.66 4026.0? _2 AB-W -CU.4U. 0.66 2 1 KACE 1.32 2.61 4275.48 1 KACE 0.01 0.02 1 A41 1.00 1.50 1.97 2.96 4275 ABW 0.09X 0. 14X 1.5-Q- 2.96 VV 2 7.40X 14.61X 4276.55 0 I I 1 KACE 0.02 0.03 4026.02 HE II ABW 2.30 X 4.54X 4276.55 0 I I 1 KACE 0.02 0.03 1 KACF 4034.80 0 I I 1 1 KACE 0.02 0.02 0.05 0.05 4325.90 ABW O. 12X 0. 18 X 4046.40 (FE I II 1 1 1 KACE 0.07 0.07 0. 14 0.14 l KACE 0.02 0.03 4060.23 (FF TV 1 J ABW 0.30X nT 57* 4338.B9.. ABW - 33.OOX 50. 25 X l KACE 0.09 0.09 0. 17 0.17 1 KACE 0.72 1. 10 4068.57 ( S III ABW 4.50X 8. 56 X ABW 33.OOX 50.20X 1 KACE 3.70 3.70 7.04 7.04 l KACE 31.10 30.60 47. 31 46.55 4070.12 C III ABW 0.50X 0.95X A41 27. 10 30.60 41.23 46.55 1 KACE 0.28 0.28 0.53 0.53 AN 46.70X 71.04X 4Q71.29 (FE V L_ ABW 0 . 22 X Q.42X LA .32.9Q 3Q.6Q —5QU35 _46.5.5_ l 1 KACE 0.04 0.04 0.08 0.08 31.20 30.60 47.46 46.55 4072 (S II I l A41 4.80 6.53 9. 10 12.38 3 1.20 30.60 47.46 46.55 _! LA 6.JgO_ 6.53 12.33 12.38 30. 70 30.60 46. 70 46.55 0 9.8 6.53 18. 58 12.38 31.90 30.60 48. 53 46.55 FTP 5. 02 6.53 9.52 12.38 30.60 30.60 46. 55 46.55 4072.13 Q LL_ ABW Q. 3QX... 0. 57X 34.20 30.60 52.03 46.55 l 1 KACE 0.07 0.07 0. 14 0.14 0 30.90 30.60 47. 01 46.55 4073.93 1 1 KACE 0.03 0.03 0.05 0.05 ncR 28.80 30.60 43. 81 46.55 4073 0 ABW 0.20 X 0.38X PTP 30.20 30.60 45. 94 46.55 4076.20 ( S I I I 1 ABW 2.30X 4. 35X 27.00 41.07 1 l KACE 1.46 2.76 44.70X 68.OOX 4078.69 C I I 1 ABW 0.09X . L7*_ 4343 ABW Q.2QX O.3QX l 1 KACE 0.02 0.02 0.03 0.03 KACE 0. 03 0.05 0.05 4080.86 1 1 KACE 0.01 0.01 0.03 0.03 ABW 0. 12X 0. 18 X 4Q8Q _Q ABW 0.08X Q« 15X l .KAÇE, 0.02 Q...Q-2- 0.03 4084.01 l 1 KACE 0.02 0.04 4363.21 (0 III I l ABW 18.OOX 26.89 X 4084 0 ABW 0. 11X 0. 21X l 1 KACE 18.30 18.04 27.34 26.95 4CB7-15 0 I I _J ABW Q.Q3X Q.Q6X L_ A4 1 14.60 18.04 21.81 26.95 1 1 KACE 0.01 0.01 0.01 0.01 AN 35.10X 52.44X 4089.18 O II 1 ABW 0. 15X 0. 28 X LA 19. 10 18.04 28.53 26.95 _1 1 KACE 0.03 Q, 06 Q.Qfr - 17.40 18.04 2 5.99 26.95 4097.33 N III 1 ABW 2.OOX 3.71X 1 MM 19.20 18.04 28.68 26.95 1 1 KACE 1.07 1.98 2 MM 17.40 18.04 25. 99 26.95 J A 41 ,1 24,11- 22.30 18,Q4 .. —33.31 26.95 4100.07 HE II 1 ABW 1.40X 2.59 X n 17.40 18.04 25.99 26.95 l 1 KACE 0.40 0.74 OCB 17. 30 18.04 25.85 26.95 4101.72 H I 1 ABW 14.OOX 25. 88X PTP . 17,49 18.04 25.99 26.95 1 KACE 13. 30 24.58 44.70X 66.78 X 3 A41 13.00 24.03 ABW 0.17 X 0.25 X 1 LA 15.40 29,46 28.23 1 KACE 0.03 0.04 M I 71 14.40 15.27 26.62 23.23 4376 1 KACF 0.03 0.03 0. 04 0.04 MI 73 15.30 15.27 28.28 28.23 4379.17 ABW 0.30X 0. 44X MM 15.30 15.27 28.28 28.23 1 KACE 0.08 0.08 -Q.n 3.11 l B MM 15.60 15.27 28.83 28.23 4387.84 ABW 1.20 X 1.76X 1 1 MM 16. 50 15.27 30.50 28.23 1 KACE 0.33 0.33 0.48 0.48 1 2 MM 15.50 15.27 28.65 . 28^,3 4391 .95 1 KACE 0.02 0.02 0.03 0.03 17.50 15.27 32.35 28.23 4391 ABW 0. 12 X 0. 18X 14.10 15.27 26. 06 28.23 4414.81 ABW 0.14 X 0. 20X 15. 10 15.17 27.91 28.23 KACF Q. 02 _flU)2 0.03 VV 2 19.20X 35.49X ABW 0.08 X 0. L1 X 4103.31 N III ABW 1.90X 3. 51X 1 KACE 0. 01 0.02 NGC 7027 (PK NO. NGC 7027 (PK NO. 587 © American Astronomical Society • Provided by the NASA Astrophysics Data System TABLE 8—Continued 197 6ApJS. . .31. NGC 702 7 I PK NO*. NGC 7027 (PK NO. 84 -3 II WAVE N PG REF OBS I CORR I WAVE I DENT N RG REF OBS I AVE 0 CORR I AVE C _S ABW 0.11X 0. 16X 4678.17 N II 1 1 KACE 0.03 0.03 0.03 0.03 0 1 KACE 0.02 0.02 0.03 0.03 0 ABW 0.09X 0. 10X 4437.61 HE I 1 ABW 0. 17 X 0. 24X 0 1 KACE 0.04 0.05 1 1 KACE 0.04 -Qf-QA.. 0.06 0.06 468Q _Q k&M Q.18JL. -0.21 X ABW 0. 14X 0. 20 X 4685.75 HE II ABW 42.00X 48.51X 1 KACE 0.02 0.03 l 1 KACE 41.20 39.93 47.59 46.13 ABW QtUX . Q»17X_ I PE KACE 39« 70 39.93 __4.4«7Q ^6.13 0 l KACE 0.02 0.03 0.03 A41 38.90 44.93 4471.39 HE I 1 ABW 5.00X 6.89X AN 66.00X 76.24X _J 1 *A.CE 2.99 -^.9-7 . 3.« U 4.10 LA *3.30 39.93 . 47.59 30..02 49.13 2.70 3.72 l 1 41.20 39.93 46.13 12.00X 16.54X 1 2 42. 50 39.93 49.09 46.13 LA.. 3.90 2.97 5.37 4.10- _1 3_ 35.00 39.93 40.43 46.13 2.76 2.97 3.80 4.10 39. 80 39.93 45.97 46.13 2.43 2.97 3.35 4.10 PTP 38. 80 39.93 44. 82 46.13 4.08 . .97 5.62 4.10 . VV 2 42.IPX 48.63 X 2.60 2.97 3.58 4. 10 4688 ABW 0.22 X 0.25X PTP 2. 62 2.97 3.61 4.10 KACE 0.04 0.05 VV 2 10.00X 13.78X 4701.26 (FE III) ABM 0. 09 X 0. IPX 4481.29 MG II 1 ABW 0. 10X 0.14X 1 1 KACE 0.05 0.05 0.06 0.06 1 1 KACE 0. 01 0.01 0.02 0.02 4711.42 (AR IV ) 1 ABM 2.80X 3. 17X 4491.16 Q LI_ 1 1 K AC F Q.Q1 X Q^Ql. 0.01 J 1 KACE 1.76 1.76 1-99 4491 0 ABW 0.09 0.12X 2 PE KACE 13.50 15.27 4510.94 III 2 l KACE 0.05 0.07 3 A41 10.20 11.54 4510.94 III 2 1 KACE 0.05 0.07 LA . . 13»,3Q,. 15.04 4510.94 (K IV ) 1 ABW 0.50X 0. 67 X 0 7.40 8.37 2 1 KACE 0.05 0.07 A41 10.20 11.54 4514.58 N LLL 1 ABW 0- 11X Q.15X -LA 13.30 ■ 15.Q4 1 KACE 0.02 0.02 0.02 2 0 7. 40 8.37 ABW 0.09 X 0. 12 X 4713.20 HE I l ABM 0.0 X 0.48 0.0 X 0.54 1 KACE 0.01 0.02 O.n? _J 1 KACE 0.48 0.48 0.54 Q.54 4518.02 N III ABW 0.09X 0. 12 X 4715.74 (NE TV ) l ABM 0.80X 0.90X KACE 0. 01 0.02 l 1 KACE 0.69 0.69 0.78 0.78 4523.57 N III Aß M— 0.07 X 0.09 X 4715.74 (NE IV ) 1 1 KACE ABM ■Q-. ¿2 0.22 .0.25 0.25 l l KACE 0. 01 0.01 4725.67 (NE IV ) 1 1.30X 1.45 X 4534.53 N III l ABW 0.07X 0. 09X 1 KACE 0. 97 1.08 .1 1 KAC 4725.67 (NF IV 1 1 -L KA.CE 0.78 0.87 4541.43 HP II ABW 2. 50X 3. 2ÓX 4733.68 (FE III) ABM 0.0 0.0 0.0 X 0.0 1 KACE 1.28 1.84 1.67 2.40 4740.03 (AR IV ) ABM 0.0 7.56 0.0 X 8.34 A 41 1. 70 1.84 Z.22 2.40 ■ l- KACE -8.34 3.10 1.84 4.04 2.40 PE KACE 13. 50 14.90 1.30 1.84 1.69 2.40 A4 1 10.20 11.25 Q.Q3X Q.Q4X LA 13.30 -44.6B 1 1 KACE 0.01 0.01 0 8. 70 9.60 4552.OC SI III 1 ABW 0. 40X 0. 52X 4754.90 (FE III) ABM 0.40 X 0.44X -4562 (MG I L 1 ABW 1 KAC.F 1 l KACE 0. 04 0.05 0.05 4859.32 HE II 1 ABM 0.0 X 1.80 0.0 X 1.80 4570.92 MG I 1 ABW 1.90 X 2.41X 1 l KAC P 1.80 1.80 1.80 1.80 —1 1 KA-C-E— _4861..3Q H J _JL ABM 1QQ.QQX 100.QOX A41 0.60 0.76 1 1 KACE 98.20 99.91 98.20 99.91 4590.80 O II ABW 0. 09 X 0. 11X 1 PE KACE 100.00 99.91 100.00 99.91 1 KACE _1 A44 99.91 99.91 4596.08 0 II ABW 0.06 X 0. 07 X AN 100.OOX 100.OOX l KACE 0.02 0.02 0.03 0.03 CPDA 100.00 99.91 100.00 99.91 4603.80 N— /LEW 0. 05 X 0. 06X _Q£ 1QQ.QQ 99.91 100.00 _aa.9i. l KACE 0.02 0.02 0.02 0.02 KOS 100.OOX 100.OOX 4606.55 (FE III) ABW 0.35 X 0. 43 X LA 100.00 99.91 100.00 99.91 1 KACE 0. 09 0.09 0. 11 0.11 L A 54 100.00 99.91 100.00 99.91 4619.87 N V ABW 0.12X O. 15X MI 7 1 100.00 99.91 100.00 99.91 1 KACE 0. 02 0.02 0.03 0.03 MI 7 3 100.00 99.91 100.00 99.91 4625.43 IAP V L ABM Q.4QX Q.49X 100.00 99.91 1QQ.QQ 99-91 1 KACF 0.06 0.06 0.07 0.07 B MM 100.00 99.91 100.00 99.91 4632 ABW 0.43X 0. 52 X 1 MM 100.00 99.91 100.00 99.91 1 KAC.F 0. 18 0.22 -2.-M 100.00 99.91 100» 00 99.91 4634.11 1 ABW 2. 50X 3. 01X 100.00 99.91 100.00 99.91 1 1 KACE 1.16 1.40 MS 100.00 99.91 100.00 99.91 _4 ÔA1 5.80 6.99 _Û— 100.00 . 9-9 «.91 100.00 -39*.91 LA 9.20 11.09 OCB 100.00 99.91 100.00 99.91 4640.69 N III ABW 3.60X 4.31X PTP 100.00 99.91 100.00 99.91 1 KACE . 2.35 2.35 2.82 2.82 _BZ - IQQj QQ -19^91 100.00 ,99.91 4 A41 5. 80 6.95 1 100.OOX 100.OOX 4642.01 N III 1 ABW 0.60X 0. 72X 4893.42 (FE VII) 1 ABM 0.06X 0.06X 1 1 KACF 0.35 J L&a.çe 0.12 -fl. 12 0.12 -0.12 4647.34 C III ABW 1.20X 1.43X 4921.96 HF I ABM 3. 10X 2.97X l 1 KACE 0.37 0.44 KACE 0. 89 0.85 _ 4649^1 0 II . _ 1 ABW Q.41X 0 « 49 X 4930.97 (0 ITT) 0.05X Q.Q5X 1 1 KACE 0. 14 0. 14 0.17 0.17 l l KACE 0.33 0.33 0.31 0.31 4650.35 C III l ABW 0.50 X 0. 59 X 4944.10 (FE VII ) l ABM 0.0 X 0.0 0.0 0.0 J. 1 KACE... 0« 20 -0.i2.fl- ■Q. 24 0.24 _Q 1 KACE Q.O 0.0 Q.O 5.80 6.90 4950 ABM 0.0 X 0.0 0.0 X 0.0 9. 20 10.94 1 KACE 0.0 0.0 0.0 0.0 4651.54 C. Ill 1 0« 20 X —0..24X- 4958.95 (0 III) 1 ABM 514.OOX 48Q.84X 1 KACE 0. 06 0.06 0.07 0.07 l l KACE 512.00 511.60 478.97 478.59 4654.4C N I I 1 KACE 0. 04 0.04 0.05 0.05 1 PE KACE 510.00 511.60 477. 10 478.59 4657.69 (fe mi J ABW. - 1.6QX 1.89X _1 A41 49Q.QQ 511.60 -458.39 .478.59 1 1 KACE 0.27 0. 32 365.OOX 341.45X 1 ABW 1.60X 1.89 X CPDA 489.80 511.60 458.20 478.5* _1 1 KACE Q. 42 0.42 Q.5Q —Q..5.Q.. -LA -JLQ6. QQ 511.60 473. ..47Bt59 4 A41 5. 80 6.85 675.00 511.60 631.45 478.59 I ABW 0.13X O. 15X 502.00 511.60 469.61 478.59 _1 1 KA.CE ..Q.t 05 . . . 0.05.. . 0.06 0.06 L. Mil... 51Q.QQ 511.60 477.10 478.59 l ABW 0.06X 0.07X 1 2 MM 512.00 511.60 478.97 478.59 l 1 KACE 0. 02 0.02 1 3 MM 573. 00 511.60 536.03 478.59 -4.665.61 C LUL _1 ABW 0. 13 X Q. 15X 1 MS 520.00 511.60 486.45 478.59 1 KACE 0.05 0.06 0 513.00 511.60 479.91 478.59 4665.61 C IV 2 I KACE 0.05 0.06 R2 338.00 511.60 316.19 478.59 4669.20 IP LL_ _L 1 KACE- _Q._Q3_ 0.03- Q.Q3 ..Q.Q3 VV 2 2893,OOX 2706.37X 4669 ABW 0.22 X 0. 26X 4972.12 (FE VI ) l ABM 0.0 X 0. 17 0.0 X 0.16 4673.46 ABW 0.09X 0. 11X 1 1 KACE 0.17 0.17 0. 16 0.16 1 KAC.F 0- OB 5006.88 (0 III) 1 ABM 1545.OOX 1397.89X 4676.06 0 II l ABW 0. 18 X 0. 21 X 1 1 KACE 1553.00 1453.15 1405.13 1314.79 l I KACE 0.04 0.05 l PE KACE 1500.00 1453. 15 1357. 17 1314.79 NGC 7027 (PK NO. 84 -3 1) NGC 702 7 (PK NO. 588 © American Astronomical Society • Provided by the NASA Astrophysics Data System 7 6Ap JS ... .31. . 517K TABLE 8—Continued NGC 702 7 (PK NQ. 84 ~3. ll_ NGC 70? 7 (PK Nfl. WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE N RG REF OSS I AVE 0 CORR I AVE C 5006.88 (0 I II ) I A41 1390 .00 14 53 f 15.,.. 1248.60 l314*79 5726 0 ABM 0.0 X 0.0 0.0 X 0.0 AN 789.OOX 713.87X 2 l KACE 0.56 0.31 BE 1000.00* 904.78* 5754.59 (N II ) 1 ABM 12.OOX 6. 54X ÇPP-A. 1230.00 1453,15. 1112.88 1314.79 J \ K.AÇE IQtOO 11.03 5.45 1 LA 1590.00 1453. 15 1438.60 1314.79 1 PE KACE 11.20 11.03 6. 10 6.01 1 LA54 1345.00 1453.15 1216.93 1314.79 1 A41 10.00 11.03 5.45 6.01 1 A MM 1567.00 1453.15 1417,79 1314.79 _1 1 mm 9.02 11.03 frtQl 1 1 MM 1580. 00 1453. 15 1429. 56 1314.79 1 2 IO. 30 11.03 5. 61 6.01 1 2 MM 1582.00 1453.15 1431. 36 1314.79 1 3 12.90 11.03 7. 03 6.01 1 3 MM 1564.00 1453.15 1415. 08 1314.79 _1 CL- 13.90 11.03 7.52 6.01 MS 1480.00 1453. 15 1339. 08 1314.79 1 PTP 7. 95 4.33 A PTP 1510.00 1453.15 1366. 22 1314.79 5776.37 (MN VI ) l ABM 0.0 0.0 0.0 X 0.0 1010. 00 1453. 15 913. 83 1314.79 _0 LJLA.Qf. o.o 0.0 0.0 VV 2 2893.OOX 2617. 53X ABM 0.0 0.0 0.0 X 0,0 5015.55 HE I ABM 0.0 X 1.06 0. 0 X 0.95 1 KACE 0.0 0.0 0.0 0.0 1 KACE 1.06 K06. 0.95 5790 HF II _J. ARM 0.0 o.o o.o x 0.0 BE 0.25* 22* 0 1 KACE 0.0 0.0 0.0 0.0 5041.31 SI II ABM 1.60X 41 X 1 ABM 0.0 0.0 0.0 0.0 KAC.E, 0.28 _Q 1 KACE .Q.tJL- 0.0 o.o 0.0 5047.92 HE II 1 ABM 1.40 X 23 X 5801. IV 1 AB« 2.20X l. 17X l l KACE 0.25 22 l 1 KACE 0. 75 0. 75 0.40 0.40 5056.45 SI I I 1 ABM 1.50X 31 X 5806 II 1 ABM 0.0 X 0.0 0.0 X 0.0 1 1 KACE 0.08 .07 0.07 0 1 KACE 0. 0 0.0 0 ABM 0. 50 X • 42 X 1 ABM 1. 10X 0.58 X 1 KACE Q. 16 0.16 0. 14 _J 1 KACE 0.41 fl. 7? 5112.00 l KACE 0.03 03 0.03 5820 1 ABM 0.0 0.0 0.0 X 0.0 5112.00 ABM 0. 50X 42 X 0 1 KACE 0.0 0.0 0.0 0.0 _5-LLZ 1 KACE .08 JQZ 0.07 5828 _L ABM .Jk-O-X. 0.0 o.o X 0.0 0 ABM 0.60X l 1 KACE 0.02 0.01 A 0 1 KACE 0.23 l ABM 0.30X 0. 16 X 5145.78 (FE VI > J âfiM 0.90X 73 X _J 1 KACE Q. 02 -Q..Q2 . Q...Q1 Q.Q1 l l KACE 0.36 0.36 29 0.29 1 ABM 0.0 0.04 0.0 0.02 5151.00 (FE III) l 1 KACE 0. 05 0.05 04 0.04 l 1 KACE 0.04 0.04 0.02 0.02 5158.94 (FE VII) _1 ARM 0. 60X 48X _J ARM 0.0 X 0.0 0.0 X 0.0 2 l KACE 0.25 l KACE 0.0 0.0 0.0 0.0 0 ABM 0.60X . 48X 5862.34 (MN V ) l ABM 0.0 0.0 0.0 0.0 _2 1 KAf.E- 0.-2-5 *-20 1 KACE Q.Q 0.0 Q.Q 5176.42 l ABM 0.90X 72X 5864. 81 (MN V ) 1 ABM 0.0 0.0 0.0 0.0 l 1 KACE 0.29 23 5867 2 ABM 0.0 0.0 0.0 0.0 -5JL9Í.81 ( AR III) J. A_B_M Q. 9QX 71X ü 1 KACE 0.0 0.0 0. 0 0.0 l 1 KACE 0.28 0.28 .22 0.22 5867. 82 SI ABM 0.0 X 0.0 X 5197.95 (N I ) l ABM 1 ■ 20 X . 94X 5875. 63 HP AßM 24.OOX 12.20 X J 1 KACE- 0.-43 Q..52- ^34 0.40 1 KACE 22.40 11.38 1 PE KACE 0.0 0.52 0.40 1 PE KACE 20.90 21.22 10.62 10.79 1 PTP 1. 12 0.52 0.40 l A41 24. 00 21.22 12.20 10.79 5200.41 IN I L J ABM , 0. 30X —1 1 - M_M IQ..-50 . 21.2 2 9. 91 10.79 1 KACE 0. 11 .09 20. 80 21.22 10. 57 10.79 0 ABM 0. 50X . 39X 20.80 21.22 10.57 10.79 __Q l. KAlC-E— 0- 16 -_L2 2-U 2 2 10.79 ABM 0.40X 31X 20.00 10. 16 KACE 0. 13 0. 13 10 0.10 34.20 X 17.38 X ..ARM 0.0 -0.0 0 l KACE 0.0 .0 1 KACE 0.0 0.0 0.0 0.0 5270.28 (FE III) 1 ABM 0.30X • 22 X 5885 ABM 0. 0 0.0 0.0 0.0 -1 1 KACC- 0.23 ■ ■ 0.17■ 1 -KACE.- 0.0 ...-CUO.. 0.0 0.0 5277.76 (FE VII ) ABM 0. 30X 22X 5890. 98 (MN V ) ABM 0.0 X 0. 0 0. 0 X 0.0 1 KACE 0.10 0. 10 07 0.07 l KACE 0.0 0.0 0.0 0.0 5309.17 ( CA V ) ABM 1.70X 23X 5894. 01 («N VI ) ARM 0.0 X 0.0 0.0 X 0.0 1 KACE 0.47 0.47 34 0.34 1 KACE 0.0 0. 0 0.0 0.0 5323.26 (CL IV ) ABM l.OOX 72 X 5896 HE II ABM 0. 0 X 0.07 0.0 X 0.04 1 MCE .15 Q. 15 LL. Q.ll 1 KACE Q.Q7 0.07 0.04 0.04 5335.22 (FE VI ) l ABM 1.20 X 86X 5913 HE I I I ABM 0.0 X 0.11 0.0 X 0.05 1 1 KACE 0. 16 11 0.11 l 1 KACE 0. 11 0. 11 0.05 0.05 5345 0 ABM 1.20 X 85 X ,5932 HE U.. _L ABM ..D.^ñQJL. . a^.19 x 1 KACE 0. 13 09 0.09 1 KACE 0. 13 0.13 0.06 0.06 5411.54 HE II ABM 9.OOX 10X 5945 1 KACE 0.04 0.04 0.02 0.02 1 1 KACE 6^20 4t 55 ZQ 3.08 5953„ . iL.aa-X-. —Q. 44 X. 1 PE KACE 6. 50 4.55 ,41 3.08 1 KACE 0. 13 0. 1 3 0. 06 0.06 l A41 4.00 4.55 71 3.08 ABM 0.70 X 0. 33X ] Q_ l«-5j3— 4.55 -Ü2— 3.Q8 1 KACE Of 17 0.17 0.08 0.08 1 VV 2 23. 70 XA . 06 X A 6004 HF I I ARM 1.20 X 0.57X 5423.87 (FE VI ) 1 ABM 0.40X . 27X 1 KACE 0. 16 0. 08 _L 1 KACE 0.t.l.5_ 0.15 . 10 6037 ,16 HE H ABM 1. IPX 0. 51 X 5426.57 ABM 0.20X . 13X 1 KACE 0.18 0.1 b 0.08 0.08 l KACE 0. 18 . 12 6074.30 HE n ABM 1. 10X 0.50 X 547 C ABM 0.40X . 26X 1 1 KACE 0.25 -CU25. . XU-LL- 0 1 KACE 0.13 0.13 08 0.08 6086.88 (CA V ) ABM 2. 50X 1. 13 X 5484.79 (FE VI ) 1 ABM 0. 50X 32 X 2 1 KACE 1.15 0. 52 1 1 KACE 0.18 0.18 12 0.12 2 PE KACE 2.70 1.22 5517.72 (CL III) l ABM l.OOX , 63 X 6086. 88 (EE vil) ABM 2.50 X 1. 13X 1 1 KACE 0.25 , 16 6101. 76 (K IV ) ABM 2.50X 1. 12 X 2 PE KACE 2.70 1 KACE 1.03 0.46 5537.80 (CL III) 1 ABM 2. 70X • 68X ? PE KACE 2.70 1.21 1 l KACE 1.01 .63 6118.31 HE II l ABM l. 10X O. 49X 2 PE KACE 2.70 1 1 KACE 0.28 0.28 0. 12 0.12 5554 (N II ) 1 23.70X 59 X 6151 0 ABM 0.0 0.07 0.0 0.03 5577.36 (0 1 ) l ABM 1. 50X 91 X 0 1 KACE 0.07 0.07 0.03 0.03 I L-ljA.Cf.. Jk-32- 0.32 12 0.19- 6133 (FE III ) 1 1 KACE 0. 18 0.18 0. 08 0.08 5592.17 0 III 1 ABM 1.10-X . 66 X 6166. 22 (MN V ) ABM 0.30 X 0. 13 X L 1 KACE 0.20 . 12 KACE 0. 34 0. 15 5604.00 (K VI ) 1 AßM, QtfrOX . 36X 6170. 73 HE I I ABM 1. IPX 0. 47X 1 1 KACE 0.06 A 2 1 KACE 0.34 0. 15 5614.65 (CA VII) 1 ABM 0.0 X 0.0 0.0 6218.64 (MN V ) 1 ABM 0.0 X 0.03 0.0 X 0.01 _Q 1 KACE 0.0 Q.Q Q.Q 1 1 KACE 0.03 0.03 Q.Q1 -Q.Ql 5630.88 (FE VI ) 1 A8M 0. 70 X 6221.04 (MN V ) 48M 0.0 0.0 0. 0 0.0 1 1 KACE 0. 15 KACE 0.0 0.0 0.0 0.0 5677.Ql (FE VI 1 1 AB.M 1.1QX -ÛIX— 6228.41 (K VI ) ABM Q-^Q 0.0 0.0 X 0.0 1 1 KACE 0.28 0.28 0.16 1 KACE 0.44 0. 18 5696.06 C III 1 ABM 0.0 0.0 0.0 6233.80 HE II ABM 0. 90 X 0. 37X —Q 1 KA-C-E 0.0 _JLuQ 0.0 1 KACE n. 44 •_LS— 5721.13 (FE VII ) 1 ABM 1.20X 67 X 6300.31 (01)1 ABM 28.OOX 11. 18X 2 1 KACE 0.56 31 1 KACE 28.50 11.38 NGC 7027 (PK NO. NGC 7027 (PK NO. 84 -3 1) 589 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued NGC 7027 (PK NO, 84-3 It NGC 7293 (PK NO. 36-57 1) WAVE IDENT N RG REF OBS I AVE O CORR I AVE C WAVE IDENT N PG REF OBS I AVE 0 CORR I 10123 HE II 1 SP 98.00 98.00 11.85 11.85 3729 10 I I I 1 L OS 1.30» -1.3Q-* ) 1 KN 22.80* 2.68* 1 M 1.31* 1.31* 1 SP 12.60 A 1.48 A l N I. 1.30* ) 1 KN 24.90» 2.91» _J Q_ J. . 1.37* l 0 35.00 4.09 1 P 1.32* 1.32* 10330 (S II ) 1 SP 28.80 A 3.36 A 1 Cl 8.00* 8.00* . 10370 IQ-333 - (S < S 11 K-N ¿.34* 1 C2 1Q.QQ* IQ.QQ* II )) 1 KN ¿■11.50* Q.IQ»— 1.33* l C3 8.00* 8.00* 10373 (S II ) 1 SP 5.50 A 0.64 A l C4 9.00* 9.00* 10400 (N I ) 1 KN 13.60* 1.57» L-CJ> LQi QQ* 1Q.QQ* SP 8.70 A 1.00 A l C6 13.00* 13.00* DG 1180.00 74^.00 126.21 1 B1 11.00* 11.00* LAR 13.70* 1.47» 1 B2 13.00* 13.00* 0 950.00 749.00 101.61 80.11 16.00* 16.00* SP 117.00 749.00 12.51 80.11 11.00* 11.00* 10938 LAR 1.34* 0. 14* 11.00* 11.00* 1 0 97.00 97.00 10. 18 10. 18 1 B6 14.00* 14.00* l SP 85.00 A 8.92 A (NE III) l 84.00 84.00 9 MU (AR III) 1 GBR 160.00 160.00 6. 83 6.83 1 Cl 89.00» 89.00* 10 MU (S IV ) 1 1076.00 1 076.00 45.90 45.90 1 C2 110.00* 110.00* 10 MU (S IV ) l GMS 546.00 553.50 23.29 23.61 1 C3 94.00* 94.00* L_ HGR 561.00 553.50 --L_CA 1QQ.0Q* 100.00* C5 130.00* 130.00* REGION KEY (REG ION,REFERENCE,EX PLANATION) 1 C6 82.00* 82.00* 1. KACF. BRIGHT REGION 1 B1 74.00* 74.00* PE. KACE. PHOTOELECTRIC OBSERVATIONS 1 B2 73.00* 73.00* A, MM , EAST-WEST SLIT OF WIDTH 7.8 ARCSEC l B3 75.00* 75.00* . —B-i . ENTIRE NEBULA 1 B4 84.00* 84.00* 1. MM , N-S SLIT 1.2 ARCSEC WIDTH THROUGH BRIGHT KNOT 1 B5 61.00* 61.00* 2. MM , N-S SLIT 1.2 ARCSEC WIDTH, 3.0 ARCSEC EAST OF RG 1 l B6 65.00* 65.00* 3. MM , M-S SLIT 1.2 ARCSEC WIDTH. 8.4 ARCSEC EAST OF RG 1 _Ji9£2_ I NE I I T) 1 Cl 19.QQ* 19.QQ* l C2 16.00* 16.00* NGC 7027 (PK NO. 84-3 1) 1 C5 17.00* 17.00* l.Cfr -33j-Q0* 33.00* l B1 22.00* 22.00* 1 B2 20.00* 20.00* BEGIN -NGC 7048 ( PK NO. 88 -1 LI C-= -L»Q?_ CR ADID-H—BFT-A) 1 B3 21.00* 21.00» 1 B4 21.00* 21.00* WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 1 B5 18.00* 18.00* 46B6 HE II _J QRF 46^QQ_ 4.6. QQ. 51.20 51.20 1 R6 1 19.00» 19.00» 4861 I 1 0063 100.00 100.00 100.00 100.00 2 31.00 31.00 1 ORF 100.00 100.00 100.00 100.00 l Cl 35.00* 35.00* 4959 (□ III) 1 QRF 393.00 _ 3 93-. Q Q 373.95 3J3.95 l C2 35.00* 35.00* (0 I II ) 1 0063 955.00 1032.50 886.38 958.31 1 C3 1 33.00* 33.00* 1 ORF 1110.00 1032.50 1030.24 958.31 1 C4 36.00* 36.00* _I 1 ORF 507.00- 502.00. 232.97 2-3-2.97 1 C5 37.00* 37.QQ* 6583 (N II ) l ORF 637.00 637.00’ 290. 52 1 C6 ! 26.00* 26.00* I PI I1 34.00* 34.00* END NG.C .7048 LPK_NQ. 88 -1 U 1 B2 32.00* 32.00* 33.00* 33.00* 35.00* 35.00* 26.on* 26.00.» BEGIN NGC 7094 (PK NO. 66-28 1) = 0.20 (HYDROGEN LINES) 1 B6 24.00* 24.00* 3970 (NE III) 2 31.00 31.00 ...WAYf mmi N.FS RE.F OB_S. I . AVE 0 CORR I AVE C 4101 tí I 1 2 L.QQ - 21.00 4686 II CLZ2 100.00 00.00 102.12 102.12 1 Cl ! 25.00* 25.00* 4861 I CLZ2 100.00 100.00 100.00 100.00 1 C2 25.00* 25.00* 4991 III) CLZ 2 1000.00 1000.00 987.16 987.16 1 C3 i 25. 00* 25.00* 6563 I CLZ 2 330.00 330.00 283.33 283.33 1 C4 ! 25.00* 25.00* I C5 25.00* 25.00* END NGC 7094 (PK NO. 66-28 1) 1 C6 ’ 25.00» 25.00* l Bl 25.00* 25.00* 1 R2 25.00* 25.00* 1 B3 25.00* 25.00» BEGIN NGC 7139 (PK NO. 104+ 71) C = 0.54 (HYDROGEN LINES) 1 B4 25.00* 25.00* l B5 I 25.00* 25.00* WAVE I D ENT N RG REF oas. I . AVE Q CQRR I- 1 B6 1 25.00* 25.00* 3727 (0 II ) l 280.00 405.80 4340 41.00 42.90 41.00 42.90 3 869 (NE III) l 55.00 75.74 44.80 42.90 44.80 42.90 3970 H ! 2 30.00 39.96 4861 . IQQj QQ - 1 CQjQQ - 1QQ.QQ _LQQjiQQ— 3970 (NF III) 30.00 39.96 1 MI 73 100.CO ICO.00 100.00 ICO.00 4101 H I l 20.00 20.00 25.48 25.48 1 XI WR 100.00 100.00 100.00 ICO.00 4340 H I 1 40.00 40.00 47.19 47.19 1 X2 MR 1QQ.QQ . 1QQ.0Q - 1QQ.QQ -1QQ.QQ- 4686 HE I I 1 M 18.00 18.00 19.05 19.05 1 X 3 100.00 100.00 100.00 100.00 4861 H I 1 M 100.00 100.00 100.00 100.00 1 X4 100.00 100.00 100.00 100.00 1 0D63 100,00 100.00 100.00 100.00 1 X5 100.00 100.00 100.00 100.00 4959 (0 I II ) 1 320.00 320.00 311.69 311.69 l X6 100.00 100.00 100.00 100.00 5 007 (0 I II ) 1 910.00 800.90 874.77 769.90 1 Yi 100.00 100.00 100.00 100.00 691.80 800.90 665.02 769.90 1 -Y-2 MR_ —IQQj-QQ . 1CQ.QQ - 100.QQ. 100.QQ l Y3 100.00 100.00 100.00 100.00 NGC 7139 (PK NO. 104+ 7 1) 1 Y4 100. 00 1 CO.00 100.00 100.00 100.00 1 QO.-QQ - lOfl.OO- . 10-0.00- WR 100.00 ICO.00 100.00 100.00 4959 (D I II ) l M 210.00 210.00 210.00 210.00 BEGIN NGC 7293 (PK NO. 36-57 1) 0.0 (RADI 0—H BETA) 5007 (0 I I I ) 1 600.00 1011.54 600.00 1011.54 l XI 1700.00 1011.54 1700.00 1011.54 WAVE IDENT N RG REF DBS I AVE O CORR I AVE C l X2 1300.00 1011.54 1300.00 1011.54 3726 (O II ) 1 M 310.00 ?l.ia... 6. 02 5^44 . 3530.50 HF I 1 AKB 0.08 0.08 0.09 0.09 l 4 MA 6.00 4.79 6.82 5.44 3554.40 HF I 1 AKB 0. 13 0.13 0. 15 0.15 1 5 MA 4.50 4.79 5.11 5.44 -3.5-6 9_ _Q AKB . 0.15 0.15.. Q. 17 Q. 17 1 60 MA -2*60 4.09 .5*44.- 3587.30 AKB .28 0.28 0.32 0.32 3754.69 0 III 1 AKB 1.57 1.73 1.78 1.97 3606 AKB 0. 14 0. 14 0. 16 0.16 l 60 MA 1.90 1.73 2.16 1.97 -26.13 t 60 HE I AKB- 0» 26 0.26 0.30 0.30 ? TAM 6.70 7.6L 3634.20 HE I 2 AKB 0.37 0.43 3757.29 0 III AKB 0.68 2.59 0.77 2.94 3661.20 I l AKB 0.27 0.27 0.31 0.31 C MA 2.20 2.59 2.50 2.94 3.662*30 _L AKB 0.31 . 0.31 0.36.. ..0*36 3 MA 3. 50 2.59 3.97 2.94 3663.40 H I AKB 0. 39 0.39 0.45 0.45 0 3.98 2.59 4.52 2.94 3664.70 H I AKB 0.37 0.37 .42 0.42 3759.87 O III AKB 5.60 5.75 6.36 6.53 3666.10 _ü L_ AKB . Q.t_3_B_ 0.38 Q.44-- 0.49 *4-4 5. 80 5.75 6.58 _ 6_. 53, 3667.70 1 AKB 0.43 0.43 0.49 1 2 MA 3.60 5.75 4.09 6.53 3669.50 l AKB 0.39 0.39 0.45 0.45 l 3 MA 9.30 5.75 10.55 6.53 3671.50 1 AKB 0.49- 0.49 O. S6 0- Sh 1 5 MA 5.30 5.75 6*01 6*?3 3673.80 AKB 0.53 0.53 0.61 0.61 1 60 MA 4.90 5.56 3676.40 AKB 0.67 0.67 0.77 0.77 2 TAM 6. 70 7.60 3679.40 AKB 0.72 _£*- 0.82 -Q-.82 3761 _Q AKB 0.04 0.04 0*05 0*05 l AKB 0.86 0.79 0.98 0.91 3 769 HE II 1 AKB 0.23 0.23 0.26 0.26 1 C MA 0.73 0.79 0.84 0.91 3770.61 H I 1 AKB .40 5.00 4.99 5.67 3.6-6.6*80 ti I_ _1 AKB_ 0.94 0.92 1.08 1.05 _1 C ma . 4 *..6,0 5.00 5.-21- -5-.-6 7 l C MA 0.90 0.92 1.03 1.05 5.00 5.00 5.67 5.67 3690.00 HE II 1 AKB 0. 14 0. 14 0. 16 0.16 6.00 5.00 6.80 5.67 3691.60 jy i _J AKB 1.28 1.28 .46 -1*47. 5_._10. 5.00 5.78 . 5*67 1 C MA 1.30 1.28 1.49 1.47 1 5 MA 4.90 5.00 5.55 5.67 1 2 ma l. 70 1.28 1.95 1.47 1 60 MA 5.00 5.00 5.67 5.67 _J M1.7-L. 0.86- 1.28 0.98 .47 3773.90 Q LU. _1 AKB 0*34 -0*3.4. 0*39 0.39 3695 l AKB 0.21 0.21 0. 0.24 3776.93 NE II AKB 0.07 0.07 2 0.08 0.08 3697.20 1 AKB 1.49 1.47 1. 70 1.68 3779 AKB 0.05 0.05 0.06 0.06 -.1 C MA. *50 1.47 1*72 1.68 3781*70 HE II AKB .-0*24., 0.24 0*27 0.27 2 MA 1.90 1.47 2. 17 1.68 3783.77 (FE V AKB 0. 0.08 0.09 0.09 1 M I 71 1.00 1.47 1.14 1.68 3784.94 HE I AKB 0.05 0.05 0.06 0.06 3698.70 HE II 1 AKB 0.21 0.2-1- _flL*-24_ -0.24 3791.78 O III AKB 0.51 0.65 0.58 0.74 3702 HE II AKB 0.0 0.0 0.0 0.0 0.80 0.65 0.90 0.74 3703.90 I AKB 1.72 1.60 1.97 1.83 3796.38 HE II AKB 0.23 0.23 0.26 0.26 _2 C MA 2.30 2.63 3-197.91 H I AKB 6.70 . 5.64 7.57 6.37 2 2 MA 3.30 3.77 1 LA 7.10 5.64 8.02 6.37 2 3 MA 3.30 3.77 1 C MA 5.70 5.64 6.44 6.37 _1 MI71 1.48 1*6-0 1-69 1.83 _1 2 MA 6.1Q 5.64 6.89 6.37 3705.00 HE I AKB 0.38 0.43 3 MA 7.80 5.64 8.81 6.37 C MA 2.30 2.63 4 MA .10 5.64 6.89 6.37 NGC 7662 (PK NO. 106-17 11 NGC 7662 (PK NO. 106-17 1) 593 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued NGC 7662 (PK ND. 106-17 1) NGC 7662 (PK NO« 106-17 1) WAVE IDENT N RG REF OBS I AVE 0 AVE C WAVE IDENT N RG REF OBS I CORR I 3797.91 ti I 1 5 MA í*. éu. 3970 (NE III) 2 0 31.60 34.95 1 60 MA .80 5.64 7.68 6.37 3970.09 H I AKB 14.60 14.60 16. 15 10.15 1 0 2.40 5.64 2.71 6.37 3997.44 (F IV ) AKR 0.04 0.04 0.04 0.04 1 TAM 40 5.64 .37 4003.54 N III AKB a_Q3 . 0.03 -Q.-Q3 0.03 3806.21 HE I AKB 0.07 0.07 0.08 0.08 4008.10 (FE III) AKB 0.03 0.03 0.03 0.03 3810.80 0 III AKB 0.05 0. 05 0.06 0.06 4009.27 HF I AKB 0. 12 0.12 0. 13 0.13 3B13.43 HF TT AKB . 0.46- 0.46 D. 52 0.52 4026.04 HE AKB . 2.37 - 2.87 2.60 3.16 3819.65 HE I AKB 0.74 1.57 0.83 1.77 l C 2.80 2.87 3.08 3.16 C MA 1.60 1.57 1.80 1.77 l 2 MA 4.40 2.SI 4. 84 3.16 _J 2 MA .57 .77 _1 3 MA_ 2j-90. . -2tftl_ 3.19 3.16 1 3 2.10 1.57 2.37 1.77 2.70 2.87 2.97 3.16 1 60 MA 1.10 1.57 1.24 1.77 2. 14 2.87 2.35 3.16 3933.74 HE I _2 AKB- 0.59 0.66 TAM 2.90 2.97 3.08 3.16 3833.74 HE 11 AKB 0.59 0.66 4041.50 O II AKB 0.03 0.03 0.03 0.03 3835.40 I AKB 8.00 7.55 8.99 .48 4047.80 O II AKP 0.03 0.03 0.03 0.03 7.80 7.55 8.77 .48 —4057 AKB 0^03 - Q.Q3 Q.Q3 -Q.Q3.- 1 C MA 7.70 7.55 8.66 4058 AKB 0.03 0.03 0.03 0.03 1 2 MA 8.30 7.55 9.33 4060.18 (FE IV ) AKR 0. 13 0. 13 0. 14 0.14 _J 3—flA-. 1Q..-3ÍL 7.55 11-58 4068.48 (S II ) AKB —QjuZB— , Oj 7 8 - Q...85 .85 l 4 7.00 7.55 7.87 8.48 4069.90 O II AKR 0.0 0.0 0.0 0.0 1 5 MA 7.90 7.55 8.48 4069.90 O II AKB 0.0 0.0 0.0 0.0 1 60 MA -70 -i5_ 8.4B 4Q7Q.26. C LU— AKB.. .0^-82- . Q. 82 Q. 90 _Q.9Q- 4. 36 7.55 4.90 8.48 (S II) 1 C MA 1.80 2.00 1.97 2.19 TAM 4.40 7.55 4.95 3.48 l 2 MA 2.10 2.00 2.29 2.19 3839.8Q IfE V L _AKB_ 0. 05 0.05 Q.Q6 Q .06 J 3 MA- 2.50 .2.00- 2.73 -2.19 3858.12 HE II 0. 58 0.60 0.65 .67 60 MA 1.60 1.75 0.62 0.60 0.69 0.67 PT P 0.51 0.56 3862-47 SI TI AKB 0.06 0.06 . Q. 0.7— 0-07 4072-08 O I AKB- Q. 19 0.21 3868.70 (NE III) 1 AKB 66.30 74.21 4076.10 (S AKB 0.21 0.23 3 A4l 114.00 127.60 4078.67 O I AKB 0.03 0.03 1 IA 66.30 74.21 4081.60 Q L AKR 0.03 0-03 1 C 89.00 73.17 99.62 81.90 4084.71 0 I AKB 0.05 0.05 0.05 0.05 1 2 83.00 73.1 7 92.90 81.90 4087.15 O I AKB 0.04 0. 04 0.04 0.04 _1_ 86.OU 73. 1 7— ■96.26 81.90 . 4089.23 0 L AKB . Q-^l 1 -0.11. 0.12 -0.12 . 1 4 MA 56.00 73.17 62.68 81.90 4092.80 O I AKB 0.03 0. 03 0.03 0.03 1 5 MA 83.00 73.17 92.90 81.90 4097.39 AKB 2.75 2.75 3.00 3.00 1 60—MA. - 87.00 —97.-3B— A41 26.30 28.65 0 63.10 73.17 70.63 81.90 4100.10 HF II AKR 0.0 0.0 0.0 0.0 TAM 52.00 73.17 58.20 81.90 4101.73 H I AKB 20.00 23.68 21.78 25.78 -VV 1- 150.OOX 167.89 X A 4-1 — 3875.50 0 AKB 0.06 0.07 1 LA 2 3. 50 23.68 25.59 25.78 3887.00 HE AKB 14. 10 15.74 1 C MA 23. 20 23.68 25.26 25.78 3888.79 HE_ -AKB - 14.lü 15.76 _1 2 MA 24^4Q_ 23.68 ¿6.57 -25.78 2 60 MA 19.60 21.88 27.30 23.68 29.73 25.78 3889.00 H I 3 AKB 14. 10 15.74 19.00 23.68 20.69 25.78 —3 661— 114.00 127.25 - _J 5 MA... 23.BQ 23.68 25.92 25.78 13.90 15.52 1 60 MA 28. 00 2 3.68 30.49 25.78 17.00 18.98 1 MI 7 l 22.20 23.68 24. 17 25.78 ia^-90 21.10- _1 MI .7-3- ¿4^-70 - 23.68 26-9Q ¿5,78 2 3 MA 17.30 19.31 G 22.40 23.68 24. 39 25.78 2 4 MA 19.00 21.21 PT P 24.50 23.68 26.68 25.78 _2 5_MA. - 19.20 -21.43- _R2 26. 00 23.68 28. 31 25.78 2 60 MA 19.60 21.88 TAM 22. 50 24. 50 2 □ 12.60 14.06 VV l 37. 80X 41.16X _2 TAM - 8.2D 9.15- _41 Q3.-3-Z N LLL AKB L. 42 .42- 1.5-5 J .55 55.OOX 61.39X A41 26.30 28.63 A41 114.00 127.25 4107.18 G II AKB 0.03 0. 03 0.03 0.03 LA 13.90 15.52 4115.83 SI IV AKB 0.02 0.02 0.02 0.02 MA 17.OÇ 18.98 4117 AKR 0.0 0.0 0.0 0.0 MA 18.90 21. 10 4119.16 O II AKB 0.08 0.08 0.09 0.09 MA 17.20 19.31 4120.86 HE I AKP -CU 17 0.24 0. 18 0.26 19.00 21.21 0.31 0.24 0.34 0.26 5 MA 19.20 21.43 4122.00 (K AKB 0. 04 0.04 0.04 0.04 _Q_ 12.60 14.06 -4128 AKB Q.Q9 Q. 09 0. 1Q _-Q.1Q— TAM .20 9. 15 4131 0 AKR 0.03 0.03 0.03 0.03 VV 1 55.OOX 61.39X 4143.76 HE I 1 AKR 0.27 0.40 0. 29 0.43 3891.20 (FE V >1 AKB Q* 09 -0.Q9 0. 10 Q..1Q _1 C MA Q, 33 . Q.4-Q- 0,36 _Û,43 - 3894.90 (FE AKB 0.04 0.04 0.04 0.04 1 60 MA 0.60 0.65 3918.60 C II AKB 0.04 0.04 0.04 0.04 4146.06 Q 2 AKB 0.03 0.03 3920.79 C II AKB 0.05 0.05 0.06 0.06 4146.06 0 2 AKB 9,03 0,03 3923.43 HE II 1 AKB 0.94 0.67 1.05 0.74 4153.31 C III AKR 0. 0.04 1 60 MA 0;40 0.67 0.44 0.74 4153.31 O II AKR 0.04 0.04 3926.56 HF I 1 AKB 0.06 0.06 0.07 0.07 4156.45 C III AKB Q.Q7 Q, Q8 3932 AKB 0.08 0.08 0.09 0.09 4156.45 G II AKB 0.07 0.08 3934 AKB 0. 06 0.06 0.07 0.07 4161 AKB 0.03 0.03 0.03 0.03 3944 AKB 0.03 Q, 03 0,Q3_ Q,Q3 4163.05 (K V L AKB Q. 16 Q. 16 0.17 —0.17 3948 AKB 0.05 0.05 0.06 0.06 4166 AKB 0.07 0.07 0.08 0.08 3956 AKB 0.03 0.03 0.03 0.03 4169.13 HE I AKB 0.11 0.11 0. 12 0.12 3965.04 HE AKB 0.39 Æt?9. 0,^3 0,4? 4171 AKB 0.06 0.06 0.06 0.06 3967.50 (NE III) AKB 19.20 21.24 41 75 AKB 0.05 0.05 0.05 0.05 A41 41.20 45.59 4179 AKB 0.11 0.11 0. 12 0.12 _LÀ„ 34.90 38.62 -4181,57 (FE V L AKB Q. 16 . 0.16 0. 1 7 -0.17 2 C 33.00 36. 51 1 C MA 0. 16 0. 16 0. 17 0.17 2 2 MA 32.00 35.41 4186.94 C III I AK8 0.50 0. 70 0. 54 0.75 _2 3_ MA- 37.20 41,16 . -J 2 MA 0. 80 Q.7Q Q, 86 0.75 2 4 MA 28. 00 30.98 0.80 0.70 0.86 0.75 2 5 MA 34.70 38.39 4187 C II 1.00 1.00 1.08 1.08 2 6Q-MA,- 39.00 43. 15 ..4189.90 Q LL AKB Q.Q5 Q.Q5 Q. 05 _3.Q-5_ TAM 24.00 26.56 4195.59 N III AKB 0.03 0.03 0.03 0.03 VV 1 87.80X 97.15X 4199.87 HE II AKB 1.94 1.41 2.09 1.51 3966 _ü L A 41 41.¿Q 45.58 A41 0.80 1.41 0^8-6 _LLL 2 LA 34.90 38.61 l C MA 1 .Al 1.51 1.51 2 C MA 33.00 36.51 l 2 MA 0.80 1.41 0.86 1.51 _2 2 MA 32.00 35.40 _1 3 ma, ..¿,30 1.41 ¿«-4.6 —LLL 37.20 41. 16 1 60 MA 1.20 1.41 1.29 1.51 28.00 30.98 4219 1 C MA 0.21 0.21 0.23 0.23 34.70 38.39 -4227 -J C MA Q, 23— Q. 2 Q Q. 21 _Q.-2L- 2 60 MA 39.00 43. 15 4227.60 (FE AKB 0.23 0.2 3 0.25 0.25 2 0 31.60 34.96 4237 AKB 0. 03 0.08 0.03 0.09 7 TAM 24. QQ 26.55 f. MA 0.14 0.08 QL.5 87.80X 97.14X 4254 AKB 0. 0.05 0.05 0.05 3968.00 HE II 0.0 0.0 4258 AKB 0.05 0.05 0.05 0.05 NGC 7662 (PK NO. 106-17 1) NGC 7662 (PK NO. 10b-17 1) 594 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued NGC 7662 (PK NQ. 106-17 L) NGC 7662 (PK NQ. 106-17 1) WAVE IDENT RG REF □ BS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I AVE 0 CORR I 4267.11 C II AKB 0.71 1.09 0.76 1.17 4634.18 N III A A41 3.2Q 3>26 C HA 1.15 1.09 1.23 1.17 1 OE AW70 1.40 2.10 1.44 2.16 2 MA 1.30 1.09 1.39 1.17 2 LA 5.90 6.05 3 M. 1 « 6Q lm Q9- 1-71 1« LI. _J C MA 2.ZQ 2.IQ 2.26 2.16 1 60 MA 0.70 1.09 0.75 1.17 2 2 MA 5.80 5.95 4271 0 AKB 0.07 0.07 0.07 0.07 2 3 MA 5.30 5.44 4213, 0 AKB 0.11 Q. 11 .12 0.12 _2 IAM 2.40 2.46 4275.95 0 AKB 0. 15 0. 16 4637 N III 0 3. 55 3.55 3. 3.64 4275.95 0 AKB 0.15 0. 16 4640.59 N III AKB 0.0 3.47 0.0 3.56 4295.24 Q LL_ AKB 0. Q.4_ 0.04 0.04 _A.41 3.20 3.28 4303.83 0 AKB 0.04 0.04 0.04 0.04 l OE AW70 4.00 3.47 4. 10 3.56 4316 AKB 0.Ç5 0.05 0.05 0.05 1 P AW70 2.94 3.47 3.02 3.56 4325 AKB 0.07 0.07 0.07 0.07 _J C-MA 5.30 3.47 5.44 3^56 4338.97 HE II AKB 0.0 0.0 0.0 0.0 2 MA 5. 80 5.95 4340.49 H I AKB 44.30 42.57 46.95 45.12 2 3 5.30 5.44 AA1 42-90 42.57 45.47 45.12 1 60 MA 5.10 5.23 1 47.40X 50.24X TAM 2.40 2.46 I LA 43.60 42.57 46.21 .45.12 4641.87 N III AKB 4.00 4.00 4. 10 4.10 _J C MA_. 44.00 42«-57 46.64 -45 »12.. 4647.34 C III AKB &l3.Z Q.t 8 2 0.84 0.84 l 2 41.50 42.57 43.99 45.12 OE AW70 1.10 1. 13 l 3 46.20 42.57 48.97 45.12 R AW7 0 1.00 1.02 _L 4 ma 32.00 42.57 33.92 45.12 _MA 1. flfl I . A4 1 5 MA 41.50 42.57 43.99 45.12 2 2.20 2.25 1 60 MA 46. 50 42.57 49.29 45. 12 4648.67 0 II 1 AKB 0.0 0.0 _1 M-I73. - 46.60 42.57 49.39 45.12 4 QE-AK.70- 1.10 1.13 0 40.80 42.57 43.24 45.12 R AW70 1.00 1.02 OCB 39.80 42.57 42. 18 45.12 C MA 1.80 1.84 PIP 41.60 42.57 44.09 45.12 .25 R2 42. 00 42.57 44.52 45.12 4650.29 C III 1 AKB 0.47 0.48 TAM 45. 30 42.57 48.01 45.12 A41 3.20 3.28 86.4QX 91- 58 X 5.90 6^04 4349.73 O II AKB 0.0 0.0 0.0 0.0 4650 O II 4 OE AW70 1.10 1.13 4363.26 (□ III) AKB 16.00 17.72 16.92 18.74 4 R AW70 1.00 1.02 A41 . 21.40 17.J2 22.63 18.74 - 465J C LLI 4 GE AW7Q 1. 10 1.13 AN 19.00X 20.09 X 4 R AW70 1.00 1.02 BDO 1.00* 1.06* 4657.82 (FE III) l AKB 0.0 0.0 _LA 16.92 3 OF AW70 0.6? 0^63 1 C MA 18.70 17.72 19.77 18.74 R AW7 0 0.82 0.84 1 2 MA 19. 70 17.72 20.83 18.74 4658.55 C IV AKB 0.75 0. 77 _1 3 MA 17.7? ? 1 . ?5 IB.74 AAJ 3.20 20.00 17.72 21. 14 18.74 3 DE AW7C 0.62 0.63 18. 10 17.72 19. 14 18.74 3 R AW 70 0.82 0. 84 1 9.. 70 17.7? ?o.a3 IB.74 -4 C -MA Û. 30 - 0^31- 0 14. 50 17.72 15.33 18.74 4661.67 O II 1 AKB 0. 15 0. 15 OCB 15. 10 17.72 15.96 18.74 3 OE AW70 0.62 0.63 PTP 17.72 15.96- 1ft.76- _3 R AW7 0 0.82 TAM 16. 00 17.72 16.92 18.74 4683 AKB 1.03 1.03 1.05 1.05 4365 AKB 0.0 0.0 0.0 0.0 4685.72 HE II AKR 64. 30 48. 59 65.60 49.57 4366.84 0 LI_ AKB CUD CLJ3 0*0 A41 52.60 48.59 53.66 49.57 4368.58 O I AKB 0.0 0.0 0.0 0.0 76.OOX 77.54X 4376 AKB 0.10 0. 10 0. 11 O.ll LA 64.30 48.59 65. 60 49.57 437-9.31 N 144— AKB -MA 51.DO -4ft^5.9 - 52.-Q3 49.57 C MA 0. 40 0.29 16.70 48.59 17.04 49.57 4387.97 HE I AKB 0.41 0.47 0.43 0.50 76. 00 48.59 77. 54 49.57 -C-.ÜA Q.6Q 0-47 0.63 Q.5Q i «. 60 4R. 6<3 1ft-«7 49-67 l 60 MA 0. 40 0.47 0.42 0.50 49.00 48.59 49.99 49.57 4391 0 AKB 0.04 0.04 0.04 0.04 a 57.50 48.59 58. 66 49.57 4407 AKB 0.09 0.09 0.09 0.09 PTP 42.60 48.59 43.46 49.57 4414.20 AKB 0.14 0.14 0. 15 0.15 TAM 42.00 48.59 42. 85 49.57 4420 AKB 0.06 0.06 0.06 0.06 VV 1 67.80X 69. 17 X 4434 AKB Q. 08 Q.Q8 Q.Qfl... 4711.40 ( AR TV ) AKB 8.BO 8..8Q 8.-95 8.95 4437.52 AKB 0.11 0.11 0. 12 0.12 A41 6.70 6. 82 4438 AKB 0.06 0.06 0.06 0.06 LA 10.60 10.78 4447.99 Q LI_ AKB _Ûjl 0-12 O- 13 .13- 7.70 7.-53 4452.73 O II AKB 0. 17 0.17 0. 18 0.18 2 2 MA 10.00 10. 17 4458 AKB 0. 10 0. 10 0. 10 0.10 2 3 ma 11.10 11.29 4471.50 HF I AKB 3.2Q _2 5 ma 9. IQ 9.26 l A41 2.50 4.31 2.61 4.51 2 60 MA 9.60 9. 77 1 LA 3.70 4.31 3.87 4.51 2 0 8.14 8.28 _J C— 4.3a .31 -Am. 4.51 2 TAM 7.40 1 2 MA 8.10 4.31 8.47 4.51 4712.86 HE I AKB 0.0 0. 0 1 3 MA 3.50 4.31 3.66 4.51 A41 6.70 6.82 4 MA '6.90 .21 LA 10.60 .10.18 1 5 MA 6. 00 4.31 6.27 4.51 7.70 7. 83 1 60 MA 4.30 4.31 4.50 4.51 10.00 10. 17 _1 Q— 1.70 4.31 1.78 4.51 11.10 11.29 PTP 2.45 2.56 A 2 5 MA 9. 10 9.26 TAM 3.20 3.35 2 60 MA 9.60 9.76 11.40X 11.92 X _2 Q_ 8. 14 8.28 4491 AKB 0.09 0.09 0.09 0.09 TAM 7.40 7. 53 4510.97 (K IV ) AKB 0.19 0. 19 0.20 0.20 4714.11 (NE IV ) AKB 0.75 0. 75 0. 76 0.76 4535.00 N III AKB 0.08 0.08 0.08 0.08 4715.73 (NE IV ) a*_Q8 Q.-Q8 -Qt.M- _Q..Q-8_ 4541.52 HE II AKB 3.50 .47 3.63 4.64 4725.51 (NE TV ) 1 AKB 0.41 0. A41 1.65 .47 1.71 4.64 1 DE AW70 1.15 1. 17 LA 2.90 .47 3.01 4.64 -1 R AW7Q 1 * 60 1.63 1 C MA 2.40 4.47 2.49 4.64 0.80 0.81 l 2 MA 1.90 4.47 1.97 4.64 4724.08 (NE IV ) AKB 0.73 0. 74 1 3 MA 3.-1Q.. 4.47 3.64 4740.22 (AR IV ) AKB 1 60 MA 2.90 4.47 3.01 4.64 A41 6.70 6. 79 l 0 18.60 .47 19.30 4.64 LA 7.80 8.30 7.91 8.42 _J IAM— ?.7Q -47 ?.ao 4.64 830 ft. LI - ft.42- 4562 AKB 0.09 0.09 0.09 0.09 9.20 .30 9. 33 8.42 4568.50 O IV AKB 0.05 0.05 0.05 0.05 MA 5. 40 8.30 5.47 8.42 4571.14 Mg_I AKB 0.0 0-0 3_ 3_ MA 12.00 8.3Q 12. 16 3.42 4592 AKB .08 0.08 0.08 0.08 l 5 MA 7. 50 8.30 7.60 8.42 4597 AKB 0.08 0.08 0.08 0.08 l 60 MA 9. 50 8.30 9.63 8.42 4607 AKB 0«-Q6. _»_Q6 Q.Q6 1 0 6.92 830 7.02 8.42- 4610 AKB .11 0.11 0. 11 0.11 TAM 6.90 6.99 4620.10 C AKB 0.05 0.05 0.05 0.05 4851 (FE VI 1 WYSE l. 00 A 1.00 A 4626 AKB Q .07 0-07 0.07- _ Q.01— 4861.00 H I AKB 100-00 -LQQ.QQ i fin, nn 4632 AKB 0.27 0.27 0.28 0.28 100.00 100.00 100. 00 4634.18 N III AKB 2.70 2.10 2.77 2.16 100.OOX 100.OOX NGC 7662 (PK NO. 106-17 1) NGC 7662 (PK NO. 106-17 1) 595 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued NGC 7662 (PK NQ. lQ.6-17 LI NGC 7662 (PK NO. 106-17 1) HAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE N RG REF OBS I AVE 0 CORR AVE C 486L.QQ H I _J CP.QA_ . IQQ.OQ IQQ.OQ. 1QQ.QQ- iQQ.nn 5345 _L R AW70 «.24 Q.¿3 KOS 100.OOX 100.OOX l A41 4.00 7.07 3.79 6.70 LA 100.00 100.00 100.00 100.00 1 OE AH70 8.90 7.07 8.43 6.70 ■ L.A54— 100.00 IQO.QQ- 10Q.OQ LÛCL.QÎL- _J R AW70 «-2Q 7« Q7 7.77 6.70 C HA 100.00 100.00 100.00 100.00 l C HA 6.00 7.07 5.68 6.70 2 HA 100.00 100.00 100.00 100.00 l 2 MA 5.00 7.07 4.74 6.70 3 MA 100.00 IQO.QQ -IQQ.QQ _ 100.00 1 3 MA 7.07 9.38 6.70 1 100.00 100.00 100.00 100.00 l 60 MA 8.70 7.07 8.24 6.70 1 100.00 100.00 100.00 100.00 1 0 5.90 7.07 5.59 6.70 l 60 MI ^A 71. 100.00 A 100.00 A _1 VY_ 13.6QX 12.89X 100.00 100.00 100.00 100.00 1 WYSE 12.00 A 11.37 A MI 73 100.00 100.00 100.00 100.00 l C MA 0.33 0.31 1C0.00 ■ 1QQ.0Q __M_S 1QQ.QQ 0 100.00 100.00 100.00 - IflQ.QQ 100.00 - 5517 _1 (CL I II I 1 A AE2 WYSE t-OQ A 1.04* 0.98* OCR 100.00 foo.oo 100.00 100.00 1 OE AW70 0.49 0.68 0.46 0.64 PTP -1QQ.QQ- 100.00 IQO.QQ -IQQ.QQ J R AH 70 0.96 0.68 ...Q«-9Q Q.64 R2 100.00 100.00 100.00 100.00 1 C MA 0.60 0. 56 TAM 100.00 100.00 100.00 100.00 1 WYSE 1.50 A 1.41 A VV 1 100.OOX 100.OOX 5537 ( CI—I-t I > J A AE2 1.00* Q. 94* WYSE 100.00 A 100.00 A 1 OE AW70 0.50 0.91 0.47 0.85 4883 AKB 0. 15 0.15 0. 15 0.15 l R AW70 0.85 0.91 0.80 0.85 -4g£ÊL- AKB Q» 12 Q.L2- Q.12 Q.12 -J C M3 n. on 0.91 0^8-4 0.85 4906.60 AKB 0.16 0.10 0. 16 0.10 1 3 MA 1.40 1.31 R AW70 0.05 0.10 0.05 0.10 1 WYSE 1.50 A 1.40 A 4922.QQ_. .HE I. AKB 2 « 5Q.. 1.2.4.- 2.49, . 1.24 —LD I 1 1 laLYS.E— 2-00 A 1.87 A 1 OE AW70 0.64 1.24 0.64 1.24 1 OE AW70 0.05 0.19 0.05 0.18 1 R AW70 0. 54 1.24 0.54 1.24 1 R AW70 0.33 0.19 0.31 0.18 _J C . MA— 1.3Q 1.24- 1.29- -1.24- _J WYSE L.5Q . 1^40 A 1 WYSE 3.00 A 2.9 5630 (FE VI ) AW70 0. 20 0.20 0. 19 0.19 4931.00 (0 un 1 AKB 0.44 0.31 0.44 0.31 5677 (FE VI I AW70 0.20 0.20 0. 19 0.19 1 GE AW70 Q«.27 0.31 0.27 0.31 575.4 _LN LI L_ —A-41 11.00 1Q.11 AW70 0.23 0.23 l OE AW70 0.23 0.21 0.21 0.20 WYSE 2.00 A 1.99 A 1 R AW70 0.20 0.21 0. 18 0.20 -(.FF un WYSE 2.Q0- A._ 1.99 A _J WYSE 1^50 A 1.38 A 4959.00 (O III) AKB 335.00 429.39 331.91 425.44 C IV l R AW70 0.62 0.31 0.57 0.28 A41 560.00 429.39 554.84 425.44 1 C MA 0.0 0.31 0.0 0.28 —AN 139.OOX —137. 72-X— _1 WYSE. l.QQ 0.9? A C PD A 416.90 429.39 413.06 425.44 5806 HE II AW 70 0. 10 0.10 0.09 0.09 335.00 429.39 331.91 425.44 5812 C IV AW70 0. 58 0.58 0. 53 0.53 - 455.00- -450.81- HYSF 1-50 ».37 A 550.00 429.39 544.93 425.44 5823 1 R AW70 0.30 0.30 0.27 0.27 645.00 429.39 639.06 425.44 5867 HE II 1 R AW70 0.60 0.60 0.55 0.55 . 411.m. 429.39 -407.21 5 87.5 HF I _2 A-4J 11.00 10.01 1 4 MA 330.00 429.39 326.96 425.44 1 OE AW70 8.80 16.79 8.01 15.29 1 5 MA 415.00 429.39 411. 18 425.44 1 P AW70 11.60 16.79 10.56 15.29 !.. 60..MA- . 370.00- 429.39 366.59. ■ 425.64. .1A>00 16.79 14. 57 15.29 MS 520.00 429.39 515.21 425.44 28.30 16. 79 25.76 15.29 0 408.00 429.39 404.24 425.44 14.40 16.79 13.11 15.29 337.00 ■429. 3.9-- -333.9fl_ 425.44 31.00 28.22 TAM 353.00 349.75 1 5 MA 21.90 16.79 19.94 15.29 VV 1 382.40X 378.88X 1 60 MA 20.00 16.79 18.21 15.29 WYSF ^n.nn a -356.68 A -J 0 —7—95 16.79 —7.26 15.29 4999 AKB 2.60 2.60 2.57 2.57 PTP 7.95 7.24 5007.00 (Q III) AKB 990.00 1279.31 976.38 1261.70 VV 1 15.70X 14.29 X A4 1 1560.00 1279.31 1538.53 1261.70 ■ M.Y S F 15.00 A 13.66 A AN 377.OOX 371.81X 6035 2 WYSE 1.00 0.90 BDO 81.30* 80.18* 6041 2 WYSE 1.00 0.90 C PDA 1259.00 1279.31 1241.67 1261.70 6063 l WYSE 0.80 0.72 LA 990.00 1279.31 976.38 1261.70 6073 1 WYSE 1.00 0.90 LA54 1365.00 1279.31 1346.21 1261.70 6086 (MN V ) 2 C MA 0.68 0.61 _Í1A 700.00 1279.31 1676.60 1261.70 .3-ttA -.¿j 3Q.. 2.Q6 1970.00 1279.31 1942.89 1261.70 6086 (FE VII) C MA 0.6 0.61 910.00 1279.31 897.48 1261.70 3 MA 2.30 2.06 128Q« QQ ■ 1279t31 -1262 « 39 -L261170 6101 JjK LV..L -W-YS.E- Uî>Q A MS 1480.00 1279.31 1459.63 1261.70 6118 WYSE 0.80 A 0.71 A PTP 1180.00 1279.31 1163.76 1261.70 6170 WYSE 1.00 A 0.89 A R2 1Q1Q..QQ 1279.31 996. 10 .1261.7Q 6188 WYSE 0.9Q A -Q^J.1 L... TAM 937.00 924.10 6232 (K VI ) WYSE 1.00 0.89 VV 1 1192.40X 1175.99X 6300 (0 1 ) CAM 0.00*A 0.00+A WYSE 12QQiQQ. A... .1193.49-A- ..C-ÜA 2-« 6Q 5015.10 HE I l AKB 10.80 10.80 10.64 10.64 2 2 MA 4.40 3.87 5047.00 HF l l AKB 2.00 1.06 1.96 1.05 2 3 MA 3.70 3.26 1 OE AW70 0:13 1.06 0. 13 1.05 2 60 MA 3.40 2.99 5065 WYSE 1.50 A 1.47 A VV 1 7.90X 6.96X 5121 WYSE 1.50 A 1.46 A WYSE 0.90 A 0.79 A 5131 1 DE AWZQ— 0.30 Q.28 . 0.29 6311 —LS LUI C MA -¿-.60 2.29 1 R AW70 0.26 0.28 0.25 0.27 4.40 3. 87 i OE AW70 0. 05 0.09 0.05 0.09 2 3 MA 3.70 3.26 1 R AW70 Q. 13 0.09 0. 13 . Q.Q9 2 60 MA 3. 40 2.99 (FE VII ) 1 OE AW70 0.05 0.08 0.05 0.08 1 WYSE 4.00 A 3.52 A 1 R AW70 0. 12 O.C 0. 12 0.08 6346 SI II l WYSE 0.80 A 0.70 A 5161 . 1FE VJ.LL J R AW70 Q » 13 A Q « 13 A 6363 _LQ I L -l C MA Q.Q Q.Q 5176 (FE VI ) AW 70 0.07 0.07 1 3 MA 1.40 1.23 5178 (FE V ) WYSE 1.50 A 1.45 A 6403 1 WYSE 1.50 A 1.31 A 5196 - H Y SL— 1.5Q A 1.45 A. 6435 _J WYSE L.5Q A. 1.31 A 1 OE AW70 0. 19 0. 19 0. 18 0.18 6461 WYSE 1.00 A 0.87 A l R AW70 0. 19 0.19 0. 18 0.18 6483 WYSE 0. 0.78 A 5192 _1 WYSE . 1.50 A 1.45 A 6529 WYSE 1. Q. 87 A 5199 (NI ) AW70 0.20 A 0.19 A (N II ) A41 175.00 151.56 A 5207 WYSE 1.50 A 1.45 A OC B 3.60 3.60 3. 12 3.12 5212 AW7-Q- 0.10 A 0.10 A ...WYSE 0.0 â_ 3.6Q 0.0 A 3.12 5232 1 WYSE 1.50 A 1.45 A A41 175.00 A 151.40 5303 l WYSE 1.00 A 0.96 A CAM 1.00* 0.87* 5306 _1 R AW7Q . 0.14 A 0.13 A LAR 10.00* 9.65* 1 OE AW70 0.05 0.17 0.05 0.17 390.00 349.20 337.41 302.11 1 R AW70 0.30 0.17 0.29 0.17 MA 430.00 349.20 372.02 302.11 R AW7Q 0^10- 0.10 0.10 . Q..1Q— —MA— . 33-L.QQ 349«2Q ¿96.37 302.11 (CL IV ) l OE AW70 0.10 A 0.10 A 1 280.00 349.20 242.25 302.11 1 WYSE 1.50 A 1.43 A l 5 MA 320.00 349.20 276.85 302.11 533-4- -1FE Y1.LL 1 R AW70 Q.1Q A . Q.1Q A.. 1 60 MA 404.00 349.^0 349.53 302.11 5334 1 WYSE 1.50 A 1.43 A 314.00 349.20 271.66 302.11 5345 l OE AW70 0.26 0.25 390.00 349.20 337.41 302.11 NGC 7662 (PK NO. 106-17 1) NGC 7662 (PK NO. 106-17 1) 596 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued NGC 7662 (PK ND. 106-17 1) _LL Zñ3 (PK NO. 138+ 2 1) WAVE N RG REF DBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 6562- _1 nr.R n i .no R4 I PG AK! 54.00 -115.20 115.2Q PTP 302.00 261.28 302.11 I PG AK I 6.40 6.40 10.94 10.94 VV 1 214.20X 185.32X 1 PE AKI 16.00 18.00 26.81 30.16 HYSE 360-00 & 311-46 A 1 PG AKI 20.00 -18. QQ 33.51 30.16 6563 (N II ) VV l 214.20X 185.32X 3889 1 PG AKI 8.30 8.30 13. 73 13.73 6583 (N II ) A41 175.00 A 151.19 A 3967 (NE I II I 1 PG AKI 7.10 7. 10 11.28 11.28 CA>1 0-02* 0-02* 3974 H I 1 PG AKI 11.60 -l-l.t 6.0 18.37 18.37 OCB 7.80 6.34 6.74 5.48 4101 H I 1 PG AKI 20. 10 20. 10 29.69 29.69 PTP 4.89 6.34 4.22 5.48 4340 H I 1 PG AKI 32.60 32.60 42.55 42.55 WVSf- 12.00 A. 10.37 A 4363 _LQ III) 1 PG AKI 7.80 7.80 10-06 -10.06 6614 WYSE 2.00 A 1.72 1 PE AKI 94.00 .50 103.00 96.97 6644 WYSE 1.50 A 1.29 A 1 PG AKI 83.00 88.50 90.95 96.97 6678 HE I C MA 5.90 9.99 5.07 *711 (AR IV ) 2 PG AM 11.00 11.89 15.00 9.99 12.88 8.58 4713 HE I 2 PG AKI 11.00 11.8R 8.00 9.99 6.87 8.58 4726 (NE IV I l PG AKI 7.00 A 7.51 A 21.00- 9.99 18.03 8.58 4740 (AR IV ) 1 PG AKI 10.00 10.00 -10^64:... 10.64 l 5 MA 6.00 9.99 5.15 8.58 l PE AKI 100.00 L 00.00 100.00 100.00 1 60 MA 4.05 9.99 3.48 8.58 l PG AKI 100.00 100.00 100.00 100.00 _J HYSE 4.00 A 3.44 .A— _1 QP63 100.00 100.00 IQQtQQ 100.00 6717 (S II) l B AE2 0.66* 0.57* 4959 (0 III) l PE AKI 150.00 130.50 143.78 125.09 1 WD 0.62* 0. 53* 1 PG AKI 111.00 130.50 106.40 125.09 6723 _LS II ) J C-MA 1-90 1.63 2.45 5007 __LQ III ) J QQ63 575.QO 575.00 -339*51. 539-57 l 2 MA 5.80 2.86 4.97 2.45 1 3 MA 3. 10 2.86 2.65 2.45 REGIEN KEY (REGIONtREFERENCE,EXPLANATION) 1 60 MA .,28- .2* 86 1.95 PE. AKI . PHOTOELECTRIC OBSERVATIONS PTP 1.23 1.05 PHOTOGRAPHIC OBSERVATIONS WYSE 4.00 A 3.43 A 6730- _LS Li L AE2 1.00* (PK NO. 138+ 2 11 1.00* 0. 86* 4.90 5.25 4. 11 4.41 8.90 7-47 -4.41 l 3 MA 3.50 5.25 2.94 4.41 351 (PK NO. 159-15 1) C = 0.54 (RADID-H BETA) 1 PTP 3.72 5.25 3. 12 4.41 7135 (AR III) A C. MA 13.BQ_ 16.36 11.54 13.69 1 2 16.40 16.36 13.72 13.69 3133 0 III 100.00 1 00.00 178.52 173.52 1 3 10.30 16.36 8.62 13.69 3203 HE I I 34. 00 34.00 59.27 59.27 _J 4_ 43. 00 16.36 35.97 13.69 -0 LI1 ijz-ao 28.35 ?R .35 4.90 16.36 4. 10 13.69 3346 ( NE V ) 21.00 34.58 9. 77 16.36 8.17 13.69 3346 0 III 21.00 34. 58 _LD TI>1 C MA 2.4Q_ 2-93 1.99 —2*43 1 2 MA 3.30 2.93 2.73 2.43 3703 HE I 2.30 3.36 1 3 MA 3. 10 2.93 2.57 2.43 3703 H I 2.30 3.36 _1 PTP 1.66 A L.37 A 7530 (CL IV ) i C MA 1.50 1.50 1.23 1.23 3721 3.40 4.94 7592 HE II 1 C MA 0.80 0.80 0.65 0.65 3721 ( S UD 3.40 4.94 7751 (AR I II I 1 C MA 3.70— 4-70 2.99 3.80 3726 -LO- TT ) 1 2 7. 50 4.70 6.07 3.80 1 ACP 20. 10 29. 14 1 3 2.90 4.70 2.35 3.80 1 AC PG 12.50* 18.12* (CL IV ) _1 C— 2.60- 3.17 2.08 2-53 -J AW 1 2 2. 80 3.17 2.24 2.53 1 VV 12.90X 18.70 X 1 3 4.10 3.17 3.27 2.53 3728 II ) 1 AW 3.40 4.92 _2 C_ 1.50- 1.19 . 3734 _L _I AW— 8236 HE II C MA 1.50 l. 19 3740 HF I I 1. 10 1.59 1.59 8545 H I NOS 0.90* 0.70* 3750 H I 5.40* 7. 76* 8598— NOS 1.00* 0.78» 4.70 6.76 8665 H I C MA 2.00 2.00 1.56 1.56 3754 III 3.20 3.20 4. 59 4.59 8750 H I C MA 2.80 2.80 2.17 2.17 3759 111 8.40* 12.04* NOS 1.40* 1.09* 8.50 8.50 12.18 12.18 C MA 6. 20 4. 80 3770 5. 70* 8.14* NOS 1. 50* l. 16* 5.90 5.90 8.42 8.42 9Q15— _d I_ NOS 2.00* 1.54* 3797 6. 2Q 7.35 8.77 1 0.40 0 4.36 3.36 l ACPG 7.90* 11.17* (S III ) NOS 6.70* 5.15* 1 AW 8.50 12.02 _0— 14.40- 11-07 3819 HE I _J ACPG 1.62* 2.27*- NOS 2. 90* 2.22* 0. 70 0.70 0.98 0.98 0 4.90 3.75 6. 10 9.05 8.51 12.62 9532 LAR 11 45* L»jLQ_*_ ACPG 6.80* .48* H I 2 NOS 19.00* 14.39* 12.00 9.05 16. 74 12.62 2 0 41.80 31.66 (NE I 11 1 1 90.00 61.53 123.98 84.76 _i_S LU 1 2 - NOS 19. QQ*... 14.39* 16.60 61.53 22.87 84.76 0 41.80 31.66 ACPG 112.70* 155.25* 9546 (S III ) LAR 1.45* 1. 10* LA 86.00 118.47 10049 H I _0 9. 55 7. 14 78.00 107.45 10120 HE II 2 7. 60 27.60 20.59 20.59 1 VV 1 161.30X 222.20X 10320 (S II 1 25.80 25.80 19. 16 19. 16 2 A 17. 00 23.24 10829 HE I LAR 4.68* 3.43» 2 ACPG 18.10* 24.74* NOS 42.80* 31.39* 86.00 117.54 0 102.00 74. 81 74.81 35.50X 48.52X NOS . 8.40* ful4* H.E I _L7-...0Q 23.24 0 16. 20 16.20 11.85 11.85 2 ACPG 18.10* 24.74* 10 MU (S IV ) GMS 86.00 86.00 55.53 55.53 2 VV 1 35.50X 48.52 X 3967 (NE IIP _2 A— 38.00 50.66 REGICN KEY (R EG ION,REFERENCE.EXPLANATION) 2 ACP 30.40 40. 53 A, AE? , REGIONS A AND B CN DIFFERENT SCALES 2 ACPG 42.00* 55.99* OE. AW70« OUTER EDGE OF BRIGHT RING 2 LA 42.30 56.39 P, AW70, BRIGHT RING 67. 70X 90.25 X 2, MA , -5.4 ARCSEC FROM C IN BRIGHT RING 38.00 50.65 3. MA , »5.4 ARCSEC FROM C IN BRIGHT RING 30.40 4, MA , -10.8 ARCSEC FROM C IN OUTER RING ACPG 42.00* 55.98* 5, MA , +10.8 ARCSEC FROM C IN OUTER RING LA 42.30 56.38 C. MA . CENTER OF BRIGHT RING. NORTH OF CENTRAL STAR 31.00 41.32 60. MA , MT. WILSON 60 INCH 2 VV 1 67.70X 90.24X 3969 (NE III 1 2 MA 31.00 41. 30 END NGC 7662 (PK NO. 106-17 1) 4026 HE I -1 AJüL 3.50 3.50 -.4 «-5.8— 1 VV 1 58.OU X 75.84X l ACPG 0. 81* 1.04* 1 AW 1.70 1.70 2.19 _2_«_L2— BEGIN IC 289 (PK NO. 138+ 21) C = 0.87 (HYDROGEN LINES) 0.57* 0.73* 0.50 0-64 -HAVE— . IDENT N RG REF 3BS I AVE—Q CQRR I AVE C 29.OOX 37.27X 3203 HE II 1 PG AKI 14.00 14-00 34.28 34.28 4097 N III AC P 21. 10 26.92 3345 (NE V ) I PG AKI 21.00 21.00 46.94 46.94 4101 H I A 23.00 29.30 289 (PK NO. 138+ 2 1) 351 (PK NO. 159-15 l) 597 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued 351 (PK NO. 159-15 1> _LC 418 (PK NQ. 215—24 1) WAVE IDE NT N RG REF OBS CORR WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C 4101 H I 2 ACP 21. 26.8 3554 lÍQ HE—I AK3 «.44 Q.44 .57 0,57 1 ACPG 10* 26. 88* 3587, 30 HE I 1 AK3 0.50 0.50 0.64 0.64 1 MA 00 23.50 30. 57 3613. 6 0 HE T 1 AK3 0.86 0.86 L. 09 1.09 _1 V_V L_ 1 9QX 53. 38-X - 3634, 40 he Ï —I AK3 0.65 0.65 0.82 0.62 4200 HE I I 2.00 2.46 3658. 1 AK3 . 0.41 0.41 0.52 0.52 4227 (FF V ) 1.00 1.22 3659. I AK 3 0.31 0.31 0.39 O. 4267 _C LL_ .AM_ 0.84 1.01 3660. 1 AK3 0.38 0..36 0.49 P. 1 58. 00 43 3661 ,20 H I l AK 3 0.36 0.36 0.45 0.45 2 ACP 60. 30 14 3662 ,30 H I 1 AK 3 0.45 0.45 0.57 0.57 _J ACPG. 90* 84» 3663 ■ 40 H I 1 AK3 0.50 QtfrQ 0.63 0.6? 67. . 76 X 3664 ,70 i AK3 0.52 0.52 0.66 0.66 LA 41. 50.85 .08 59.99 3666 ,10 1 AK 3 0.69 0.69 0.87 0.87 MA 50.85 .81 59.99 3667 ,70 1 AK3 0.55 0.55 0.69 0.69 50.85 65 59.99 3669 ,50 H I AK3 0.72 0.72 0.91 0.91 (0 I II) 1 .00 17.34 74 20.31 3671 ,50 H I AK3 0.71 0.71 0.89 0.89 .30.. 3673 ,8Q H I_ AK3 0.73 Q.73 Qf 92 0-92 60* 22. 96* 3676. l AK3 0.82 0.82 1.03 1.03 10X 36. 43 X 3679. l AK3 1.06 1.06 1.33 1.33 ¿0 17.3 4- 15 3682, 1 AK 3 U12 . 1.12 1.41 UM 22. 17.34 20.31 3686. 1 AK3 1.22 1.22 1.53 1.53 15. 17.34 20.31 3691 l AK3 1.63 1.63 2.05 2.05 1 9. 17.34 20-31 3691j -J AK3 U-61 1.61. 2.02 2.02 l A 28. oox 31. 77 X 3703. H I l AK3 1.77 2.22 2.22 1 ACP 13. 20X 14. 98 X 3705. HE I 1 AK3 0.80 1.00 1.00 1 W 1 3. -20 A3 3712. _H L_ 1 AK3 2.09 2.09 2.61 2.61 4542 HE II A 3. 3721. l AK3 2.72 2.72 3.39 3.39 4634 N III A 3. 3723 O AK3 0.21 0.21 0.26 0.26 ACP II . 3726 _LQ Li )J A41 157.00 195.65 .29 1 LA 132.00 164.50 .97 1 0 148.00 184.44 ACP 11. IQ ._92_ _J EJ.P— 13-«_8Q 11-20 . 79 1 SO 1.00* 1.25* 4645 III . 18 l TAM 95.OOX 118.39X 4645 I I L- VV..1.- 79.9QX 99. 57X 4649 2 AW7C . 50 3728.90 (O II ) 1 AK 3 147.00 183.08 4650 2 A W7 0 .50 l SO 0.37* 0.46* A W7 Q_ 3734.40 tí I_ 1 AK 3 2-JLO 4658 0p III 3750.10 H I A K3 3. 16 3. 16 3.92 3.92 4658 H II 3757 (0 III) 0 3.98 3.98 4.93 4.93 466.1 3770.60 t! I AK.3 -85 3.85 4.75 4.75 ACP 1 AK3 4.25 3.76 5.22 4.62 AN 1 A41 3.40 3.76 4.18 4.62 —1 LA 4. 10 1 MA 52. 45.75 .04 48.42 l 0 3.31 3.76 4.06 4.62 1 VV 1 54. 45.75 .00 48.42 3805.80 HE I 1 AK3 0. 10 0. 10 0. 12 0.12 _2 A 3819.60— HF I _1 AK 3 . 1.25 1.25- 1.53 ? AW70 3833.60 HE I 2 AK3 0.09 0.11 2 A 3833.60 HE II 2 AK3 0.09 0. II _2 A W7 0 3835.40 H I _1 AK3 5-30 6.45 4740 (AR IV ) 1 A 6.95 .00 7.22 1 A41 6.40 7.79 l AW70 6.95 .45 7.22 l LA 9.00 10.96 A 4861 —H I J A 100.00- _J Q 5.50 6-70 1 ACP 100. 100 00 1 PTP 5.50 6.70 l AN 100. 100 ,00X 1 TAM 5.40X 6.58X 1 C PD A 1 oo.-QQ loo.oo ion.00- _1 VV—1 . 5.OOX 6. 09 X 100. 100.00 100. 100.00 3838.60 MG I AK3 0.07 0.07 0.09 0.09 100. ICO.00 100. 100.00 3848.20 MG II AK3 0.07 0.07 0.09 0.09 VV 1 100. 100.00 100. 100.00 3850.40 MG I I AK3 0.04 0.04 0.05 0.05 4922 I AW7C 0. 0. 50 0. 0.49 3856.10 N II AK3 0. 14 0.14 0.17 0.17 4959 III) 440. 429.50 428. 418.35 3862.60 SI I I AK3 0.06 0.06 0.07 0.07 ACP . 382. 429.50 372. 418.35 3867.60 HE ..I_ AK 3 0. IQ QUO 0. 17 Q.12 AN 268. OOX 261. 04X 3868.70 (NE III) AK 3 2.99 3.89 3.61 4.70 C PD A 407. 40 429.50 396, 83 418.35 9.00 3.89 10.88 4.70 _LA . 40 Z. 110 429.50 391, 32 418.35 1-95 3.8 9 2.36 4.70 1 300. 292. I PTP 1. 1.96 l 516. 10 429.50 502. 418.35 3 VV l 15.30X 18.50X _LD III) 1 1760. ÛÛ 1452.90 L691. 1396.66 3871-BU HE I _J AJL3 Q-2Q Q.2Q 0.24 Q.24 1139 1452.90 1094. 91 13 3888.60 A K3 11.60 11.60 13.96 13.96 633 OOX 608, 50 X 3889.00 A K3 11.60 11.60 13.96 13.96 CPDA 123Q- -HQ 1452.9Q 1182, 39 1396.66 A41 12.60 15.16 1200. 00 1 452.90 1153, 55 1 396.66 LA 13. 10 15.76 1935. 50 1 452.90 1860. 58 1 396.66 2 0 11.50 13.84 5Q1 5 ..HE I AW7C Qj Ml Q.6Q 0. 53. 0-58 2 TAM 12.20X 14.68X 5145 (FE VI ) 1 AW70 20 A VV 1 15.30X 18.41X 5158 (FF VII ) l AW70 10 A A41 12.60 15. 16 5176 (FE VI ) 1 AW7Q. . Q7 A 13. 10 15.76 5191 1 AW70 .20 2 1 11.50 13.84 5199 1 AW 70 .20 A 2 TAM 12.20X 14.68X 5411 -HE IL. _i A W7Q -IQ 13.85 4.38 11.88 -2 V.V-.1- 15.30X 18.41X l VV 1 13.85 . 39 11.8 3918.80 C II A K3 0. 16 0. 16 0. 19 0.19 5517 (CL III) 1 A W7 0 0.50 .42 0.42 3920.50 C II AK3 0. 29 0.29 0.35 0.35 5537 (CL III) 1 AW70 0.40 .33 0.33 3926.50 HE I AK3 0.15 0.15 0. 18 0.18 5754 II 1 VV 1 16.10 12.68 3964.70 HE I l AK3 1.16 1.16 1.38 1.38 5875 I 1 AW70 13.25 10.15 3967.50 (NF III) 1 AK 3 1.00 1.00 1. 19 1.19 1 VV 1 13.25 10.15 2 LA 16.80 19.92 6300 l VV 1 12. 12.90 8.98 2 0 14.50 17.19 6563 1 MA 350. 350.00 231. 231.89 2 TAM 15.60X 18.50 X 2 VV 1 374. 247. _2 iüi- 17»3QX 20.51 X 6563 (N II ) 2 VV 1 374.2 3970.10 H I l A K3 13.60 14.30 16.12 16.95 1 A41 15.00 14.30 17.78 16.95 END L£ 25J 1 PK NQ. 159-15 1) _2 LA 16.8Q 19.91 2 14. 50 17.18 2 TAM 1 5.60X 18.49 X _2 W 1 17.30X 2Q.5QX BEGIN IC 418 (PK NO. 215-24 l) C = 0.32 (RADIO-H BETA) 4009.30 1 AK3 0.25 0.25 0.29 0.29 4026.20 l AK3 1.86 1.67 2. 18 1.96 WAVE IDFNT N RG REF OBS I AVE 0 CORR I AVE C _! A-4.1- U 10 1*67 U 29 1.96 3187.70 HE I AK3 3.20 3.20 4.46 4.46 1.80 1.67 2. 11 1.96 3354.60 HE I AK 3 0.26 0.26 0.35 0.35 1.95 1.67 2.29 1.96 3447.5Q HE I AK3 0.59 0.59 ..78 0.78 1.66 ■ La 6 7 1.95 1.96- 3512.50 HE I AK3 0.22 0.22 0.29 0.29 ?.. 10X 2.46X 3530.50 HE I A K3 0. 39 0.39 0.50 0.50 6.OOX 7.03X 418 (PK NO. 215-24 1) (PK NO. 215-24 1) 598 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. TABLE 8—Continued 418 (PK NO, 21Sr24 1) . _LC 415 (PK NCL 215-24 1) WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C 4068.60 (S II > 1 AK3 1.87 1.87 2.17 2.17 4959 to i m 1 LA54 40.00 46.26 39.38 45.55_ 2 0 3.63 4.22 0 42. 70 46.26 42.04 45.55 4072 (S II) 1 A41 2.10 2.44 PTP 41.70 46.26 41.06 45.55 1 TAM 6.QQX 6.97X TAM ■57.QQ 46.26 56.12. 45.55- 4072.20 O II AK3 0.39 0.39 0.45 0.45 VV 1 40.OOX 39.38X 4076.20 ( S II) AK3 0.75 0.75 0.87 0.87 WYSE 50.00 A 49.23 A 2 Q 3. 63_ .21 WVSE 3.00 A 2t 95 A 4101.70 H I l AK3 20.20 22.40 23.32 2 5.86 A41 139.00 135.79 1 A41 24.00 22.40 27.70 25.86 AN 125.OOX 122.12 X _J LÆ_ 25. 10 22.40- 7fl .97 ?5-86 am.. 17Q.QQ» -166.Q8*_ 1 MI73 23.00 22.40 26.55 25.86 1 PE BR 153.20 143.17 149.67 139.87 1 0 20.20 22.40 23.32 25.86 I C PD A 138.00 143.17 134.82 139.87 _1 PIP 21.90 22.40 25.28 25.86 _1 Lâ_ 159.OQ 143.17 -155.33- 139.87 1 TAM 28.10X 32.44X LA54 138.00 143.17 134.82 139.87 l VV 1 29.OOX 33.47X PTP 132.00 143.17 128.95 139.87 4120.00 HE I 1 AK3 0.26 0.26 0.30 SM 100.00* 97.69* 4128.50 AR II 1 AK3 0.05 0.05 0.06 0.06 TAM 143.00 139.70 4131.80 AR II 1 AK3 0.07 0.07 0.08 0.08 VV 1 126.50X 123.58X 4141*80 HE I _1 AK3 .11- .37 Q. 42 0.42 WVSF 230.00 A 224.69- 4153.30 O II l AK3 0.06 0.06 0.07 0.07 5015.70 HE I AK3 0.72 0.80 0.70 0.79 4267.00 C II l AK3 0.61 0.61 0.68 0.68 AW70 0. 89 0.80 0.87 0.79 4340*50 H I 1 AK3 . 40. 70 42.40 44«.82_ 46.77 WYSE -.2.00 A . 6.83- 45.00 42.40 49.63 AW70 0.05 0.05 0.05 50.OOX 55.15X WYSE 3.00 A 2.91 A 49.5Q 54.6Q _5Q.47 HE A.W7Q ..mu Q. 13 Q.13 —mil— l M173 42.50 42.40 46.88 46.77 WYSE 3.00 A 2.91 1 0 40.80 42.40 45.00 46^77 5056 AW70 0. 14 0. 14 OCR 41. Ifl 42.40 45.99 46.77 5112 WYSE 3.00 A l PTP 43. 70 48.20 5120 A W70 0.04 0.04 0.04 1 TAM 51.OOX 56.25X 5125 WYSE 3.00 A 2.87 _J VV 1— 65.30 X 77.O? X 5131 AM7Q 0.04 Q. 04 -Q.04_ 4342.70 O II 1 AK 3 0.08 0.08 0.09 0.09 5145 (FF VI ) AW70 0.04 0.04 0.04 0.04 4363.20 (0 III) 1 AK 3 0.94 1.10 1.03 1.21 5158 (FE VII) AW7C 0.02 0.02 0.02 0.02 1 AN 1.54X 1.69.X -5191 LAR. HU- AMIQ 0.Q5 0.05 0.Q5 0.05 1 BOO 1.00* 1.10* (N I ) 1 0.26 0.25 2 LA 49.50 54.37 1 1.20* 1.13* _L □ 1.70 1.87 _]— -3.00 A 1 PTP 0.66 0.72 5200 (N A W70 0. 14 0. 13 l SM 0.35* 0.38* 5212 WYSE 3.00 A 2.83 A _J TAM 2.7QX 2.42 X (FF III-) A-W70 0.07 l VV 1 33.00XA 36.24XA 5277 (FE VII) l AW70 0.04 0.04 0.04 0.04 4368.20 C 1 AK3 0.16 0.16 0. 18 0.18 5302 AW70 0.06 0.06 0.06 0.06 4387.90 HF _J AJL3 0.63 Q. 63 0. 69 0-69 WYSE 3.00 A 4437.50 HE I l AK3 0. 11 0.11 0.12 0.12 5397 WYSE 3.00 A 2.75 A 4471.50 HE I l A K3 3.17 4.16 3.42 4.48 5418 WYSE 3.00 A 2.74 A -1 A41 4.46- 6.31 6.68 5656 WYSE 3.00 A 8.OOX 8.62X 5514 l AW70 0.07 0.06 LA 7.20 4.16 7.76 4.48 5517 (CL III) l IA AE2 0.55* 0.49* _Ü 3.32 4.16 3* 58 4.48 1 2 A AE 2 0.66* 1 PTP 3.09 3.33 AW7 0 0.32 0. 79 1 TAM 5. 80X 6. 25X BR 0.60* 0. 54* -J VV 1- 6. 14X WY-SE -3^00 A 4571.10 MG I 1 AK3 0.46 0.46 0.49 0.49 l IA AE2 1.00* 0.90* 4627 MG I l AW70 0.03 0.03 0.03 0.03 l 2A AE2 1.00* 0.90* 4630.50 C LI_ _2 AJL3 0.09- 0.09 _] AW-7Q 0.72 0.64 463C.50 N II AK 3 0.09 0.09 BR 0.90* 0.81* 4634 N III AW70 0.04 0.04 0.04 0.04 WYSE 3.00 A 2.69 A 4640 N III AW70 0.06 0.06 0.06 0.06 BR 0.50* 0.44* 4647 C III AW70 0.08 0.08 0.08 0.08 WYSE 3.00 A 2.67 A 4686 HE II VV 1 2.30X 2.38X 5658 WYSE 3.00 A 2.64 A . j47imi4 HF- I AK3 Q. 58 n.60 5669 A W70 0. ?1 n. i a 1 AW70 0.26 0.42 0.27 0.43 BR 0.30* 0.26* 4768 O AK3 O.ll 0.11 O.ll O.ll 5677 N II WYSE 3.00 A 2.63 A 4779.70 N II _1 Ô.K-3 0.11 Q. 11 0*11 5680 A-W.7 Q 0.12 Q. 11 4781.20 N II 1 AK3 0.08 0.08 0. 08 0.08 5695 1 WYSE 4.00 A 3.50 A 4788 1 AW70 0.05 0.05 0.05 0.05 5696 C III I AW70 0. 17 0. 15 482-1 (FE III) J WYSE. L*-Q1. A _1 E BR .Q.4Q* -Q* 35*_ I A W70 0.04 0.04 1 AW70 3.90 7. 85 3. 38 1 WYSE 1.00 A 1.01 A 1 F BR 4.90* 4. 25* . 48^9. _1 WYSE- 1.00 A 1 PE BR 2Q.7Q -J-..85 _L7_. 96 6.81— 1 AK3 100.00 100.00 100.00 100.00 0 3.90 7.85 3. 6.81 1 A41 100.00 100.00 100.00 100.00 PTP 2.89 7.85 2. 51 6.81 1 AN 10Q.0QX 100.OOX WYSE 12.00 A IQ.41 l PE BR 100. 00 100.00 100.00 100.00 5765 WYSE 3.00 A 2.60 A 1 CPDA 100.00 100.00 100.00 100.00 5875 HE I AHX 83.00* 70.86* J, LA- 1QQ.Q4- 100.00 100.00 100.00 AW7Q 16.QQ 16.92 13.66 14.45 1 LA54 100.00 100.00 100.00 100.00 l PE BR 25.60 16.92 21.86 14.45 l MI 73 100.00 100.00 100.00 100.00 1 0 13. 80 16.92 11.78 14.45 -I Q— 1QQ.QQ 100.00 100.00 100.00 I PTP 12. 30 16.92 10.50 14.45 1 OCB 100.00 100.00 100.00 100.00 VV 1 27.60X 23.56X l PTP 100.00 100.00 100.00 100.00 WYSE 20.00 A 17.07 A 1 TAM IQQ.O-Q 100.00 100.00 100.00 6035 WYSE 2.0Q A 1.67 A 1 VV 1 100.OOX 100.OOX 6046 1 F BR 0.40* 0.33* 1 WYSE 100.00 A 100.00 A 6 049 1 WYSE 2.00 A 1.67 A 4882— (FE III) _2 WYSE- 2.QQ A 1.99 A 6098 i F as_ Ü.3Q* 0.25* 4882 ( FE III) 2 WYSE 2.00 A 1.99 A 6111 WYSE 2.00 A 1.66 A 4888 0 II 1 WYSE 2.00 A 1.99 A 6130 WYSE 2.00 A 1.65 A 4904 1 WYSE 2-00 A 1.99 A 6211 WXSE- 2.00 A 1.63 A 4910 1 WYSE 2.00 A 1.98 A 6253 WYSE 2.00 A 1.62 A 4921.90 1 AK3 0.62 0.61 0.61 0.61 6300 AHX 16.40* 13.23* 1 AW7Q Q.6J- 0.61 0-60 0-61 9.80» 7.91* 1 F BR 1-60* 1. 58* 2 PE BR 21.30 17.19 1 WYSE 3.00 A 2.97 A l CAM 0.01* 0.01* 4??.! (Q MD _2 WYSE 2.00 A U99 A -J Q— .17 -4.17 3.37 .3.37_ 4931 (FE III ) 2 WYSE 2.00 A 1.98 A VV 1 46.60X 37.61X 4943 0 II 1 WYSE 2.00 A 1.97 A WYSE 8.00 A 6.46 A 4945? . 1 WYSE. 3i QQ. A 2*96 A 6310 LS IIP £ BE— 3.60* (0 III) 1 A41 50.00 46.26 49.23 45.55 2 PE BR 21.30 17.17 1 AN 52.OOX 51.20X 1 WYSE 4.00 A 3.22 A 1 PE BR 41.70 46.26 41.06 45.55 9331 _1 WY-SE -2. QQ A 1.61 A 1 CPDA 44.70 46.26 44.01 45.55 1 F BR 0.60* 0.48* 1 LA 52.30 46.26 51.49 45.55 1 WYSE 2.00 A 1.61 A 418 (PK NO. 215-24 1) 418 (PK NO. 215-24 II 599 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued 418 (PK NO. 215-24 1) _U; 4X8 t PK NCL 7 15-24 11 WAVE IDEM N RG REF OBS I CORR I WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 6363 (0 1 ) I AHX 4.90» 3.93* 10829 HE I 1 KPKT 145.00 145.00 86.02 86.02 l F BR 3.70* 2.97* LAR 3.05* 1. 81* 1 PF BR 12.40 9.94 0 145.00 145.00 86.02 86.02 1 WYSE 5.00 A 4.01 A PTP ._i¿6.«..QQ A JlLtlS. A 6371 l F BR 0.60* 0.48* 10870 SI KPKT 20.00 A 11.85 A 6386 1 WYSE 2.00 A 1.60 A 10938 H KPKT 19.00 18.40 11.22 _6 42 3. -1.5.9-A- LAR Q.37* (N II) _X3 PF BR WYSE . 717.60 2 «-QQ-.A-.. 563.25 0 Q.63* 17.80 10.51 10.87 1 QCR 76.00 59.65 PTP 15.50 A 9.16 A 0.06* 0.05* 128I&. HE-KT 35-jlQQ 35.QQ 19.49 1 WYSE 110.00 86.34 A 16980 l KPKT 0. 0 0.0 0.0 0.0 3 PE BR 717.60 562.26 12 MU CNE II ) l GS 71.00 71.00 33.98 33.98 _1 CAM 1.00* 0. 78» LAR io.00* 7.84* REGION KEY (REG ION,REFERENCE,EXPLANATION) l M I 73 335.00 363.50 262.48 284.81 IA, AE2 » REGION NOT INDICATED — A« B ON DIF. SCALES _J Cl- .399. QQ. -363._5.Q_ 312.63 284.81 2A. AE2 . REGION NOT INDICATED — A.B ON DIF. SCALES 1 OCR 389.00 363.50 304.79 284.81 FILAMENT IN RING S OF STAR 1 PTP 331.00 363.50 259.35 284.81 PHOTOELECTRIC (FROM ALLER AND CZYZAK 1972, UNPUB.) 2 VV 1 506.20X 396.62X 1.00* 0.78* 418 (PK NO. 215-24 1) WYSE 410.00 A 321.25 A _LN Li L VV 1 506.30X 396.70X 3 PF BR 717.60 560.94 1 CAM 0.60* 0.47* 972 (PK NO. 326+42 1) 0.03 (DUST MODEL) _1_ 252. 00 196.98 173.53 l OCR 214.00 222.00 167.28 173.53 WAVE IDENT N RG REF OBS I CORR I 1 PTP 200.00 222.00 156.34 173.53 3727 (0 I I ) 1 KA2 600.00 612.50 A 1 W 0.30* 4686 HF T I 1 KA? IQ^QQ 10-03 A 1 WYSE 240.00 A 187.60 A 4861 I KA2 100.00 100.00 100.00 100.00 6638 1 WYSE 4.00 A 3.11 A 4959 III ) KA 2 270.00 270.00 269.61 269.61 6678 _1 AHX._ 27.3Q* —21.13* 1 F 9.00* 6.96* 972 (PK NO. 326+42 1) 3 PE BR 34.60 26.78 _1 W Y-S-E— 12.00 A 9.29 A- l 10 AE2 0.53* 0.41* 1 2B AE2 0.42* 0. 32* BEGIN IC 1747 (PK NO. 130+ 11) C = 0.59 (HYDROGEN LINES) 1 AHX 21.70* 16.73*. 1 F BR 7.40* 5. 70* WAVE I DENT N RG REF OBS I AVE 0 CORR I AVE C 3 PE BR 34.60 26.67 3132 0 III 1 ML CA70 6. 20 6.20 11.68 11.68 2 n 7.20 3-L8-7- HE I 1 ML--CA70-. 3 .-80 3^80 7.02 —7.02- 1 WD 0.57* 0.44* 3203 HE II 1 ML CA70 3.20 3.20 5.87 5.87 1 WYSE 10.00 A 7.71 A 3312 0 III 1 ML CA70 2.00 2.00 3.50 3.50 _LS II ) 1 IP AF2 1.00* - Q. 7.7 *_ 1 HL-.CA.7a - 4.86 1 2B AE2 i.oo* 0.77* 3444 1 ML CA70 3.90 3.90 6.47 6.47 1 AHX 42.90* 33.02* 3682 1 ML CA70 0.70 0.70 1.07 1.07 _i—E as_ 18.20,* Í4-. fll*_ 3686- 1 ML-.Ç-A70. ■ 0.-60 0.60 ■l~2Z 1.22 3 PE BR 34.60 26.63 3691 1 ML CA70 0.90 0.90 1.37 1 .37 1 WD 1.00* 0. 77* 3697 l ML CA70 1.07 1.07 1.62 1.62 -I WYSE . 12.00. A .24 A 3 703- ? Ml f.A7C 7. R» 6734 ( S 11)2 9. 34 7. 19 3705 HE I 2 ML CA70 1.90 2.87 6755 12.00 A 9.21 A 3712 H I 1 ML CA70 1.80 2.72 0.70* 0. 53* 377 1 _H I— ? Ml CA70 3.91 6865 l F BR 0.40* 0.30* 3721 ( S III) 2 ML CA70 2.60 3.91 7006 ( AR V ) 1 F RR 1.00* 0. 75* 3726 (0 I I ) 1 P CA70 38.00 57.02 7065 HE I JL_E BE- . 26.50* 19.75* 1 Ml CA70 24.00 36.01 l PE BR 15. 50 11.72 11.55 8.74 l VV 1 28.60 42.92 1 0 7.95 11.72 5.92 8.74 3728 I I ) l ML CA70 14.00 20.99 (AR III) 1 F BR 25.20* 18.66* 3734 I 1 ML CA70 2.50 2.50 3.74 3.74 l PE BR 16.60 13.19 12.29 9.77 3750 l ML CA70 3.00 3.00 4.46 4.46 1 0 9.79 13. 19 7.25 9.77 3754 III l ML CA70 0.60 0.60 0.89 0.89 7236 ( AR IV ) l-P- Zt 6Q* . 1.91* 3759 III 1 ML CA70 0.80 0.8.0 1 - 19 1 -19 7263 (AR IV ) l F 0.70* 0. 3770 1 ML CA70 4.20 4.20 5 6.20 .20 7281 HE I 1 F 2. 30* 1. 68* 3797 1 ML CA70 5.20 5.20 7.59 .59 7319 . (0 II) JL JE BE_ 22.QQ* ■ -16. Q2*_ 3819- .1 ML CA7Q 1-70 1.7Q 2.46 2 PE 8R 48.80 35. 53 l P CA70 7.60 8.90 10.93 12.80 1 0 39.80 37.35 28.96 27.18 1 ML CA70 8.40 8.90 12.08 12.80 PTP 34.90 37.35 25. 39 27.18 JL VV 1 1Q.7Q 8.90 15.39 12.80 (0 II ) 1 F 20.60* 14.98* 1 P CA70 110.00 107.50 156.05 152.50 2 PE BR 48.80 35.49 1 ML CA70 105.00 107.50 148.95 152.50 1 LAR 40.00* 29.09* __3 VV 1 71.40 101.29 (AR III) 1 27.20* 19.04* 3888 HE I 2 P CA70 23.50 33.07 1 3.20 2.24 2 ML CA70 22.70 31.94 -S39LZ . H I L_ 6.1Q* 4.08* 3889 H I 2 P CA70 23.50 33.06 8413 1 AHX 8.20* 5.47* 2 ML CA70 22.70 31.94 8446 1 AHX 32.40* 21.57* 3 VV 1 71.40 100.45 R46 7 1 AHX 12.80* -. g.gi* 3 VV 1 71.40 100-45 8502 1 AHX 13.60* 9.02* (NE III) 2 P CA7C 43. 10 59.00 8545 l AHX 14.20* 9.39* 1 ML CA70 31.00 42.44 ,8598 1 AHX 16.70* -11.Ql* 2 42.90 58.72 8665 21.30* 13.98* 2 P CA70 43. 10 58.95 2. 14 1.40 1 ML CA70 15.00 20. 52 8750 22.10* 14.44* 2 VV 1 42.90 58.67 1 0 2.40 2.40 1.57 1.57 4009 HE I 1 ML CA70 0.44 0. 59 8863 l 0 3. 32 3.32 2. 15 2.15 4023 HE II 2 ML CA70 2.80 3.76 9015 g_ 2. 34 2.34 1.51 -N51 ^026 HE I 2 ML CA7C 2.80 3.75 3.90* 2.50* 1 VV l 21.40 21.40 28.69 28.69 25.70 16.49 4068 (S II ) l ML CA70 1.40 1.40 1.85 1.85 9229 «PKT_ 7.10 ,A_ 4.52 A 4076 S JJ 1 ML CA7Q 0.60 7.45 Q.79 9.8Q 0.12* 0.08* 1 VV 1 14.30 18.81 5. 75 3.66 2 P CA70 25.20 32.88 PTP 3.16 A 2.Q1 A 1 ml CA7Q 1. QQ l.QQ 1« 30 !.. 3Q- 9532 (S III) 1 PTP 81.00 A 50.74 A 1 C 25.00 32.57 9532 H I 2 LAP 1.00* 0.63* 2 P CA70 25.20 32. 83 _9 53.3_ _LS LULL J KPKT 79.-¿Q 79.5Q 49.7.8 49.78 HL CA7Q 26. QQ 33. 8.7 2 76.00 47. 59 l VV 1 25.00 25.33 32.57 33.01 9539 2 76.00 47.59 4121 HE I 1 ML CA70 0.70 0.70 0.91 0.91 _9546_ _LS III) 2 . i -nn» 0.63» 4143 HF I 1 MI CATO 1.20 1.20 1.54 1 .54 L KPKT 12.00 11.40 7.35 6.98 4199 HE II 1 ML CA70 0.30 0.30 0.38 0.38 l LAR 0.27* 0. 17* 4227 (FE V l ml CA70 1.00 1.00 1.24 1.24 _J 0 10.BU 1 1 .40 6.61 6.98 4267 C LL 1 ML CA7Q 1.50 1.50 1.84 1 .84 8.90 A 5.45 A 1 C 40.00 47.92 (S I I ) l 3.47 2. 13 2 P CA70 42.70 A 51.16 A 418 (PK NO. 215-24 1) IC 1747 (PK NO. 130+ 600 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued If 1747 IPK NQ. Mn+ 1 n. ¿M3 (PK ttQ. 161-14.1) WAVE IDENT N RG REF OBS I AVE □ CORR I AVE C WAVE IDENT N RG REF OBS I AVE Q CORR I AVE C ^340 _b I 1 HL CA7Q 47. OQ 43.5Q 56.31 52.1L- 3428 _Q LU— J AC2Q- -5U3Q- -5.00- 5..QQ- 5.00... VV 35.70 42.77 34^4 l A 28.00 24. 83 28.00 24.83 (0 III ) l C 12.00 11.85 14.26 1 B A 30.00 24.83 30.00- 24.83 P CA 42.70 A 50.76 A _J AC7Q- ..16.50.- 24.83 . 16.50 24.83 1 ML CA70 11.70 13.91 14.09 3676 AC 70 .30 0.30 0.30 0.30 2 VV 1 35.70 42.44 3679 AC7 0 0.50 0.50 0.50 0.50 4387 HE I 1 ML CA7Q 1.50— 1.50- 1.77- 1.77- 3682 AC 70. 0.70. -Q^Z.0- . Qa-1Q- Q-LZQ-. HE I C 7.00 9.15 8.04 10.51 3686 H I l AC70 1.10 1.10 l. 10 1.10 CA70 11.30 9.15 12.97 10.51 3691 H I l AC 70 1.60 1.60 1.60 1.60 1 ML CA7Q 6.50 A 7.46 A -3692- _t! I_ _l AC7Q- . 2.IQ. 2.IQ -2.-LQ - 2.1Q VV 1 17.90X 20.55X 3703 I AC70 2.00 2.00 C 2.00 1.35 2.24 1.51 3705 HE I 2 AC 70 2.00 2.00 1 ML CA70_ 0.70 1.35 Q-i-Tâ- 1.51 3711 1 AC7 0 2. 20 -2=^0- 4634 III 1 ML CA70 0.42 0.46 3721 2 AC70 3.50 3. 50 4637 III 2 C 6.00 6.50 3721 (S ITT) 2 AC 70 3.50 3.50 4632- _C LL l ML CA7 0 6. 00 6.5Q- 3722. (0 II) J-A A -42.00- 42.00 4640 III 1.90 1.90 2.05 2.05 50.00 50.00 4647 C III l ML CA70 1.20 1.20 1.29 1.29 AC 70 28.00 28. 00 4685 HF II -2i Ifl.QQ- 25.32 32_ •_L5— 76.95 w i. ■ 19.6QX. 19.6QX 1 P CA70 21.00 22.35 26.95 3734 l AC 7 C 2.90 2.90 2.90 2.90 1 ML CA70 23.00 25.32 24.47 26.95 3740 HE II 1 AC70 0.25 0.25 0.25 0.25 1 VV 1 25.32 .82- 26.95— 3750 -tí I _1—A A_ . 5..QQ . 4.35 5.QQ . 4.35.. (AR IV I 2 5.00 5.27 I AC 70 3. 70 4.35 3. 70 4.35 2 ML CA70 3.20 3.37 3754 III L AC70 0.70 0.70 0.70 0.70 4712 _2- 5.27- 3759 -LLL _1 ACJQ - ■ 5.30 - 5.50 . 5.50. 5.50- 2 ML CA70 3.20 3.37 3 77C H I 1 AC70 4. 50 4.50 4. 50 4.50 4725 lNE IV ) I ML CA70 0.88 0.92 3781 HF II l AC7 0 0.30 0.30 0. 30 0.30 4740 CAR I V—L J C 4.00 4.17- 3791. _D III- _1 AC7Q 0. BO - Q.-8Q . 0. 80 0.80 ML CA70 2.50 3.25 2.61 3.39 L A A 4. 80 5.35 4. 80 5.35 C 100.00 ICO.00 100.00 100.00 I AC70 5.90 5.35 5.90 5.35 P r.A70 100.QQ_ 1Qn.QQ- 100.00- i100.00 no.on -J AC 70 -1.-30 - -1.-3 0 - _30 , 1 ML CA70 100.00 100.00 100.00 I A A 8.10 8.00 8.10 8.00 l 0D63 100.00 100.00 100.00 100.00 I AC70 7.90 8.00 7.90 8.00 1 VV 1- 100.00- 100.00- 100.00- -1 AC 70 . - 0. 36 -0.36 - Q. 36 Q.-36 - 1 c 3.00 3.55 2.95 3.49 3858 HE I I 1 AC70 0.60 0.60 0.60 0.60 l ML CA70 4. 10 3.55 4.03 3.49 3868 (NE I II 1 1 A A 90.00 78.40 90.00 78.40 _XQ 1 1 LI 1 P C.A70- 386.00- 378.43 375.08- 367.72- 75.00 XB.AQ . -75 ^LQ - 78.40 I ML CA70 385.00 374.11 367.72 AC7 0 70.20 70. 20 1 VV 1 364.30 378.43 353.99 367.72 1 VV 1 84.30X 84.30X --Í-0 I-M-L 1 p CA70- 1106.00- 1314.57- 1C59—3a_ 1259.17- —1—A A 20.00 20.-00 1 ML CA70 1150.00 1314.57 1101.53 1259.17 1 B 2 AC70 20. 00 14.20 20.00 14. 20 1 1288.00 1314.57 1642.04 0063 1714.30- 1233.71 1259.17 VV 1 1314.57- 1259.17- _2 VV- I 21.60X -2 1.60 X 5015 HF I R AW70 0.43 0.43 0.41 0.41 3888 2 AC 70 14. 20 14.20 5411 HF II A AW70 0.59 1.48 0.50 1.25 2 VV 1 2l.60 X 21.60X B AW7 0- . Q^ßX- 1.48.. Q. 71— 1.25- 3967-. ( ME.. LU-L -2-3 A 1 C 3.00 2.54 1.25 2 B 42.00 42.00 (CL III» I IA AE2 1.05* 0.86* l AC70 21.CO 21.00 I A AW30- 0. 53 0.43— -2 VV. 1 51.POX 51.Û0X- 8 AW70 0.56 0.46 39o7 2 A 50.00 50.00 (CL III) IA AE2 1.00* 0. 82* 2 B 42.00 42.00 A AW70- _fU32 0.67 _] 1 5.00 1 5.00 B AW70 0.47 0.64 0.38 0.53 VV 1 51.OOX 51.OOX 5592 0 III A AW70 0.26 0.26 0.21 0.21 4009 HE I AC 70 0.30 0.30 0.30 0.30 5754. -LN II J- A AW70— Q1.65 « 60— 1-12 0. 46— Q.az_ 4026 HF I 2.80 2.80 2.80 -2.au B AW70 1.12 1.27 0.87 AC70 2.70 2. 70 5802 C IV C 18.00 18.00 13.69 13.69 4026 HF I I AC70 2.70 2.70 5875 HE I A AW70 12.40 28.45 9.26 21.26 4068 ( S II) A 2.50 2.50 B AW70 15.40 28.45 11.51 21.26 AC70 2. 30 2.30 C 36.00 28.45 26.90 21.26 A 2.50 2.50 VV 1 50.00 28«45_ 37.36- 21.26 . . A C 7 0 3.40 A 3.40 A 6300 (0 I VV 32. 10 32.10 21.62 21.62 VV 1 II.80X 1I.80X 6548 (N II) c 36.00 36.00 23.03 23.03 4097 N III AC70 1.70 1.70 1.70 6563 H T _c_ 450.00- 450.00 ¿87.QQ- 287.00 -A1.Q1 . -Ü I to.on 30. on ? 8.3 3 389.30 248.28 30.00 28.33 30.00 28.33 II ) VV 389.30 248.28 AC70 25.00 28.33 25.00 28.33 6584 - tT 1 _C_ 91.00 57.77 vv i 31.40 X 31.4QX . 6717 l IP AE2 0. 53* 0. 33* 4120 HF I AC 70 0. 50 0. 50 0. 50 0.50 1 2 AE2 0.64* 0.40* 4143 HF I AC70 0.45 0.45 0.45 0.45 671£ __LS II—L 1 IB AE2 1« QQ*_ 0.62-*-- 4186 _C LU— . AC7Q -fl.55 -0.55. 0.55 -Q-.55— l 2 AE2 1.00* 4199 HF I I l AC70 1.50 1.50 1.50 1.50 4267 C II 1 AC7 0 1.30 1.3 0 1.30 1.30 REGION KEY {REGIQNiFEFERENCEtEXPLANATIDN.) . n gr.TTc- 4340. __H I 1 -A A 50.00 54.00 50.00 54.00 1A, AE2 . PA=0 DEG.» 4 ARCSEC FROM STAR — A,B ON DIF. SCALES 62.00 54.00 62.00 54.00 2t AE2 « PA= 0 DEG., 0 ARCSEC FROM STAR 50.00 54.00 50.00 54.00 A-H7ÍU- PIMP PF ? 1 DBFS -52. 9-OX , 52« 9jCLX _ B, AW70, OTHER LOBE A 12.00 l 0.35 12.00 10.35 ML, CA70, MEAN LOBES AC 70 8.70 10.35 8. 70 10.35 P. CA70. PHOTQFLFf-TRI C SCAN OF WHOLE NEBULA VV 1 - . 90 X 4379 N III AC 70 0.40 0.40 0.40 0.40 IC 1747 (PK NO. 130+ 1 1) 4387 HF l AC 70 0.80 0.80 0.80 0.80 4471 HF I __A 3.70 3.55 -3W.Q -L.-8L5 1 AC70 4.00 4.00 1 VV 1 11.80X 11.80X BFGIN ir ?003 (PK NO. 161-14 1» C = Q±S)—I HYDROGEN L INE.S) -L. A A 4.30 4. 30 1 3.50 3.50 WAVE AVE O CORR I AVE C 2 A 3.40 3.40 3133 __Q LU 1—A— A 85.QQ 85^.00- 85.QQ B 5* 00- 21.00 _1 -L.2Û- -L.Zfl 27.00 27. 00 21.00 1 C AW70 1.00 1.00 AC70 15.00 21.00 15.00 21.00 2 A A 3.40 3.40 3299 _Q LLL AC70 4.30 4.3 Q - 4. 30_ .«-30 . _J AC 72 - 3-. QQ .3.00 III 1 8.40 7.30 8.40 7. l C AW70 2.50 2.75 2. 50 2.75 l AC7 0 6.20 7.30 6.20 7. 4647 1 AC70 1.70 l. 70 1.70 1.70 3340 _C LU 2L_ A AC 70 IQ. 70 10.7Q- 13.50 10.-7Q- 1(Ll7Q- 4649 AW70 1.40 A 13.50 4650 0 III 2 C AW70 1.40 1.40 2 B A 15.60 15.60 4657 ( FE III) 3 C AW70 0.83 0. 83 3346 —LU 2—A A_ 13.50 13.5Q -4657, CFE II ). 2 AC 7 0 0.80 Q.BQ 2 15.60 15.60 4658 III C AW70 0.83 0.83 2 A A 7.00 7.00 4658 IV AC 7 0 0.80 0.80 __2__B A— .10- .10- 4661 r Aw7n n. R8 7.00 7.00 4673 D II AC70 0.60 0.60 0.60 0.60 7. 7. 10 4676 0 II AC 70 0.0 0.0 0.0 0.0 IC 2003 (PK NO. 161-14 II IC 2003 (PK NO. 161-14 1) 601 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued _LC 2QÛ3 (PK Nn« 16L-1A II _LC 2149 (PK NQ. 166»1Q 11 WAVE IDENT N RG REF □ BS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I CORR I 4685 -iJF II A.C7Q 5Q.Q0 5Q.QQ 5Q.QQ 5Q.QQ 3671.Qp_H \ _L K Q.91X um* I A A 56.00 65.50 56.00 65.50 3673.00 H I 0.79 X 1.08X 1 B A 75.00 65.50 75.00 65.50 3676.00 H I 0.76X 1.03X -J VV I . 6Q.aQ-X 6Q. 8QX_ 3679.00 H 1 1.24X 1.69X 1 A A 4.90 4.90 3682.00 H I 1.39X 1.89X 2 ACTO 7.80 7.80 3686.00 H I 1.96X 2.66X _2 C—AW7Q_ 6.30 . 6.30 3691.00 H I 1.81X 2.46X 4713 HE I 2 AC7 0 7.80 7.80 3697.00 H I 1. 52 X 2.06X 2 C AW70 6.30 6.30 3703.00 H I 2.71X 3.67X 4 72.5 (NE IV ) 1 AC 70 0.70 0.70 3705.00 HE I 1.28X 1.73 X 1 C AW70 0.50 0.50 3711.00 H I 3.06X 4.13X (AR IV ) 1 A A 4.40 4.40 5.47 3721.00 H I 3.50X 4. 71 X .1 A.C7.Q._ 6.50. -6.50 5.47 3721.00 (S III 1 3.50X 4.71 X l C AW70 5.50 £.47 5.50 5.47 1 A 110.00 147.86 l A A 100.00 LOO.00 100.00 100.00 1 ACP 68.30 91.81 1 B A 100. 00 100.00 100.00 100.00 1 AH 1.00* 1.34* i AC70 100.00 100.00 100.00 100.00 47.40X 63.71X 1 0063 100.00 100.00 100.00 100.00 LA 98.00 131.73 1 VV 1 100.oox 100.oox 0 73.50 98.80 4922 HE I l C AW70 0.68 0.68 0.68 0.68 1 OS 1.00* 1.34* 4931 (0 III) 1 C AW70 0.46 0.46 0.46 0.46 1 VV 2 96.70X 129.98X 4944 -( FE vii l i C AW7Q Q.28 0.28 -0.28 0.28 3729 (0 II) A áH 0.28» 1.05» 400.00 346.67 400.00 346.67 l 29.OOX 38.95X 300.00 346.67 300.00 346.67 l OS 0.60* 0.81* -AC7Q.- 340.00 346.67 MO . QQ 346.67 3734.00 H I _Ji K 3 .-43 X_ 4.87X I VV l 529. 40X 529.40X 3750 H I 7.30 7.30 9.75 9.75 4972 (FE VI ) 1 C AW70 0. 32 0.32 0.32 0.32 4. 18 X 5.58X 5006 (o im _L_£ A 1360.00 1082.50 1360.00 1082.50 3770 H I 9.00 9.00 11.95 . 11^.95 .. 1 B A 980.00 1082.50 980.00 1082.50 5. 34X 7.09X l AC 70 990.00 1082.50 990.00 1082.50 9.20 12. 13 _1 0063 1000.00 1082.5Q 1000.00 1082.50 5.57X 7.34X l VV 1 1764.70X 1764.70 X 1 0 3.54 6.37 4.67 5015 HE I L C AW70 0.85 0.85 0.85 0.85 1 VV 2 4.30XA 5.67XA 5047 -HE I JL C AW7Q Q. 30 0. 30 0.30 0.30 -3jB 1 9 . OjQ HF I 1.3.3 X 1.74X 5191 (AR III) l SB AW70 0.22 0.22 0.22 0.22 A 12.00 7.78 15.64 10.14 5198 (NI ) l SB AW70 0.35 •0.3 5 0.35 0.35 ACP 5.32 7.78 6.93 10.14 5.2 Q.Q _LN I L 1 Sß-_AH7Q Q. 30 0.3 0 _ Q.30 - 0.30 6.13 X 7.99X 5292 l C AW70 0.50 0.50 0.50 6.03 7.78 7.86 5323 (CL TV ) 1 C AW70 0. 17 0.13 0. 17 8. 30X 10.82X 1 SR AU70 0. 09 ■ 0^1 3 -0.09- 3856.00 ST I T 0. 21 X —0.2XX l WB AW70 0.14 0.13 0.14 0.13 1 A 24.00 23.47 30.97 30.28 5335 l SB AW70 0. 11 0.11 0. 11 0.11 1 ACP 22.40 23.47 28.91 30.28 5346 _J C AW70 0-4? - 0^-36 _ 0.42 _ 0.36 -A K 19.70 X 25.42X L SB AW70 0.44 0.36 0.44 0.36 2 LA 50. 70 65.43 l WB AW70 0.22 0.36 0.22 0.36 1 0 24.00 30.97 —HE II _I C AW7Q 6.00 17-77 -6.00 17.77 _J VV 2 - 3. OOX 3.87X L SB AW70 5.90 17.77 5.90 17.77 15.00 19.24 1 WB AW70 6.30 17.77 6. 30 17.77 14.30 18.34 _1 VV 1 52.9a —l-X^-7 7 52.90 17.77 1 5-.-IPX 70.14X 1 A AE2 0.82* 0.82* LA 50.70 65.02 1 C AW70 0. 86 0.80 0. 86 0.80 0 14. 80 18.98 1 SB AW70 1 -08 0-80 1-08 0-80 23.-30X 29.88X 1 WB AW70 0.47 0.47 14.30 18.34 i A AE2 1.00* 1.00* 15.70X 20.14X 1 SR AW70 1.30 0.8 5 - 1.30— 0.85 14.BQ 18-9« 1 WB AW70 0.40 0.85 0.40 0.85 23.30X 29.88X 5592 1 C AW70 0.23 0.3 3 0.23 0.33 3926.00 HE I 0.20X 0.25X 1 SB AW70 0.34 0.33 0.34 0.33 3964.00 HF I 0. 89X 1.12X 1 WB AW70 0.43 0.33 0.43 0.33 3967 (NE III) 23.00 28.92 l C AW70 0.51 11.45 0.51 11.45 ACP 18.40 23. 13 1 SB AW70 1.80 11.45 - 1.80... 11-45 _K_ 5.54X 6. 97X 1 WB AW70 0.40 11.45 0.40 11.45 2 LA 22.40 28. 16 l VV 1 43.10 11.45 43. 10 11.45 2 VV 2 36.70X 46.14X —HE -IJ 1 SB -AH7.Q— 0-45 CL-49 0.45 0^ .3367 _tí I_ _2  23.QQ 28.9J- l WB AW70 0.53 0.49 0. 53 0.49 18.40 23. 13 1 C AW 70 2.50 1.33 2.50 1 .33 L2.20X 15.34X 1 SB AW7Q.. 0.98 1.33 0.98 1 *33 22.40 28.16 l WB AW70 0.51 1.33 0.51 1.33 2 17.80 22.38 l C AW70 1.60 0.82 1.60 0.82 2 36.70X 46.14X 1 SB AW70 0.48 —O-j-92 0.48 0.82 (NE III) _2 □_ 17.8Q 7?.36 l WB AW70 0.37 0.82 0.37 0.82 4026 HE I 1 VV 2 9. 70X 12.01X 1 C AW70 10.,90 21.77 10.90 21.77 4097 N II! 2 ACP 20.80 25.25 1 SB AW70 15.00 21.77 15.00 21.17 4101 H I _1 A_ 30.QQ 23.3Q 36.38 1 WB AW70 6.60 21.77 6.60 21.77 ACP 20.80 25.22 1 VV 1 54.60 21.77 54.60 21.77 1 LA 25. 70 23.30 31.16 28.25 1 VV 1 13.7Q 13.7Q 13- 70 13.7Q 1 *173 18.90 23.30 22.92 28.25 6563 H I 2 VV 1 313.70 313.70 1 0 le. 60 23.30 22.56 28.25 6563 (N II) 2 W 1 313.70 313.70 1 VV 2 46.70 X 56.63X 6717 _LS II 1 1 8 AE2 0.56* 0.56* 4340 H I_ _l fi- 52.00 42.72 59.32 4A.74 - ( S 11)1 R AE2 ACP 39.60 45.17 AN 49.30X 56.24X PEGICN KEY (REGION.REFERENCE.EXPLANATION) LA 63.80 72.78 REGION A I HI 73 44. 10 42.72 50.31 48.74 REGION R l 0 34. 80 42.72 39. 70 48.74 AE? ♦ REGIONS A AND B CN DIFFERENT SCALES ORF 40.00 -A2t?2_ 45.63 48.74 C, AW70» CENTER l VV 2 60.OOX 68.44X SB, AW70, STRONG BLCB (0 III) L A 6.00 6.81 WP, AW70, WEAK BLOB OPPOSITE REGION SB _2 à£P 39-J-6Q 44.92 1 AN 3. 70X 4.20X IC 2003 (PK NO. 161-14 l) 1 BDO 100.00* 113.43* _2 LA 63.80 72.37 0 3.72 4.22 5.51 VV 2 5.70XA 6.47XA ■ N IC 2149 (PK NO, 166+ IQ 1) C = 0.43 (HYDROGEN LINES) -A.47L- HE.-L- 7.60 _5.40 5.98 1 ACP 4.34 4.80 WAVE IDENT N RG REF OBS I CORR I AVE C 1 AN 7. OOX 7.74X 3587,00 hlE I _J K 0.55X Q.77X _1 Lfi 17.50X 19.35 X 3599.00 HE 0. 99 X 1.37 X l 0 4. 27 4.72 3613.00 HE I 1.17X l. 62 X l VV 2 6.30X 6.97X 3634.00 HF T Q.95X 1. 31X —4-645 III _2 VV 2 4.Q0XA 4.23.XA 3667.00 0.42X 0.57X 4645 N III VV 2 4.OOXA 4. 23XA 3669.00 0. 48 X 0. 65 X 4686 HE II VV 2 2.OOX 2.09X If 2149 (PK NO. 166+10 1) IC 2149 (PK NO. 166+10 1) 602 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued IC 2149 (PK NO. 166*10 1> _LC 2165 (PK N(1. ??1-1? 1) WAVE TDENT N RG REF OBS I AVE Q CORR I AVE C WAVE IDENT N RG REF OBS I CORR I AVE C 4961 __b I _L_ IQQ.-Qfl- IQQ.Qa. 1QQ.QQ 100.00 3444 0 III LA_ 57.50 108.59 1 ACP 100.00 100.00 3448 HE I KCA 0.44 0.44 0.83 0.83 l AN 100.oox 100.oox 3554.40 HE ! KC A 0.40 0.40 0.72 0.72 _J CPPA_ 100.00 100.00 1QQ.0Q 3560 O IV KCA 0.40 0.4Q 0.7? 0.72 l LA 100.00 100.00 100.00 100.00 3587.30 HE I KCA 0.25 0.25 0.44 0.44 1 LA54 100.00 100.00 100.00 100.00 3634 HE I KCA 0.47 0.47 0.81 0.81 1 HI 73 1QQ.QQ 1QQ.QQ- 1QQ.QQ 1QQ.Q0 3671 H I_ ..KCA Q,Q 0.0 _QjlQ_ Q.Q 1 100.00 100.00 100.00 100.00 3674 H I KCA 0.0 0.0 0.0 0.0 l ORF 100.00 100.00 100.00 100.00 3676 H I KCA 0.74 0.74 1.26 1.26 _J VV 2_ 100«oox. 100.oox 3679 H L_ KCA _0-t.9Q 0.90 U36. 1.36 (0 III ) l 140.00 162.74 137.10 159.37 3682 H I KCA 0.86 0.86 1.46 1.46 1 ACP 149.00 162.74 145.91 159.37 3686 H T KCA 0.99 0.99 1.68 1.68 L_ AN 190.OOX 186.06X -3691 tí I_ KCA 1.14 1.14 _U —1.93 1 CPDA 162.20 162.74 158.84 159.37 3697 KCA 1.46 1.46 2.46 2. 1 LA 162.00 162.74 158.64 159.37 3703 KCA 1.20 1.20 2.02 2.02 _1 LA54- 185.00 162.74 -1-8.U 1.7 159.37 3705 HE I KCA 1.27 -L.-2-7 ¿.13 2.13 l 0 166.00 162.74 162.56 159.37 3712.00 H I 1 KCA 1.80 3.01 l ORF 175.00 162.74 171.37 159.37 3722.00 H I 2 KCA 2. 81 4.68 .3 VV 2_ 156.70X 153.45X 37?? (S Till 2 KCA 2.81 4.68 1 410.00 424.47 397.31 411.33 KCA 22.90 38. 10 1 ACP 437.00 424.47 423.48 411.33 31.30 52.07 _1 A£L_ 541.QQX 524.26X 44.50 74-.Q3 l BOO 123.00* 119.19* i VV5 34.00 56.56 1 CPDA 489.80 424.47 474.64 411.33 3729.00 (O II) 1 KCA 14.00 23. 26 _J LA- 408.00 424.47 395.37 411.33 3734.00 J KCA 2.53 -2.53 l LA54 355.00 424.47 344.01 411.33 1 KCA 3.03 .31 4.98 7.10 1 ORF 447.00 424.47 433.17 411.33 1 A 5.60 4.31 9. 21 7.10 -J VV 2_ 599.90X 581.33X 3754.8Q Q ULL _J KCA 1.06 _1..Û.6 1^.74. 5411 HE I] 1 VV 2 2.30XA 2.04XA 3757.00 0 III 1 KCA 0.29 0.29 0.48 0.48 5554 (N II ) l VV 2 92.00 A 79.00 A 3759.90 0 III 1 KCA 3.89 3. 89 6.37 6.37 5876 HE I J □ 18.60 15.04 3771.00 H T J KCA 3.66 l ORF 18. 00 16.63 14.55 13.45 l A 4.00 3.83 6. 51 6.24 1 VV 2 13.30 16.63 10.75 13.45 3774.00 0 III 1 KCA 0.23 0.23 0.37 0.37 1 VV 2— —25— —2—2-5- -3782.40 HE.. 11 -2 KCA Q.?0 0.32 1 CAM 1.00* 0.72* 3782.40 1A. 2. IQ — 2« Q-5— 2.96 2.89 4724.00 (NE IV 1 AW70 1.55 1.65 4077 5 KCA 0.80 1.13 4725.00 (NE IV ) 1 KCA 0.48 0.51 4077 5 KCA 0.80 1.13 4741.10 (AR IV ) 1 KCA 5. 89 5.93 6.21 6.26 4Q7-L _5 KCA O.BQ . 13 J A 6.50 5.93- 6.85 -6.26 4077 0 11 5 KCA 0.80 1.13 .50 5.93 6.85 6.26 4077 ( s II 1 5 KCA 0.80 1.13 .60 5.93 4.85 6.26 4085 0.17 4097. 00 N III 1 KCA KCA 0.12 1.51 -Q.12 1.51 2.11 0.17 2.11 1 L (1A_ l MW MA .50 5. 60 5.93 5.93 6.85 5. -6.26.. 4101, 00 H I 1 KCA 23.80 25.22 33. 16 35.14 4816 1 KCA 0, 11 0.11 0. 0.11 1 A 26.50 25.22 36.93 li.t-14 4-861.00 d L_ _L K£A_ _LQÜ-i 00 100.00 10.0. 1QQ.QQ l LA 20.50 25.22 28.57 35.14 100, 00 100. 00 100.00 1 L MA 26.00 25.22 36. 23 35.14 AN 100. 00 X 100, oox 1 MW MA 19.50 25.22 27.17_ 3J>g4 CPDA 100. m loo.oo 100 m lao.QQ l VV5 35.00 25.22 48.77 35.14 l KA2 100. 100.00 100. 00 100.00 4103 III 1 KCA 0.43 0.43 0.60 0.60 1 LA 100. 100.00 100 00 100.00 412Q. AÛ Q_ . II _1 KCA 0.13 - 0.13 Û*. 0.18 _1_L 100. 100.00 100. m LQfl.QO. 4122. 10 HE I 1 KCA 0.27 0.27 0.37 0.37 1 VV5 100 00 100. 4129, 30 G II 1 KCA 0. 09 0.09 0.12 0.12 1 WYSE 100 .00 100. 00 A 4143. 90 HE I 1 KCA 0.45 - 0*45 0.61- 0.61 4893 (FF VIM -AWZ-Q- ,09- 0. 09 112 -Q.Q9 4156, 00 C III KCA 0.08 0. 11 4922.30 HE I KCA 0.77 0.76 4156, 00 0 II KCA 0.08 0.11 AW70 0.77 0.76 _4JL6JL 30 IK V 1 1. KCA.. 0.10 - 0.1Q n. 14 0-14 WYSE 4.00 A 3.91 A . 4169, 60 HE I 2 KCA 0.07 0.09 4930.10 (0 HT 1 1 KCA .33 0.30 0.30 4169, 60 O II 2 KCA 0.07 0.09 1 A W70 .28 0.30 0.30 4187. ¿O C III . KCA 0.36 - 0.36 .jjg'tL- 1 AH 7-Q_ Q.2Q— 0.20 _Q.12— 4200.00 HE II 1.22 1. 14 1.62 1.52 4944 (FE VII) 1 AW70 0. 10 0.10 0. 10 0.10 1.20 1.14 1.60 1.52 4959.00 (0 III) 1 KCA 395. 00 470.76 381. 02 454.10 1.00 1.14 1.33 1.5? 530. 470.76 5.11 24 454 «1-0— 4200 HF I 1 L MA 1.20 1.20 1.60 1 .60 1 AN 508. OOX 490.0 4227, 80 (FE V I 1 KCA 0.26 0.26 0.34 0.34 l CPDA 538, 80 470.76 567.9 454.10 4267. Ml C T T J KCA 0.46 - 0.46 0.60 _1 LA —36Q. ÜO 470.76 347.2 454.10 4314 II KCA 0.06 0.06 0.08 0.08 1 VV5 480. 463. 454.10 4340 I KCA 28.40 38.84 35.62 48.72 1 WYSE 420. 405. 46.00 38.84 57.7.0- 48.7? 497? LFF Vl_i J A-WJLO— CU. 50.80X 63.72 X 4987 AW70 ,06 0.06 0. 06 0.06 30.30 38.84 38.01 48.72 4992 A W7 0 0 ,40 0.40 0. 38 0.38 46.00 -38.84 57.70 48.72 5007.00 (D MI) KCA 1 IRQ -00 1 283.60 ■1.LL8- -00 1216.16 VV 5 43. 50 38.84 54.56 48.72 1 A 1280. 00 1283.60 1212. 75 1216.16 4363.00 ( n uni KCA 22.80 17.97 28.32 22.32 1 CPDA 1698. 00 1283.60 1608. 79 1216.16 -17.97 22^32 _J LA JLL50. .00 1283.60 l-Q&SL 58 1-2-L6.1-6— 1 AN 22.60X 28.07X 1 VV5 1110. 00 1283.60 1051, 68 1216.16 1 LA 8.20 17.97 10. 19 22.32 1 WYSE 1360. 00 A 1288. 54 A _1 L MA_ 21.00 17.97 26.08 22.32 _J A. hi 70 .18 CUi8_ Û. JJk 0.74 1 MW MA 15.80 17.97 19.63 22.32 5047 l A W7 0 . 10 0.10 0.09 1 VV5 19.00 17.97 23.60 22.32 5131 1 A W70 .26 0.26 0.23 _J KCA CL. 1 0 0. Lfl._ 0.1?. 0.1? -5-145 —A.W70- 0« ?4 .21 4379. 70 C III 2 KCA 0.12 0. 15 5151 1 AW70 , 06 0.06 0.05 4379. 70 MG I 2 KCA 0.12 0. 15 5158 1 AW70 , 16 0.16 0.14 43P7-, SP HP T _2 *r a -0.75 0.9? 5161 -J A.W7Q -06 0-06 0.04 43P7. III 2 KCA 0. 75 0. 92 5176 (FE VI ) 1 A W7 0 . 15 0. 15 0. 1 0.13 4396. II 1 KCA 0. 14 0.14 0. 17 0.17 5191 (AR III) l A W7 0 .22 0.22 0. 1 0.19 4448 —LI J KCA. 0. 06 D. 06 0.07 0.07 _jLN I L J AU70 4452 0 II 1 KCA 0.07 0.07 0.08 0.08 5270 (EE III) AW70 0.08 0.07 4471. 50 HE I l KCA 4.70 3.68 5.59 4.38 5277 (FE VII) AW70 0.08 0.07 _L .40 - 3.68 4. 04 ...4-.,38 5304 AW70 0.09 0.08 1 KA2 2.50 3.68 2.97 4.38 5309 (CA V ) AW70 0.2 0 0.17 l L MA 3.40 3.68 4. 04 4.38 5323 (CL IV ) AW70 0.12 0.10 1 MW MA 4.40 3.68 5. 23 4.38 5335 (FE VI ) AW70 0.13 0.11 4541.60 HE II l KCA 2.56 2.06 2.95 2.38 5342 AW70 0.05 0.04 1 A 1.80 2.06 2.08 2.38 5346 AW70 .13 0.13 0.11 _JLJ M.4 1.80 2.06 2.08. 2.38 5387 —MYSE .00 A l MW MA 2. 10 2.06 2.42 2.38 5402 1 WYSE 4563 l KCA 0.08 0. 08 0.09 0.09 5411 l AW7C 7.2 5 5.88 4570. ¿0 MG L— 1 KCA 0.58 . 0.58 0.66 0.66 1 MW MA 7.25 -5.88- 4575 1 KCA 0. 18 0. 20 1 WYSE 00 A 05 A 4608, 80 0 II 2 KCA 0.29 0. 32 5423 (EE VI ) 1 AW 70 09 A 07 A 4608. 8Q íFE III) _2 KCA (L.29 0. 3? -5-494 . (FE VI ) A A W7Q 12 A 09 A 1.65 1.82 (CL III) l A AE2 80* 62* 4. 70 5. 20 1 AW70 62 48 -1.7Q —5-537_ i CL-LLU I A -AE2 00* 77* 2 LA 5.70 6.30 l AW70 64 4640.60 N III 1 KCA 3.'46 3.82 (0 I ) 1 WYSE 00 A 63 A _2 M .70 5,18. 5592 Q— JLY J AW7Q -L3 JD A W70 3. 70 3.84 4.08 4.24 5754 ( N II) 1 A W70 30 1.30 0.9 0.94 1 L MA 4. 70 3.84 5. 18 4.24 5801 C IV 1 AW70 65 0.65 0.4 0.46 1 MW MA 3.50 3.84 3,86 4.24 5806 HE II 1 AW7Q 05 .A .0^0 4649 a I IT 3 A W7 0 0.92 L. 01 5872 C IV l AW70 0. 0.48 0.33 4649 C TI 3 AW7C 0.92 1.01 5875 HE 1 l A W7 0 17. 17.45 12.11 4649. C III 2 KCA 0.75 0.82 1 MW jjA _ 17. AO— 17.A5 -J12.11- AW70 0.92 1.01 WYSE 20. 13.8 2 LA 5.70 6.26 6018 1 WYSE 3. 1.9 4649.2Q Q U_ 2 KCA 0.75 0.82 6085 1 MW MA Li 1.80 1. 1 1.17- 4658.80 C IV 2 KCA 0. 58 0.63 6161 l WYSE 1 A W70 0.62 0.68 6178 1 WYSE 00 A 4659.8Ç (PE HU 2 KCA 0.58 0.63 6300 _JLQ I L 1 MW MA 40 4686.00 - HE I I 41.00 46.68 44. 32 50.46 1 WYSE .00 A 7.40 4.2 4.51 60.00 46.68 64. 86 50.46 6311 ( S III) l WYSE .00 A 3.0 49.OOX 52.97X 6363 (0 J L 1 WYSE .00 A 2,4 38.00 46.68 41.08 50.46 6364 0 MW MA 3. 1.8 46. 40 46.68 50. 16 50.46 6548 (N II ) 1 WYSE 50. 28. 5 48.QQ -46.68 51.89 50.46 6563 2 VV5 310. 176. 3 7.63 8. 15 1 WYSE 470. 267 7.20 7.69 6563 II ) 2 VV5 310. 176. AW7Q .¿Q 7.69 6594 ID A MYSE 1QQ, 56. 56 A 2 LA 5.90 6.30 6678 HE I 1 MW MA ,40 54 1 L MA 7.20 6.90 7.69 7.37 6713 ( S II) 2 MW MA ,30 10 1 MW MA 6.60 6.90 ,-Q5_ 7.37 6717 (S II) 1 B AE2 .60* 33* KCA 7.63 8. 15 1 B AE2 .00* 2 A 7.20 7.69 2 MW MA .30 2 AW70 -X.20 7.69 LA 5.90 6.30 REGION KEY (REG ION,REFERFNCE,EX PLANATI ON) 4724.00 (NE IV ) 1 KCA 0.67 0.71 A, AE2 , REGIONS A AND B ON DIFFERENT SCALES IC 2165 (PK NO. 221-12 1) IC 2165 (PK NO. 221-12 1) 604 © American Astronomical Society • Provided by the NASA Astrophysics Data System TABLE 8—Continued 197 6ApJS. . .31. _LC 2165 tPK NQ. 221-12 1L. rr I PK NCI. 1 7^ + 34 i \ L, M& LICK OBSERVATIONS WAVE N RG REF OBS I AVE 0 CORR I AVE C MW, WA MOUNT WILSON OBSERVATIONS 3829 I LAC D _I.^2 1*42 L»59 . 1 A 6.20 7.40 6.93 8.27 IC 2165 (PK NO. 221-12 1) 1 LACD 8.60 7.40 9.61 8.27 _i vv 2_ 6.70 X . 7.V?X 1 66. CO 65.30 73.44 72.66 1 KA2 54.00 65.30 60. 72.66 -RfÇIN IC 2V48 (PK NO. 285-14 1) QtPe (RAPIQ-H BETA) 1 LACD 75.90 9^45 72jA6 96.70XA 107.60XA WAVE IDENT N RG REF CORR I 22.00 24.41 3727 AE. *22- LACD 22.00 24.41 3868 (NE III) l AF 106.00 111.15 2 VV 2 40.00 XA 44.39XA 3970 (NE III) 2 AF 37.00 38.60 2 LACD 22.00 24.41 3970 F* — I 2_ _Af_ 37.00 . ..38» 6.Q-. _2 VV 2 AQa.QQXA— ^.39XA 4101 l 24.00 24.00 24.88 24.88 3964 HE I 1 LACD 1.66 1.66 1.83 1.83 4340 H I I AF 42.00 42.00 43.04 43.04 3967 (NE III) 2 A 30.00 33.02 4363 _Lc im i .AF 14«QQ 14.QQ- 14. 33 14.33 J LACD_ 38. 70 -38.70 42.59 4Z..5.9 4471 HE I 1 AF 4.00 4.00 4.08 4.08 2 VV 2 46.70X 51.40X 4686 HF II 1 AF 33.00 37.30 33.28 37.61 2 A 30. 00 33.02 _L_ WB 41.60 _3.7. 3Q_ 41.95 37.61 _2 yy_2_ 46.7QX -5-1.4QX 4712 (AR IV ) 2 AF 5.80 5.8 3970 (NE III) LACD 38. 70 38.70 42.58 42.58 4740 (AR IV ) 2 AF 5.80 5. 83 4009 HE I LACD 0.37 0.37 0.41 0.41 -4.861 AF 100*00 ..,100.00 . IQOtOO IQOtOO 4026 HE I ..,5.60 4,16 (¿.±12 1 100.00 100.00 100.00 100.00 1 LACD 2.72 2.97 4959 (0 11 I ) 1 390.00 390.00 388.48 388.48 l VV 2 8.70 X 9.51 X 5QQ7 _LQ IIP 1 1210.QQ 1205.00 1202.94 1197.97 .4058- 0 LACD 0-25 . .0.27 1200.00 1205.00 1193.00 1197.97 ( S II ) 2 A 3.90 4.24 1 LACD 0.44 0.48 -END _1C 2445 (PK NO. 285-14 1L. .AOJ 6— _US LI L 2 ■ A>90 4.24 LACD 0.10 0.10 0. 11 0.11 4097 N III LACD 1.00 1.00 1.08 1.08 4101 H I A 25.00 —24.83 ¿7. IQ 26.92 BEGIN IC 2501 (PK NO. 280 -51) C = 0.55 (RADIO-H BETA) l LACD 25.00 24.83 27. 10 26.92 1 PTP 24. 50 24.83 26. 56 26.92 IDENT N RG RFF AVF C _J VV 2 39.3QX 42 « 60 X 4861 H I l WB 100.00 100.00 100.00 100.00 4120 HE I l LACD 0.50 0.50 0.54 0.54 5007 (0 I II ) 1 WB 850.00 850.00 816.50 816.50 4143 HE I l LACD 0. 35 0.35 0.38 0.38 4162 _Q LAC CL 0-25 0.25 0.27 0.27 IC 2501 (PK NO. 280 -5 1) 42.00 44.38 42.06 44.20X 46.70X 37.20 39.31 1 MA62 36. 30 39.80 38. 36 42.06 BEGIN IC 2553 *( PK NO. 285 -5 1) C = 0.23 (RADIO-H BETA) 1 PTP 43.70 39.80 46.18 42.06 -J VV 2_ . .5 0. 70X WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 1 A 8.80 9.28 11.07 4861 H I l WB 100.00 l 00.00 100.00 100.00 l AN 17.30 X 18.24X 5007 ca -U- i ) i m— 1320.-00 1320.oa 1297. 99 1297.99 -l LACD— 13.80 -14-.55 l PTP 8.91 10.50 9. 39 IC 2553 (PK NO. 285 -5 1) 1 VV 2 18.OOX 18.97X 1 Am.-. a.Afl 0.72 1 A 4. 30 4.49 1 AN 14.OOX 14.60X BEGIN TO 2621 ( PK NO. 291 -4 1) C g 0.0 (NO CAI Cl II. AT I ON ) _J KA7 4.50 4.69 l LACD 6.80 7.09 WAVE IDENT N RG REF OBS I AVE O CORR I AVE C l VV 2 13.30X 13.87X 6563 jd i i hf^7 i. not 1 .OOtA -I LAUD- L.Û8 LULL- 6584 (N II ) 1 HE67 0.50*A 4640 N III LACD 1.08 1.08 1.11 l.ll 4659 LACD 0.41 0.41 0.42 0.42 END IC 2621 (PK NO. 291 -4 1) 4685 HF II LACD 1.20 1.20 1.22 1.22 VV 2 13.30X 13.55X 4711 (AR IV ) LACD 2.21 2.21 2.25 2.25 471 3 HE I LACD.. 0.45 Q. 45 Q.46 Q.46 BEGIN IC 3568 (PK NO. 123+34 1) 0.18 (RADIO-H BETA) 4740 (AR TV ) KA2 3.90 3.00 3.95 3.04 LACD 2.11 3.00 2. 14 3.04 IDENT N RG REF OBS I AVE O CORR I AVE C 4861 H I 100.00 100.00 100.00 100.00 3354 HE I 1 LACD 0.40 0.47 100.OOX 100.OOX 3443 NE II 2 LACD 1.10 1.28 l CPDA 100.00 1 CO.00 100.00 100.00 3443 _0 LU 2 LACD 1-10 1.28 1 KA2 100.00 100,00 100.00 100.00 3447 LACD 0. 30 0.30 0.35 0.35 l LACD 100.00 100.00 100.00 100.00 3604 LACD 0.20 0.20 0.23 0.23 1 MA62 100.00 100.00 100.00 100.00 3613 HE I 1 LACD 0.40 0.40 0.46 0.46 1 PTP 100.00 100.00 100.00 100.00 3634 l LACD 0. 50 0.5 0 0.57 0.57 VV 2 100.OOX 100.OOX 3663 1 LACD 0.50 0.50 0.57 0.57 4922 HE I LACD 1.46 1.46 1.45 l .45 3664 _1 LACD 0.50 0.50 0.57 0.57 4959 (0 III ) 500.00 385.30 495.64 381.94 3666 l LACD 0.50 0.50 0.57 0.57 1 AN 282.OOX 279.54X 3667 l LACD 0.50 0.50 0.57 0.57 1 CPDA 371.50 385.30 368.2b 381.94 3669 1 LACD 0. 70 0.70 0.80 0.80 _1 KA2 350.00 385.30 346.95 381.94 3671 l LACD 0.70 0.70 0.80 0.80 1 LACD 359.00 385.30 355.87 381.94 3673 1 LACD 0.60 0.60 0.68 0.68 1 DTP 346.00 385.30 342.98 381.94 3676 1 LACD 0.59 0.59 0.67 0.67 —1 VV. 2_ 253.30X 251.09X 3679 l LACD 0. 0.73 0.83 0.83 4972 73 1.28 1.28 1.27 1.27 3682 l LACD 0.82 0.82 0.93 0.93 5006 1400.00 1 171.75 1381. 84 1 156.55 3686 1 LACD 1. ,.10- -Ute 1,25 -13- 754.OOX 3691 1 LACD 1.09 1.09 1.24 1.24 l BE 1000.00* 987.03* 3697 1 LACD 1.35 1.35 1.53 1.53 1 CPDA 1148.00 1 171.75 1133.11 1 156.55 3703 1 LACD 1. 19 1.19 1.35 1.35 1 LACD 1069.00 1 171.75 1055.13 1 156.55 3705 HE I l LACD 1.19 1.19 1.35 1.35 PTP 1070.00 1056.12 11 3711 H I 1 LACD 1. 80 1.80 2.04 2.04 VV 2 800.OOX 789.62X 3721 _L§ LULL 2 LACD 2.72 3.08 5017- BE 2.05* 2.02* 3721 2 LACD 2.72 3.08 5191 (AR III) 1 AW70 0.30 0.30 0. 29 0.29 3726 1 A 9.50 10.75 5411 HE I I l VV 2 10. 00 10.00 9.50 9.50 _1 LACD 7.90 _ 3* 9.4 5517 (CL III) 1 A F2 1,00» 0.94* l VV 2 U.30X 12.79X 5537 (CL III) l AE2 l. 00* 0.94* 3729 (0 II ) l LACD 4.00 4.53 5801 C IV 1 AW70 3.00 3.00 2.76 2.76 3734 __±L -I LACD 2 *.35 2*25- 2« 66 2.66 5812 C IV 1 A W70 1.80 1.80 1.65 1.65 3750 l LACD 3.40 3.40 3.84 .84 l A W70 14.00 17.30 12.81 15.83 3754 III 1 LACD 0.50 0.50 0.56 .56 1 MA62 18.60 17.30 17.02 15.83 3757 III 1 I ACD 0.84 0-84 0.95 0.95 _1 VV 2 -13.30 17.30 17.66 15.83 3 760 1 LACD 0.75 0.75 0.85 0.85 6300 l VV 2 10.70 10.70 9.48 9.48 3762 0 LACD .27 0.27 0.30 0.30 6563 1 MA62 338.00 338.00 294.66 294.66 3770 1 LACD .04 4.04- -4.55 4.55 _2 VV. 2_ 140.00 122.05 1 LACD 5.00 5.61 6563 (N II ) 2 1 VV 2 8.OOX 8,98 X END (PK ND. 123+34 1) IC 3568 (PK NO. 123+34 l) 605 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. TABLE 8—Continued BEGIN IC 4121 (PK NQ. 3Q4 _4 11 C.. =._0«69„tffADIQ-H BETA) _LC 4593 (PK NQ. 25+40 I) WAVE IDENT N PG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C _5l96,1.. H I I WB 1QQ.QQ 100.00 100.00 1Q0.2Q. 4471 Hg I _l A 6.40 6.30 6t^¿ 6.*? 5007 (O III» I WB 1550.00 1550.00 1473.75 1473.75 1 AN 7.00X 7.13X 1 PE CEBA 6.30 6.30 6.42 6.42 END IC 4191 (PK NQ. 304 -4 1) 1 PG CEBA 6.20 6.30 6.32 6.42 VV 2 15.50X 15.79X 4686 HE II 1 VV 2 11.50X 11.60X -4861 H I 1 a LQ.Q-a.QO 100.00 100.00 100.00 BEGIN IC 4406 (PK NO. 319+15 1) 0.28 (RADIO-H BETA) 1 AN 100.OOX 100.OOX 1 PE CEBA 100.00 100.00 100.00 100.00 WA VfL . IDENT N RG REF QB.S—I AVE Q CORR- I AVE C 1 PG CEBA 100.00 00.00 100.00 100.00 3 72 7 -9S IC 4634 (PK NO. 0+12 1) 54.10 65.26 30. CO 36. 19 9. 10 10.-57 100.00 100.00 100.00 100.00 BEGIN IC 4642 (RK NO. 334 -91) C = 0.12 (RADIO-H BETA) LA 100.00 100.00 100.00 100.00 ■Qn63- i no.no ino.on i on.on i no-fin WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C VV 3 100.00 XA 100.00 XA 3132 P III 1 AWR 57.50 57.50 65.40 65.40 VV 5 100.00 100.00 100.00 100 .00 -3203 HE- I I -J AWR 70.00 -74.20 _L0 III) 1 A -4X0. QO 381.33 455.58 3*9.63 3312 0 III 1 AWR 11.00 12.32 LA 280.CO 271.41 3340 (NE V ) 2 AF 55.00 61.48 VV 3 870.OOX 843.30X -3X40 0 MI 2 AT 55.00 VV 5 —3-9.4. 00 381.91 1 AWR 13.00 13.00 14.53 14.53 (0 I I I ) l LA 1030.00 l 294.33 982.92 l 235.17 3345 (NE V 1 AWR 67.00 67. 00 1Rfl.7^ 74. 86 74.86 1 0D63 1413.00 1 294.33 1348.41 1 235.17 3425 (NE V _2 AJE 170.QQ- 1900.OOX 1813. 15X AWR 143.00 143.00 158.75 158.75 1 VV 5 1440.00 1374. 18 3428 0 III AWR 4.50 4.50 4. 99 4.99 6563 I 2 VV5 415.00 254.78 3440 0 III AF 170.00 188.52 6563 II ) 2 515.00 316. 17 3444 0 III AWR 16.30 16.30 18.07 13.07 VV 5 415.CO 254.78 3703 H I AWR 2.80 2.80 3.05 3.05 VV 3 515.00 316.02 —2212— __H I AWR 3. QO 2*120— 3.26 3.26 3 721 H I l AWR 4. 00 4.35 IC 4732 (PK NO. 10 -6 1) 3726 (0 II) 1 AWR 4.40 4.78 —3.728 _LQ I I ) 1 AWR 4-50 4.89 3734 1 AWR 3. 40 3.40 3.69 3.69 3750 1 AWR 3.80 3.80 4. 12 4.12 BEGIN IC 4776 (PK NO. 0.04 (RADIO-H BETA) 3754 _1 AWR 4. 90 4.90 5.31 5.31 3759 0 III AWR .80 4.80 5.20 5.20 WAVE IDENT N RG REF OBS I CORR I AVE 3770 H I AWR 6.50 6.50 7.03 7.03 3187 HF I l AKI 1.60* 1.67* 3797 _H I AWR 7.80 7.80 8.42 8.42 3614 HF I __L AKI 0.30* 0.31* 3835 1 AWR 13.50 13.50 14. 54 14.54 3634 HE I l AKI 0.60* 0.62* 3868 CNE III) l AF 6.7.00 61.50 71.94 66.04 3671 H T l AKI 0.70* 0. 72* -I AHR 56. QQ 61.50 60. 13 -66.Q4 3673 _y L— _L AKI 0.7Û* Q. 72* 3889 2 AWR 16.40 17.58 3676 L AKI 1.00* 1.03* 3889 HE I 2 AWR 16.40 17.58 3679 1 AKI 1.00* 1.03* 3967 (NE III) 1 AWR 11,OO- ll.00 11.73 -11.73 3682 _1 AKI 1. 10» 1.13* 2 AF 29.00 30.91 3686 l AKI 1.23* 1 AWR 18.00 19. 18 3691 L AKI 1.30* 1.34* 3970 (NE MI) 2 AF 29.00 3Q.91 —3697_ -X AKI 1.50» «-5.4.* 4026 HE II L AWR 2.90 2.90 3.08 3.08 3704 HE I AKI 2.10* 2.16* 4068 (S II ) 1 AWR 2. 30 2.30 2.43 2.43 3704 H I AKI 2. 10* 2.16* 41Q1 H I 1 A£ 41.00 38.50 43.27 40.63 3712 _Ü I— AKI 2 . QQ* 2.06* AWR 36.00 38.50 37.99 40.63 3722 2 AKI 3.50* 3.60* 4199 HE II AWR 3.60 3.60 3.77 3.77 3722 ( S III) 2 AKI 3.50* 3.60* 4267 C II AWR 1.80 1.80 1.88 1.38 3726 _LQ II X X AKI 22.00* 22.61* AF 47.00 49.00 48.76 50.83 1 EV II.CO A 11.31 A AWR 55.00 49.00 57.06 50.83 (0 II) l AKI 11.50* 11.82* WB 45..QQ— 49.00 46.68 50.83 X EX- 3.00 A -3t.QS_A. AF 23.00 16.67 23.82 17.26 3734 1 AK I 2.40* 2.47* AWR 16.00 16.67 16. 57 17.26 3750 1 AKI 3. 50* 3.60* 11.00 16.67 11.39 17.26 3771 AKI 4. 30* 4.41* 4541 HE I I 5.40 5.40 5.53 5.53 3797 1 AKI 5. 30* 5. 44* 4685 HF II 142.00 112.50 143.81 113.93 3819 HF I 1 AKI 1.50* I. 54* AWR .112.QQ 112.5Q 113.42 113.93 3835 __H I— _L AKI 6.90* 7.Q7* 1 WB 83.50 112.50 84.56 3889 I 2 AKI 13.00* 13.30* 2 AF 22.70 22.95 3889 HE I 2 AKI 13.00* 13.30* 1 AWR 15.00 15.00 —15.16 . 15.16 -396.7_ INE MIX J AKX . 18.QQ* 18. 39* 4724 (NE IV ) 1 AWR 3.80 3.84 3970 AKI 14.00* 14. 30* 4725 (NE IV ) 1 AWR 3.80 3.84 3979 EV 0.90 A 0.92 A 474Q (AR IV ) 2 22.70- -22.90 AE 12.00 12.00 12.10 12.10 3868 (NE I I I » EV 16.00 A 16.38 A 100.00 100.00 100.00 100.00 3888 H I EV 6.00 A 6. 14 A IC 4642 (PK NO. 334 -9 1) IC 4776 (PK NC. 607 American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued IC 4776 (PK NO. 2-13 1) _1£ 4846 (PK NO. WAVE IDENT N RG REF OBS I CORR I WAVE IDENT N RG REF OBS I CORR I AVE C 3888 HE I 2 EV 6.00 A 6_. 14 4 3967 _2 VV5 5-5l»..QQ 55.00.. 3967 (NE III 1 I EV 10.00 A 10. 22 A 4009 HE I l PG AKI 0.20 0.20 0.20 0.20 3970 H I 1 EV 9.00 A 9. 19 A 4026 HE I 1 A 4.30 3.25 4.30 3.25 4026 HE I 1 AKT 0.20* Q- 20* I PG AKI 2.20 3.25 2.20 .3*25. l EV 0.70 A ,71 4068 ( S II ) 2 A 4.70 4.70 (S II ) l AKI 0.30* ,31* 1 PG AKI 1.40 1.40 1 EV 1.00 A ,02 A 4076 (S II ) 2 4.70 4.70 ( S II) 1 AKI 1.00* .02* 1 PG AKI 0.60 0.60 0.60 0.60 l EV 0.30 A .31 A 1 A27.00 25.60 27.00 25.60 LLL 1 AKI 0.20* .20* -1 PG AKI 24.20 25.6Q 24.20 25.60 l AKI 17.30* 17. 61* 4121 HE I 1 PG AKI 0.50 0.50 0.50 0.50 l EV 21.00 A 21. 38 A 4144 HE I l PG AKI 0.50 0.50 0.50 0.50 4121 HE . !... AK.l 0.30» CL. 11* 43-4.0... _H I_ -l 49.00 _£lL 11_ _42. 4- 47.33 . 4143 HE I AKI 0.40* 41* PG AKI 46.00 47.33 46.00 47.33 4227 ( FE AKI 0.20* 20* 1 47.00 VV 5 47.33 47.00 47.33 4340 _J EV_ 14.00 A 17 A 43.6.3-.. _U3 LULL J 1.4«_Q.Q_. 12.77 0_ 14.00- 12.77 (0 III) AKI 5.70* 77* 1 PG AKI 7.70 12.77 7.70 12.77 1 EV 9.00 A 11 A 1 VV5 16.60 12.77 16.60 12.77 HE II 1 AKI 0.60» ill* 4387 -JL..PG. , AKI_ ■ 10- 1.10 .10 L.1Q,- 4387 HE I l EV 0.20 A 4471 HE I 9.40 7.55 9.40 7.55 4471 HE I 1 AKI 4.60* 64* PG AKI 5.70 7.55 5.70 7.55 _J BL_ 4.00 A 08 A 4650 r. in PG AKT 0.30 0. 30 4571 MG I AKI 0.20* 20* 4650 2 PG AKI 0.30 0.30 4640 N III AKI 0.20* 20* 4658 1 PG AKI 0.20 0.20 0.20 4650 _£ LLL _2 AKI 0.30* 30». 4686 1 PG AKT 0.60 0.60 0. 60 4650 AKI 0.30* . 30* 4711 (AR IV ) 2 PG AKI 2.00 2.00 4658 l AKI 6.70* .73* 4713 HE I 2 PG AKI 2.00 2.00 _J EV Q.. 50. A 4740 (. Afi .IV) 1 PG AKI 1.60. l . 60 2 AKI 0. 70* 100.00 100.00 100.00 100.00 2 EV 0.30 A l PE AKI 100.00 100.00 100.00 100.00 2 AKT 0.70* -1. PG AKI 10Q..QQ- 100.00 1QQ.QQ 1Q0.QQ 0.30 A 30 A 1 100.00 100.00 100.00 0D63 100.00 AKI 0. 50* 50* 1 VV5 100.00 1 00.00 100.00 100.00 EV - Q . -Q A_ 4 A Q.O 1 PG AKI 1.90 1.90 4861 l EV 100.00 A 100. 00 A 1 360.00 373.50 360.00 A 373.50 4881 (FE III) l AKI 0.40* 0. 40* 1 PE AKI 424.00 373.50 424.00 373.50 4921 HF I _1 AKI 1 . 20* 1 PG AKI 280.00 3 73.5,0 . 280.00 373.50 l EV 0.40 A 430.00 373.50 430.00 373.50 4958 ( P Ill) 1 EV 240.00 A 239 970.00 1176. 75 970.00 1176.75 5006 ...(O.. III) J EV_ 640.00 A 638 1089.00 l.Ca.9^00- 5015 HE I 1 EV 1.00 A l. I 0063 1238.00 1176.75 1288.00 1176.75 5754 IN II) 1 EV 1.00 A 0. l VV5 1360.00 1176.75 1360.00 1176.75 5-8.75 . HE .1 J EV- 77.00 A 75. -J A AE2 Q.54Jfe- 0.54* 6242 0.0 A 0.0 0 A 0.0 5537 (CL III) l A AE2 1.00* 1.00* 6253 0.0 A 0.0 0 A 0.0 5876 HP I 1 VV5 174.OOX 174.OOX 6300 -LD I— 6.QQ A 84 A 6563 _LN LL -L -2 VV.5- 604.00 604.00 6312 (S III) 1 EV 3.50 A 6563 I VV5 604.00 604.00 6363 (P I ) 1 EV 1.00 A 6717 (S II ) B AE2 0.58* 0.58* J EV- 37.QO A 35.90 A.. . _ 6X30— -LS II ) B AE2 1.00* 1.00* 6562 H I 767. 00 A 743. 6583 (N II) 156.00 A 151. 27 A REGION KEY (REG I ON,REFERENCE,EXPLANAT ION) 6618. HE I 41.00 A 32. 71 A A. AF2 . REGIONS A AND B ON DIFFERENT SCALES 6716 ( S 11 ) 5.00 A AKI PHOTOELECTRIC OBSERVATIONS 6730 (s 11 ) 15.00 A AKI PHOTOGRAPHIC OBSERVATIONS IC 4776 (PK NO. IC 4846 (PK NO. 27-9 l) BEGIN IC 4846 (PK NO. 27 -91) C = 0.0 (HYDROGEN LINES) BEGIN IC 4997 (PK NO. C = 0.52 (HYDROGEN LINES) WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDF NT N RG REF OBS I AVE 0 CORR I AVE C 3187 HF l l PG AKI 3.00 3.00 3.00 3.00 3 186. 29 HE I l AK2 0. 82 0.82 1.41 1.41 3614 HE I 1...ELG A-K.1- 0.40 0.40 0.40 Q.40 _32 Q2, 40 NE II _) K-A 0.05 Q.05 Q. Q9... 3634 HF I 1 PG AKI 0.40 0.40 0.40 0.40 3216. II 0.05 0.05 0.08 0.08 3676 H I 1 PG AKI 0.70 0.70 0. 70 0.70 32 32. III 0.03 0.03 0.05 0.05 36.79- H I 1 PG AKI. 0.80 0.80 0.80 0.80 3236 0 » 05 0.05 0.08 0.08 . 3682 1 PG AKI 0.90 0. 0.90 0.90 3239. 10 0 III 9 0.05 0.08 3686 1 PG AKI 1.10 1.10 1.10 1.10 3239. 10 ( FE III) 0.05 0.08 3691 1 PG AKI It 10 1. IQ U1Q ItLQ 326.0« 70 0 III 0.02 0.03 3697 H T 1 PG AKI 1.40 1.40 3278, 70 si in 2 KA 0.04 0.07 3703 H I 2 PG AKI 1.90 1.90 3278, 70 K III 2 KA 0.04 0.07 3703 H£ _L_ 2 PG AKI !..92 1.9Q 3297, 20 HE I— J AK2 0.07 0.12 3712 I 1 PG AKI 1.70 1.70 3301. 47 O I I 0.04 0.04 0.07 0.07 3722 I 2 PG AKI 2. 50 2.50 3306, 10 0 II 0.04 0.04 0.07 0.07 3722_ -LS LLU ? PG AKI 2.50 -2* 3335. 02 NE II 0.03 0.03 0.05 0.05 (0 II) 1 A 40.00 40.00 3342 ,58 (NE III) AK2 0.43 0.43 0.70 0.70 1 PG AKI 18.00 18.00 3346 KA 0.03 0.03 0.05 0.05 (0 II ) 1 PG AKI 7.90 7.90 3354 AK2 0.09 0.09 0. 15 0.15 3734 l PG AKI l. 70 1.70 l. 70 1.70 3387. 19 S III 0.04 0.04 0.06 0.06 3750 1 A 4.90 3. 85 4.90 3.85 3399 0.03 0.03 0.05 0.05 1 PG AKI 2.80 3.85 2.80 3.85 3443. AK2 Ot 03 0.03 -Qt Q?... 0.05 4. 10 3.90 4. 10 3.90 3447. 54 HE I 1 AK2 0. 12 0.19 1 PG AKI 3.70 3.90 3.70 3.90 3451 09 0 III 2 AK2 0.02 0.03 379JL- _1 A— 7.50 6.00 7.50 6.00 3451. 09 HF I _2 AK2 Ot 02 l PG AKI 4. 50 6.00 4.50 6.00 3453. 00 HE I 1 AK2 0.03 0.03 0.05 0.05 3819 HF I 1 PG AKI 1.20 1.20 1.20 1.20 3456, 80 HF I 1 KA 0.03 0.03 0.05 0.05 3835 _jy i— 8.80 8.15 8.80 8.15 3460 _Q AK2 0.05 0.05 O.OB 0.08 7.50 8.15 7.50 8.15 3465, I 2 AK 2 0.05 0.08 (NE III) l 87.00 76.00 87.00 76.00 3465. III 2 A K2 0.05 0.08 1 PG.AKI. 65.00 76.00 65.00 76.00 3.±UL 30 0 III J AK2 0.05. 0.05 0» 08 0.08 62.00 62.00 3471 HE I l AK2 0.03 0.03 0.05 0.05 21.00 21.00 3478 ,79 HE I 1 AK2 0.04 0.04 0.06 0.06 1 6. 00 16. on 8481 ,35 K TIT AK2 0.03 0.05 3 VV5 62.00 62.00 3481 , 35 NE II 2 AK2 0.03 0.05 2 PG AKI 16.00 16.00 3487, 55 HE I 1 AK2 0. 08 0.08 0.12 0.12 -3 VV5 6?. 00 62.00 3468, .LQ Q LI— I AK2 Q-..Q2 -0.02 Q..Q3. Q.Q3 (NE HI) 2 42.00 42.00 3497. 29 S III l AK2 0.03 0.03 0.05 0.05 1 PG AKI 19. 70 19. 70 3498, 71 HE I 1 AK2 0.09 0.09 0. 14 0.14 2 VV 5 55. 00 55. 00 3512 , HE I J AK2 0.09 Q. 09 0. 14 0.14 42.00 42.00 3517. 54 AK2 0.02 0.02 0.03 0.03 16.00 16. 00 3530, 61 HE I AK2 0. 12 0.12 0. 18 0.18 IC 4846 (PK NO. 27 -9 1) IC 4997 (PK NO. 58+10 1) 608 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. TABLE 8—Continued _LC 4Q97 (PK MO. Sfl+I 0 11 _JLC 493.7 (PK NQ. 58-HQ-l) WAVE I0FNT N RG REF AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 3540.64 NF I I _1 AK2 0.06 Q«_Q3_ Q.Q9 .3838,10 S ITT AKZ 0.04 0*06-. 3554.40 HE AK2 0. 14 0.14 0. 21 0.21 3838110 HE I AK2 0.04 0. 06 3561.19 NF I I AK2 0.04 0.04 0.06 0.06 3838.10 MG I AK2 0. 04 0.06 3562.5Q HF..I —KA. 0.04 .0.04 Q.Q6 . 0.06 3 842.95 0 UL_ AK7 0.Q2 Û..Q3- 3564 0 0.04 0.04 0.06 0.06 3849 0.02 0.02 0.03 0.03 3568.59 NF I I l AK2 0.04 0.04 0.06 0.06 3852 0.02 0.02 0.03 0.03 3587.30 HF I _L A.&2 . 0.18 0.18 Q. 27 0.27 3853.88 SI IL_ 0.02 Q. 02 0.03 0.03 3613.67 HF I 1 AK2 0.20 0.20 0.30 0.30 3856.06 O II 2 AK2 0.10 0. 14 3634.29 HE I l AK2 0.25 0.25 0. 37 0.37 3856.06 SI II 2 AK 2 0.10 0.14 3654.06 S I ! 1 AK2 Q.O . ..Q.fl. . .3.858 . O AK2 Q.Q2 . CU QZ Q. 03 0.03 3659.30 AK 2 0.27 0.27 0.39 0.39 3862.61 SI II 1 AK 2 0. 11 0.11 0. 15 0.15 3660.22 A K2 0.25 O. 0.36 0.36 3864.69 O II 1 AK2 2 0.07 0.07 0.10 0.10 3661.23 AK 2 0.26 P. ■ .Q.3.a_ 0.38,, 3866 O AK2. 0.0 0.0 Q.O 79.09 0.0 3662.23 l AK2 0.28 0.2 8 0.41 0.41 3868.72 (NE III) i AK2 58.10 64.18 87.37 3663.44 1 AK 2 0.29 0.2^ 0.42 0.42 1 A41 76.00 64.18 103.46 87.37 3664.69 _1 AK2 0.31 .Q.i.3.1 ■ -Q..-45- Q »45 Jl ALP,. LA 30.30 77.70 64.18 105.77 64.18 41.25 87.37 87.37 3666.07 l AK 2 0.32 0.32 0.47 0. 3667.68 l AK2 0. 34 0.34 0.50 0.50 l 0 63.00 64.18 85.76 87.37 3669.47 1 AK2 0.38. 0.38 . 0.55 0.55 -J VV 2 , 80.00 64.18 ,.l-Qa*.9Q-. 87.37 3671.48 1 AK2 0.42 0.42 0.61 0.61 3870 AK2 0.0 0.0 0.0 0.0 3673.00 1 AK2 0.45 0.45 0.65 0.65 3871.67 HE I AK2 0. 18 0.18 0.24 0.24 3676.34 _l AK2 .0.49 . 0.49 0.71 0.71 3874.74 O II AK2 0.05 0.05 0.07 0.07 3679.35 1 AK2 0.53 0.53 0.77 0.77 3878.37 C II l AK2 0.02 0.02 0.03 0.03 3682.79 l AK2 0.67 0.67 0.97 0.97 3881.50 O II l KÀ Q ■ 02 0.02 0.03 0.03 3686.82 _1 AK2 0.70 . .0*2.0.. 1.01 1.01 3888.93 H I _2 AK.2 14.60 19.73. . 3691.58 A K2 0. 83 0.83 1.20 1.20 2 A41 15.30 20.67 3694.29 NE I I AK2 0.06 0.06 0.09 0.09 2 LA 16.70 22.56 3695.34 P III AK2 ■ ■û*82. Q.Q2 .■Û*_Q3_. Q. 03 _Q 11.5Q. 15.54 3697.17 1 AK2 1.08 1.56 2 10.00 13.51 3699.03 S III 2 A K2 0.03 0.04 3888.93 HE I 2 AK2 14.60 19.73 3699.03 Q LLL _2 AK2 - _2 A41 . 15.3,0 70.67 3703.83 I l A K2 1.30 1.30 1.87 1.87 2 LA 16.70 22.56 3705.02 HE I l AK2 0.52 0.52 0.75 0.75 2 0 11.50 15.54 3707.32 _0 III _1 AKZ Q. 04 0.04 Q.Q6 . -0*06. _2 V.V. 2- 1Q.OO 13.51 3709.24 NE I I AK2 0.04 0.06 3918.88 C II l AK2 0.02 0.02 0.03 0.03 3709.24 S III AK2 0.04 0.06 3920.56 C I I l AK2 0.05 0.05 0.07 0.07 ^ 70Q.74 AK? 39?6.56 HF I _J AK? 0.15 3711.99 I 1 AK2 1.62 1.62 2.33 2.33 3929 0.03 0.03 0.04 0.04 3714.9? I II l AK 2 0.05 0.05 0.07 0.07 3935.73 A K2 0.03 0.03 0.04 0.04 -3.718. 14 AR . M . -1 /UC2_ 0.04 ■ 0.06 AK2... n.n? o..n\. 3721.86 I 3 A K2 2.81 4.02 3945.90 C 2 KA 0.03 0.04 3721.86 P III 3 A K2 2.81 4.02 3945.90 C 2 KA 0.03 0.04 -aj-21.86 -N F. II _3 AJ£_2_ .3954.64 □ I_L_ _J AK? 3726.11 (G II ) 1 AK2 14.70 21.02 3961.39 O III 2 AK 2 0.05 0.07 l A41 22.00 31.46 3961.39 S III 2 AK2 0.05 0.07 J ACP 3964.80 HE—I J AK2 AUV 1.00*A l.43*A 3967.41 (NE III) 2 AK2 33.00 43.53 LA 24.00 34. 32 2 A41 45.00 59. 36 2 ACE— 1 SG 1.00* 1.43* 2 LA 38. 80 51.18 1 VV 2 ?0.00 28.60 2 VV 2 56.00 73.86 3728.85 (P U L J AJL2 _2 AJL2 33.00 .43.49. l AUV 0•38 *A 0.54*A A41 45.00 59.30 1 SO 0. 34* 0.49* ACP 15. 10 19.90 3730.64 HF T _J AK? 0.04 0.04 0.06 0.06 —LA— 38.80 51. 13 3732.69 HE I AK2 0.08 0.08 0.11 O.ll 0 32.40 42.70 3734.41 H I A K2 2.06 2.06 2.94 2.94 VV 2 56.00 73.80 3737 HE I AK? 0.01 0.01 0.01 0.01 3970 (NE III) a 32.40 42.70 3739.55 0 I I A K2 0.02 0.02 0.03 0.03 3972.94 O II AK2 0.03 0. 03 0.04 0.04 3745.89 N III AK2 0.03 0.04 3976 A K2 0.02 0.02 0.03 0.03 3745.89 HF I AK? 0-03 0-04 .3983.25 Q U AK? Q. 04 Q. 04 Q. 05 , 0,05 3750.20 I 1 A K2 2.69 3.24 3.82 4.60 3985.48 0 l AK 2 0.05 0.05 0.07 0.07 l A41 3.80 3.24 5.39 4.60 3989 O AK2 0.04 0.04 0.05 0.05 3u75l4^55- _2 AK2. 4QQQ _0 AK2 0.08 ■Q.*10_ .Q...LQ- 3754.55 N III AK2 0.04 0.06 4008.50 (FE III) I AK2 0.07 0.07 0.09 0.09 3755.99 HE I AK2 0.05 0.07 4009.26 HE I l AK 2 0.21 0.21 0.27 0.27 3757,64 N LUL . AK2... Q, Q4 Q.Q6, -4J31.9. O A K2 Q..Q3 Q, 03 Q.Q4. Q.Q4 . 3757.64 I II 2 AK2 0.04 0.06 4023.81 HE I 1 AK 2 0. 04 0.04 0.05 0.05 3766.58 NE I I l AK2 0.03 0.03 0.04 0.04 4026.14 HF I l AK2 2.33 2.99 3.02 3.88 3768.89 .HE. I _1 AKZ- 0.04 Q* 04 0.06 0.06 1 A41 .3,40 2.99 4.40 3.88 I A K2 3.38 3.94 .76 5.55 1 LA 2.99 5.18 A41 •4. 50 3.94 6. 34 5.55 1 0 2.99 4. 71 T II AK.2 . 0.03 0.03 0.04 0.04 1 w 2 2.99 2.07 3777.24 1 AK2 0.03 0.03 0. 04 0.04 4029 0 AK2 0.02 0.03 3780 O A K2 0. 03 0.03 0.04 0.04 4041.36 N II 2 AK2 0.02 0.03 3781 O AK2 0.03 0.03 0.04 0.04 -4.041.3 6 0 LL_ _Z AKZ. Q*Q2 0.03 3784.90 0 I I 2 AK2 0.05 0.07 4043 A K2 0.01 0.01 0.02 0.02 3784.90 HE I 2 AK2 0.05 0.07 4048 0 AK 2 0.02 0.02 0.03 0.03 -3.791,58 SI III _L AK.2 , 0.03 _QjJÜ— 0.04 Q.Q4 4Q5Q _0 AK2 Q*.Q2.. Q.Q2 . Q..Q3,. Q.Q3 l A K2 3.78 3.56 5.28 4.98 4056.51 C III 1 AK2 0. 03 0.03 0.04 Û.04 l A41 5.30 3.56 7.40 4.98 4057 O AK2 0.05 0.05 0.06 0.06 1 LA 2.70 3.56 3.77 4.98 4Q6.Q.46 Q LL _2 AK2.. Q.Q3 Q.Q4 3.64 3.56 5.08 4.98 4060.46 (FE IV ) 2 AK2 0.03 0.04 2.40 3.56 3. 35 4.98 4068.62 (S II ) 1 AK 2 2.50 3. 19 - 3.805.86 HE I A.KZ- 0.05 . ■Q..,Q5 0.07 0.07 2 .64 4.65 . 3810.59 1 AK2 0.03 0.03 0. 04 0.04 4069.84 O II 2 AK2 0.17 0.22 3813 0 0.03 0.03 0. 04 0.04 4069.84 O II 2 AK2 0.17 0.22 -1819.61 HE.. I _1 AKZ- 1.09 1.99 -L* ,2.76 40-72 LS U L A4 1 -3-*2Q.. —4*55. —4*. 5.80 l A41 2.90 4. 02 LA 5.90 4.55 7.52 5.80 3829.76 N II 3 AK? 0.02 0.03 4072.09 II AK2 0.10 0. L 0 0. 13 0.13 3829.76 UL_UL_ 3 AK2 Q.Q2 Q.Q3 4073.90 1I.L. AK2 Q.Q1 Q*QL, .Q*Q1-. . L*flL- 3829.76 mg I AK2 0.02 0.03 4076.31 (S 11)1 0.79 1.01 1.01 3831.82 C II AK2 0.02 0.03 2 3.64 4.63 3831.82 “G I . AKZ— Q* QZ.. 0-03 4078.9? H II AKZ.. Q. Q4... . ■Q...Q.4,.. ■0*05- Q « 05 3831.82 S III AK2 0.02 0.03 4081.40 O III AK2 0.03 0.03 0.04 0.04 3833.62 HE I AK2 0.07 0. 10 4083.69 O II AK2 0.03 0.03 0.04 0.04 3833.62 Hf U AK? 0.07 0. 10 ,4084.88 û LL_ AK2 0.03 0.04 AK 2 4.63 6.72 6.38 9.26 4084.88 O II 2 A K2 0.03 0.04 A41 9.20 6.72 12. 67 9.26 4086.77 NE II 2 AK2 0.02 0.03 _LA fc*I2 -12.4Q 4086.77 Q II 2 AK2 Q. 02 0.03 0 3.98 6.72 5.48 9.26 4088.92 O II AK2 0.08 0. 10 VV 2 6.80 6.72 9. 37 9.26 4088.92 SI IV AK2 0.08 0. 10 IC 4997 (PK NO. 58+10 1) IC 4997 (PK NO. 609 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued _LC 4997 (PK. NQ. 5BtlQ 1) ir 4qq7 t PK Kn. i> WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT RG REF OBS I CORR I 4092.97 _0 LI 1 A K2 0.03 0.03 0.04 0.04 4416.87 NE II AK2 0.07 0.08 4094.42 0 II I AK2 0.03 0. 03 0.04 4434.08 MG II AK2 0.02 0.02 0. 02 0.02 4097.20 N III 3 AK2 0. 19 0.24 4437.47 HE I AK2 0. II 0.11 0.13 0.13 7 ACP 19.22 4439.50 S LLL_ 0.15 4097.20 O II 3 AK2 0.19 0.24 4439.50 NE II O. 15 0. 17 4097.20 G II 3 AK2 0.19 0.24 4442.43 NF II AK2 0.03 0.03 0.03 0.03 4101.70 H I 1 AK2 22.40 21.58 28.28 4445.88 NE II AK2 Q. 03 _Q^ 0.03- Q. 03 1 A41 17.80 21.58 22.47 27.25 4452.17 0 II AK2 0.05 0.05 0.06 0.06 2 ACP 15.20 19. 19 4456.59 S II AK2 0.03 0.03 0.03 0.03 LA 25*50 .JA*? 9 27.25 4465.04 Q LL_ AK2 0.04 0.04 0.05 -0.05 23.00 21.58 29.04 27.25 4471.48 HE I AK2 5.31 6.31 6.00 7.12 19.20 21.58 24.24 27.25 A41 9.20 6.31 10.39 7.12 4103.80 N III - 0.06 -■0.06- ACP 6.02 6.31 6.80 -E.12 4104. II 1 AK2 0.05 0.06 6.90 .31 7.79 7.12 4110. II 2 AK2 0.04 0.05 5.62 6.31 6.35 7.12 -4110.49- JQ_ 2 AK2 0*04- VV 2 . 4.80 6.31 5.42 7.12 4116..20 SI IV 1 KA 0.01 0.01 0. 0.02 4475.00 NF II 0.02 0.02 0.02 0.02 4119. II l AK2 0.06 0.06 0. 0.08 4489.00 G II 0.02 0.02 0. 02 0.02 4:120.81 ü£—I _J AK¿ 0.29 0.29 0-36 0-36 4538.53 AR II 0^03 0.03 0.03 0-03 4132. 79 O 1 AK2 0.04 0.05 0.05 4568.80 NE II 0.03 0.03 0.03 0.03 4142. 30 O 2 KA 0.05 0.06 4571.10 MG I AK2 0.20 0.20 0.22 0.22 4142.30 Q _2 Q. Q-5 . Q. 06— 4590.n TT A-K2— 0.07 Q.Q7- O.Ofl _a.QA_ 4143, 77 HE I 3 AK2 0.31 0.39 4595.92 O II AK2 0.05 0.05 0.05 0.05 4143, 77 0 II 3 AK2 0.31 0.39 4601.87 O II AK2 0.03 0.03 0.03 0.03 4143 77 Q I_I_ —3 AK2— Q.31 0-39 4607.12 (FF T TT I AK2 0.07 0.08 4145. AK2 0.03 0.03 0.04 0.04 4607.12 N A K2 0.07 0.08 4147 AK2 0.02 0.02 0.02 0.02 4609 AW70 0.12 0.12 0. 13 0.13 41 53. AK? 0.08 Q.1Û- 4609.47 P TT AK2 ...Q^ns 0.05 n.05 -0.05 . 4153. 43 O I I AK2 0.08 0.10 4616 AK 2 0. 03 0.03 0.03 0.03 4156. 40 C III AK2 0.04 0.05 4621.72 O II AK2 0.0 0.0 0.0 0.0 4156. AO Q U 0.04 Q. 05 46^0 M TT AW70 0.06 0. 06 O.Oft -0.06 4159 0 A K2 0.02 0.02 0.02 0.02 4630.04 C AK2 0.05 0.05 4163. 90 (K V 1 AK2 0. 02 0.02 0.02 0.02 4630.04 N II AK2 0.05 0.05 4166. A2 MG T _2 AK? Q.Q3. - 0.04. 4633.86 N III- AK 7 0^17 0-18 4166. MG I 2 AK2 0.03 0.04 A W70 0.18 0.17 0. 19 0.19 4169. 21 HE I l AK2 0.09 0.09 0. 11 0.11 4639.03 O II AK 2 0.16 0.16 0.17 0.17 41 74 _Û AK2 Û. 03 Q. 03 0-04 4640.44 N TU AK2 . .0.-34 0.34 . _Q^ -Q.36 4183 AK2 0.04 0.04 0.05 0.05 AW70 0.70 0. 75 4185. II AK2 0.07 0.07 0.09 0.09 4641.73 N III AK2 0.26 0. 28 MI AK2 --0^.70 0. 75 4189. AK2 0.06 0.06 0.07 0.07 4641.73 O II 0.26 0.28 4194 A K2 0.03 0.03 0.04 0.04 4645 C III 0.80 A 0.86 A A K2 - 4645 N I IT 0.80 A 0.86 A 4231. 59 NE II 1 AK 2 0.02 0.02 0. 02 0.02 4647.24 C III AK2 0. 13 0. 14 4242. 24 NE II 1 AK2 0.04 0.04 0.05 0.05 4647.24 NF II AK? 0.13 0. 14 42.44.0? NF II 1 AK2— 0.06 0.06 0.07- 0.07 4649.10 0 U 0.34 0.36 4253, 68 0 II 2 A K2 0.04 0.05 AW 7 G 0.70 0. 75 42 53. 68 S III 2 AK2 0.04 0.05 AK2 0. 15 0. 16 4257, in NE II _2 AK? - O- O? 0.0? 0.70 0. 75 42 57. 0.02 0.02 4657 (FE III) AW70 0.77 0. 82 4264 0.02 0.02 0.02 0.02 4658.09 AR II AK2 0.83 0.88 4267. 0-17 Q. 17 0.20- 0 «?Q 4658.09 (FF T II) AK2 0.83 0. 88 4275. 0 II 1 AK2 0.04 0.05 4658 C IV AW70 0. 77 0.82 42 76. 0 II 2 A K2 0.05 0.06 4661.48 O II AK2 0. 12 0.12 0. 13 0.13 4276, ££ 0 LL- ? AK? 0.05 . n. 06 467/w3G G U— 0. 06 0.07 -Q.-Q6— -0.07 . 4278 AK2 0.02 0.02 AH70 0.C8 0.07 0.08 0.07 4282. □ 11 AK2 0.03 0.04 AW70 0. 10 0.85 0.11 0.90 4282. 0 I I A K2 0.03 0.04 VV 2 1.60 0.85 1.69 0.90 4285. S III AK2 0.03 0.03 0.04 0.04 4695.80 N II KA 0.04 0.04 0.04 0.04 4287 AK2 0. 07 0.07 0.08 0.08 4701 (FE III) AW70 0.30 0.30 0.32 0.32 4289,13 Q LL- AK2 Q.Q2 Jk 02 0.02 0.02 4701.30 Q U AK? 0.3? 0-3? 0-34 —Q.34 . 4294. II 2 AK2 0.05 0.06 4711.34 (AR IV ) AK2 0.28 0.28 0. 29 0.29 4294. 45 S II 2 AK2 0.05 0.06 AW7 0 1.62 1.70 4303, .LO Q LL_ _3 AK2 Q. 01 0.02 4712.55 HE I . AK2 1.36 1-4? 43 03..10 0 A K2 0.01 0.02 A W7 0 1.62 1.70 4303..10 0 AK2 0.01 0.02 4733.32 N IV AK2 0.21 0.21 0.22 0.22 —43-17.11 Q LL_ 1 AK2 0.07 0.07 0.08 4740 ( AR IV ). AW7Q 0.65 0.65 0.97 0.67 4319, 69 O II AK2 0.06 0.06 0.07 0.07 4740.00 N IV A K2 0.67 0.70 4325. 76 O II 1 A K2 0.02 0.02 0.02 0.02 4740.00 MG II AK2 0.67 0. 70 4328 ¿5 Q_ 1 AK2 Q. 01 Q. 01 _û^ 0.01 4740.00 (AR IV ) AK2 0.67 0. 70 4333, AK2 0. 06 0.06 0.07 0.07 4754 AK2 0.20 0.20 0.21 0.21 4338 AK2 0.06 0.06 0.07 0.07 4754 (FE III) A W7 0 0. 12 0.12 0. 12 0.12 4340i H L_ AK2 45.00 A3. 52 îZnJl— 51.«-fl3- 4768.83 CL II AK 2 0.17 0.11 0. 17 0.12 1 A41 35.00 41.04 0.06 0.11 0.06 0.12 2 ACP 65.50 76.81 4774.40 N II 0.04 0. 04 0.04 0.04 1 LA 51.00 59.80 4776 Q. 15 0.15 Q. 15... . ..Q. 15 42.60 43.52 49.95 51.03 4781 N II 0. 10 0.10 0. 10 0.10 1 VV 2 44.00 43.52 51.60 51.03 4783.10 NE II 0. 09 0. 06 0.06 0.06 4342.95 O II 2 AK2 0.08 0.09 4813 Q III A W7Q 0.06 0.06 Q.-Q¿_ _Q.06 . 4342.95 S II AK2 0.08 0.09 4813.66 SI III AK2 0. 11 0.11 0. Il .11 4345.43 O II AK2 0. 16 0.16 0.19 0.19 4861.33 H T AK2 100.00 100.00 100.00 100.00 4349.33 O II AK2 0.08 0.08 0.09 0.09 A41 100.00 100.00 100.00 100.00 4362.95 (0 1 AK2 30.70 36.57 35.75 42.60 ACP 100.00 100.00 100.00 100.00 1 A41 56.00 36.57 65.22 42.60 LA 100.00 100.00 100.00 100.00 ACE_ 65.50 76. ?8 _Q_ 100.00 100.00 100.00 ICO.00 1 0 28.80 36.57 33.54 42.60 1 □ D62 100.00 100.00 100.00 100.00 i VV 2 30. 80 36.57 35.87 42.60 1 2 100.00 100.00 100.00 100.00 1 AK2 0*19 0.10 9*12 0*12 4880.68 IFE III) 1 AK. 2_ Û » 52 Q. 41 0.5? 0.41 4368.26 C II 1 AK2 0.12 0.12 0. 14 0.14 A W7 0 0.31 0.41 0.31 0.41 4378.34 O II 1 AK2 0.01 0.01 0.02 0.02 4921.00 HE I KA 1.40 1.65 1.38 1.62 ■ 43_82 _JQ 4*2... -Q.t.9.1- -fl* .91.., 0.02 9.92 AW7 Q.._ 1.9Q . L. 6-5— 1.87 .62. 4387.94 HE I AK2 Ó. 55 0. 55 0.64 0.64 4931.00 (O III) 0.0 0.07 0.0 0.07 43 89 A K2 0.02 0.02 0.02 0.02 AW70 0. 14 0.07 0. 14 0.07 4391.85 NE II A K2- 0.04 _Q^Q5- 4959 (O TIT 1 A4 1 189.QQ 19fi.60 184.27 193.63 4391.85 AK2 0.04 0.05 ACP 165.00 198.60 160.87 193.63 4400 AK2 0.03 0.03 0.03 < 0.03 LA 214.00 198.60 208.65 193.63 4403 0 AK? 0.0? n.n? Q. 0? 0.0? _Q— 209.00 198.60 203.77 193.63 4409.29 NE II 1 AK2 0.03 VV 2 216.00 198.60 210.60 193.63 4413.24 NE II 2 AK2 0.07 (0 111)1 A4 1 543.00 587.42 522.74 565.51 4413.24 NE II ? AK2 Q.Q7 ACP 543.00 587.42 522.74 565.51 4414.95 AK2 0.09 0. 10 0.10 BE 1000.00* 962.70* 4416.87 0 AK2 0.07 0.08 LA 603.00 580.51 565.51 IC 4997 (PK NO. 58 + 10 1) IC 4997 (PK NO. 58+10 1) 610 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued IC 4997 tPK NO. 58+10 1) rr 5117 (PK NO. 89 -5 n WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF □ BS I CORR I AVE C _iU LULL I 636^.05- 66Q.7a_ A -587*A2— 1270.76 QD62 1320.00 5.63.31 3985 H I _2 HX. 1- tLQX 1 VV 2 A 3889 HE I 2 VV 9. 10X 20.22 X 5016 HE I 1 BE 3.72* 3.57* 3967 (NE III) 2 A 41.00 85.49 30^1 .^I II I AW7 0 o-ua Q.ia 0-17 -Qji Ll_ 2 ACP 32.30 67.35 5047 HE I 1 AW70 0.35 0.35 0.33 0.33 18.00 37.53 5056 SI II l AW70 0.16 0.16 0.15 0.15 VV 1 27.30X 56.92 X 5145 (FE VI ) 1 AW70 0.12 0.12 o.H 0.11 . 3967 _b I_ 41.QQ 85-« 46 5158 (FE VII) 2 AW70 0. 15 0. 14 ACP 32.30 67.33 5161 (FE VII) 2 AW7 O 0.15 0. 14 R 18.00 37.52 ß 17.6 (FE VI ) 1 AW70 0.02 Qt-S-2— 0.02 0.02 VV 1 27. 3QX 56-.9QX 5191 (AR III ) 1 A W70 0.29 0.29 0.26 0.26 4026 HE T A 3.00 3.00 5.95 5199 (NI ) 1 A W70 0.21 0.21 0. 19 0.19 VV 1 9.10XA 18.06XA 5231 1 A W70 0.04 0.04 0.04 0.04 -4069 _LS UL 6.00 11.46 5262 1 A W70 0.07 0.07 0.06 0.06 4076 11 6.00 11. 39 5270 (FE III) 1 AW70 0.60 0.60 0.54 0.54 1 VV 1 9.10XA 17 • 27 XA -J>.37JL- (FE IV ) J, AMXQ- 0.03 0* 03 0.04 0.04 —4Q97 III- ? ACP 10.70 19.94 1 A AE2 0. 0.37* 44* 2 3.00 17.00 42.70 31.56 1 AW 70 0.20 0. 17 ACP 10. 70 19. 87 5537 (CL un J A AE2 1. Q.84*_ QQ* —EE-B 15.00 17.00 77.85 31.56 l AW7 O 0.40 0.40 0.33 0.33 13.00 17.00 24. 14 31.56 5677 (FE VI ) 1 AW70 O. 10 0. 10 0.08 0.08 36.40X 67.58X 5754 N U 1 AW7Q 47.00 33. 67 64. nq 51 .37 O 11.50 6.75 9. 13 5.36 2 ACP 45.40 69.28 5801 1 A W7 0 O. 30 0.30 0.24 0.24 i PER 35. 00 33.67 53.41 51.37 5811 -IV - -J AM70- O-30 0.30 0.24- 4. 87* 0.74 _J B 7 4.00 - 33.67 39.40X 36.67 60.12X 51.31 1 AHX 6.30* 1 AW7 O 19.00 19.95 14.69 15.43 (O 111 ) 1 19.00 28.47 —1 Q 70.90 19 »-9 5 16.16 15.43 45.40 -68.07 25.20 A 19.49 A 12.00 17.98 2.60* 1. 84* VV 1 27.20X 40.75 X 8.80 A - .71 - -b 6.30 8.70 6363 (O AHX 0.70* 0.49* 1 ACP 4. 10 4. 1 3 5.66 5.71 6563 H LAR 10.00* 6.73* 1 R 2.00 4. 13 2.76 5.71 288.00 193.75 -J AU7 O 1.20 1.20 1-.57 - -1.57- 2 VV 2 708.00 A 476.29 A 4571 MG I 1. 10 1.40 6563 (N I I 1 2 VV 2 708.00 A 476.29 A 4634 N III 5.40 6.52 6583 -(N . II -l -1 O 19.30 1 .50 1.81 - 6678 HE I 1 AHX 2.50* 1.65* 2 A 5.40 6.48 6717 (S II ) I B AE2 0.45* 0.29* 1 AW70 3.90 4.69 1 AHX -2 VV 1 39.40 X 47. 12 X 11.70 7.66 4645 III 2 VV 1 39.40X 47. 12 X (S II I l AE2 1.00* 0.65* 4649 III 2 A W7 0 1.90 2.26 AHX -4-650.- I I í... _2 A-W2Q - -1.90 —2^26 6734 ( S II) 2 O 11.70 7.64 A 13.80 1 1. 1 3 15.96 12.87 7065 HE I 1 O 18.20 18.20 11.29 ACP 10.90 1 1.13 12.60 12.87 7136 .1 0- 10.-50 6.44 8^70_. -11.13 1 0-. 06 . 1-2.87- 7325 (n II) O 21.40 12. 76 30.30X 35.03X 7751 (AR III) 1 AHX 2.15* 1.20* (AR IV ) 1 5.00 5. 66 1 AHX -9.78 -1 1.-Q7 8413 1 AHX 0.75* 0.39* 4713 HF I 3 ACP 9.78 11.05 8446 1 AHX 5. 68* 2.93* 4725 (NE IV ) 1 AW7O 0. 70 0. 78 1 AHX 0.53*- -4740- (AR IV L J A 7.50 8^2-8 8502 1 AHX 1. 14* 0. 59* 9.78 10.80 8545 1 AHX 1.34* 0.68* 7. 70 7.60 8.50 3.39 .-8598-. 1 AHX 1.4?* 0.-72*- __H L_ ion.no i on.on ino.oo -100^00- AHX 1.64* 0.83* ACP 100.00 100.00 100.00 100.00 0 7.41 3.74 0D6 3 100.00 1 CO.00 100.00 100.00 AHX 1.64* 0.82* PER 100.00 100.00 100.00 ICO.00 0 4. 90 4.90 2.45 2.45 R 100.00 100.00 100.00 100.00 8863 0 5.90 5.90 2.92 2.92 VV 1 100.00 1 CO.00 100.00 100.00 9015 __Q 4. 1 7 ?. 04 -¿»Q4. A W 7 fl 3. an 3.88 3 «-6.4 .64- 9069 III) 1 0 32.40 32.40 15. 76 15.76 4931 (C III) 1 AW7 0 0.60 0.60 0.57 0.57 9229 I 1 G 8.91 8.91 4.27 4.27 4959 (0 III) 1 A 610.00 593.64 570.35 555.05 9532 _I 2 .95* 0.91* J LAR AC2 526.oa 593.64 491.81 555.05 9539 2 0 56.40 26.36 657.00 593.64 614.29 555.05 9539 2 0 56.40 26. 36 660.00 593.64 617. 10 555.05 -3.546— _LS LULL ? LAR 1.95* 0.91* 516.20. 593.64 481.71 555.05 10049 I 13.50 13.50 .08 6.08 1 A 1600.00 1637.40 1446.46 1480.27 10120 HE II 5.90 5.90 2.65 2.65 1 ACP 1554.00 1637.40 1404.87 1480.27 LÆ32Q. _LS LI i- 6.9L- 6.31-. 3.06 __1 QD63 1288.QQ. 1637.40 1164.40 1480.27 LAR 9.85* 4.22* 1 PER 2048.00 1637.40 1851.46 1480.27 G 347.00 347.00 148.55 148.55 1 VV 1 1697.00 1637.40 1534.15 1480.27 1Q9?9 _2 33.20 33.20 14.11 1.4.U -J AlaL7Q 2^ 40 A 2.15 A 10 MU (S IV ) 5047 HE I AW70 1. 10 1.10 C. 96 0.96 5056 SI II 1 AW70 1.20 l.?0 1.04 1.04 REGION KEY (REG ION.REFERENCE.EXPLANAT TON ) 5-L91— (AR III) 1 AW7Q 0.80 _Q.« 83 Q«-b3 0-.63- A, AE2 , REGIONS A AND B ON DIFFERENT SCALES 5199 (NI ) 1 AW70 1. 10 1. 10 0. 86 0.86 5270 (FF III) 1 AW70 0.80 0.80 0. 59 0.59 END L£ 4997 LPK-MQ. 59+10 U 5-3.09— (CA V L 1 AW7Q Q. 20 -0.28 Q. 14 0.14 5323 (CL IV ) L A W7 0 0.30 0.30 0.21 0.21 5346 1 AW 70 1.10 1.10 0. 78 0.78 5411 HE il 1 AW7Q 3^80. 3.80 2*57 2*57. BEGIN IC 5117 (PK NO. 89 -5 1) 1.38 (RAD10-H BETA) 1 VV l 39.40 A 26.63 A 1 A AE2 0.25* 0. 16* HAVE. IPENT N FG REF... Q6S I AVE-Q CQPP I AW 70 1.20 - 1.2 Q Q*J.t 0*75 - 3712 I A 1.70 4.45 5537 (CL III) 1 A AE2 1.00* 0.62* 3727 (0 I I A 20.00 51.63 1 AW70 4. 10 4.1 0 2.54 2.54 ACP 12.50- 32.27 . 1592- _0 LLI— 1 AW7Q Q.40 0-4 0 0.24 Q.?4 PER 10.00 25. 81 (N 1 AW70 18.00 9.77 VV 1 18•20 X 46.98 X 1 VV l 48.50 A 26.33 A -11,50- _H I— 2.20 2.30- 5. 56 -1.56 5801 ■C 1 AU 70 0-70 0.37 3770 H 3.50 3.50 8.69 8.69 5812 C IV A W70 0. 70 0. 37 3797 3.80 3.80 9.21 9.21 5862 ( MN V ) AW7C 0.60 0. 31 3835 5.10 11-93 19.15 5 864 ( MN V ) 2 AHIQ <1*59 0.31 ACP 9.46 8.19 22. 13 19.15 5867 ST II 1 AW 70 1.80 1.80 0.91 0.91 R 10.00 8.19 23.40 19.15 5876 HE I 1 PER 35. 00 28.10 17.69 14.21 -3_86 6_ (NE III) 1 93.00- 73.3-3 210.85 . 166.26 11 W 1 21.20 28.10 -1Q.JL2 - 1.W1 - PER 81.00 73.33 183.64 166.26 5885 AW 70 0. 90 0.90 0.45 0.45 R 46.00 73.33 104.29 166.26 6300 (0 1 ) l VV 1 36.40 A 14.44 A VV- 1 - 54.5QX 123.56X 6548 _LN LI L _1 PER 57.00 57.00 2 0-06 20.06 12.00 11.50 26.67 25.56 PER 783.00 273.45 11.00 11.50 24.44 25.56 VV 1 545.50 190.50 1C 5117 (PK NO. 89 -5 1) IC 5117 (PK NO. 89 -5 1) 611 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued IC 5117 IPK NO. 89 -5 1) 5217 fPK NQ- 1QQ -5 11 WAVE ÏDENT N RG REF OBS I CORR I WAVE IDENT N RG REF OBS I AVE CORK I AVE C 6563 (N II 2 VV L 545.50 190.50 . itlp-L H I -J LA 3-1 t?P- là*.'?.!... 35t 01 29.67 65B4 (N I I ) 1 PER 153.00 52.86 PER 19.00 26.52 21.25 6717 ( S IT > 1 R AE2 0.54* 0.^18* PTP 24.00 A 26.85 6730 _LS Ll_ -L_ B....AE2- 1.00* ■ 32*- 23.48 23.48 -VV-..2- ,2,9tlO 26.52 31.43 29.67 9068 ( S I II ) l PER 159.00 159.00 4120 HE I l PG CAL 0.30 .33 0.33 9532 IS I II ) 1 PER 501.00 501.00 66.63 66.63 4143 HE I X PG CAL 0.50 0.56 0.56 10830 HE I 1 PER 1480.00 1480.00 155.71 155.71 4200 HE II 1 PG CAL 0.30 0.33 0.33 PER 73.00 7.54 4267 I I 1 PG CAL 0. 50 0.50 0.55 0.55 4340 I l A 55. 00 45.62 59.38 49.26 END IC 5117 IPK NQ. r5_l I. __1 QQX 7S.57X l P CAL 55. 45.62 60. 13 49.26 1 PG CAL 41. 45.62 44.91 49.26 _i LA _54j —¿3*30 _ • 2_&__ BEGIN IC 5217 (PK NO. 100 -5 1) 0.25 (HYDROGEN LINES! ORE 45.62 30. 49.26 PER 40. 45.62 43. 49.26 WAVE IDENT N RO—B.EÜ- OBS I AVE 0 CORR I AVE C PTP 40. 45.6? -Ai 4.9.26_ 3121 I I 2 PG CAL 1.70 2.23 VV 50. 00 45.62 53. 98 49.26 3122 III 2 PG CAL 1.70 2.23 (0 III ) A 13. 00 12.08 13. 99 13.00 3132 LLL_ Xl P-Q_£-A_L- , L6,t0Q- 20,92. 20.92 AN 3Q. JJU .32. 39X 3187 HE I PG CAL .90 .90 .35 6.35 I P CAL 12.08 12. 13.00 3203 HE I I 1 PG CAL 4.00 4.00 5. 17 5.17 l PG CAL 12.08 16. 13.00 3?qq _0 LLL 1 , PG R£—LAL. 1.20— ,.1,.2Q- 3.17 1.52- 1-5? _J LA 12.08 _LLi 13.QQ-. 3312 0 III CAL 2. 50 1 QRF 5. 5. 3340 0 III 3 PG CAL 3.60 4.54 1 PTP 10. 12.08 10. 13.00 3342 (NF III) 3 PG CAL —2 .4. 5.4_ 437.9 _M LUL 1 PG CAL Oj AO— . jQ ■ 4.0— 0. 0.43 3342 (Cl III) 3 PG CAL 3.60 4.54 4387 HF I 1 PG CAL 1.00 .07 1.07 3346 (NE V ) l PG CAL 1.00 1.26 4471 HE I 1 A 7.47 .57 7.92 . 3426 1 NE V ) 3 PG -CAL.. 1.3Q, .!■ 62_ _1 AU -L7 .-QÛX, - 02 X 3428 NE II 3 PG CAL 1.30 1.62 1 P CAL 7.47 7.92 3428 C TIT 3 PG CAL 1.30 1.62 l PG CAL 7.47 7.92 - 34A3 -Q LLL_ ■ ii. Q0_ -6..Q0_ --LA 8- 50 7.47 7.9? 1 PG CAL 6.00 6.00 7.44 7.44 1 PTP . 54 7.47 7.92 3650 1 A 7.50 7.50 9.01 9.01 4514 N III 1 PG CAL . 30 0.30 0.32 . 367.6 1 PG XAI— 0.90 ■ Q.9Q.- . 1.Q8_ —I .08. 4541 HF II -1 P-G.XAL.. 3679 1 PG CAL 0.90 0.90 1.08 1.08 4571 MG I 1 PG CAL .60 3682 l PG CAL 0.60 0.60 0. 72 0.72 4634 N III 2 A .40 - 3 686 1 PG . CAJ _Q..9Q_ 1. _UQ1L_ J AW 70- Q 3691 l PG CAL 1.30 1.30 1.55 1.55 l PG CAL 3697 1 PG CAL 1.60 1.60 1.91 1.91 - 3 7Q3 ? PG.-CAL- 2.30 ? - 74 3705 2 PG CAL 2.30 2.74 1 PG CAL 2.10 2.17 3711 l PG CAL 2.00 2.00 2.38 2.38 1 AW 7 0 0.83 0.86 3 721 1 PG CAL - —4^00— -4.00- -A^7A- -? PG CAl (0 I I ) l 20.00 23.75 4650 C III 2 PG CAL P CAL 39.30 46.67 4657 (EE III) 1 A W7 0 PG-CAI ?0- 80 ?4.70. 46.59 C U¿ -3 PG_r.AI LA 39.30 46.67 4659 (EE III) 3 PG CAL LU 2.25* 2. 67* 4659 0 I I 3 PG CAL PER . 14.oa- 4685 —HE II -U PTP 21.90 A 26.01 A AW7 0 11. 14.45 11. 14.84 VV 2 25.00 29.69 P CAL 14. 14.45 15. 14.84 -UJ- -l.QO*— PG XAI -LI. 3734 l PG CAL 3.00 3.00 3. 56 3.56 LA 14.45 28. 14.84 3750 1 A 2.90 3.10 3.43 3.67 QRF 14.45 8. 14.84 1 RG-CAJ— -3.3Q- 3. IQ.. .3.90- -3.61.. —PTE— 3754 III 1 PG CAL 1.00 1.00 1.18 1.18 4698 i PG CAL .50 0.50 0.51 0.51 3759 III l PG CAL 1.60 1.60 1.89 1.89 4711 1 A .00 7.00 7. 16 7.16 3770 1 3.20 3.9-5 3.77 4.66 2 AW7C .40 6. 55 1 PG CAL 4.70 3.95 5.54 4.66 2 P CAL .30 6.44 3791 TIT 1 PG CAL 0.40 0.40 0.47 0.47 2 PG CAL 60 5. 73 3797 , _I _L A -6. IQ,. ,.,6.46.. 4713 HE I AMISL ÁSL. l PG CAL 5.80 5.50 6.81 6.46 2 P CAL . 30 ,44 3820 HF I 1 PG CAL 1.80 1.80 2.10 2.10 2 PG CAL .60 73 3835 H L_ _J Ä_ 6.00 -6.55- -7. 00- ._7 «64- 4740 IAR IV ) J 4_ .40- 6.47 _53_ l PG CAL 7.10 .55 8.28 7.64 1 AW70 6.47 6.59 3862 SI I I l PG CAL 0.40 0.40 0.46 0.46 1 P CAL 6.47 6.59 - 3.ftA3- _LNE ÎII.1 J â , 98.QQ- 92.27 113.66- 10.7 .,Q2.. 1 PG CAL 6.47 _5.60- 6.59 96.50 111.93 100. 00 100. 00 131.00 151.94 100. oox 100. oox PER . 59.00 92.27 68.43.. 107.02 -J P CAL LOO. 00100.00 1QQ. £0 1QQ.QQ . 115.60 92.27 134.08 107.02 1 PG CAL 100. 00100.00 100. 00 100.00 20.00 20.00 23. 11 23.11 1 COAL 100. 100.00 100. 00 100.00 P CAL 19.30 22.30 _J LA- 1QQ. QOion.no -LÛQ. ÜQ 1QQ.QQ . PG CAL 19.00 21.96 ORE 100. 00100.00 100. 100.00 LA 131.00 151.39 PER 100. 00100.00 100. 100.00 3M9 _H£_L_ 2 P CAL 19 »30 22«.3.Q_ PTP 100. 00100.00 100. 100.00 2 PG CAL 19. 00 21.96 VV 2 100, ,00 100.00 100. 00 3 P CAL 40.00 45.71 WYSE 100, 00 A 100. 00 A 1 PG CAL . Q.8Q _ Q. 8.0- -Q.9-L- Q. 91 HE ..I A W70 L 22 2.16 L. JL1 2.14 (NE III) 2 A 42.00 47.98 l PG CAL CAL 40.00 45.69 l WYSE 1 PG CAL -29.20 _2 9. 2-0- 33.36 33.36 1 A W7 0 -0.29. 2S_ 0.29 48.70 55.63 (0 I II ) 1 550. 00 433.01 543. 34 53.10 60.66 1 AN 313, OOX 309. 21X ..4Z.QÜ. .47.98- L_ -P-CAl 399. Ü0 413.0-L 39.4. II 427.77.. 3 P CAL 40.00 45.69 COAL 426. 433.01 421, 427.77 l PG CAL 12.50 14.28 LA 400. 00 433.01 395. 427.77 —2__ 48.70 55.63 -QBf 438.QQ 433.01 432.70 427.77 2 VV 2 53. 10 60.66 PER 380. 00 433.01 375. 427.77 4009 HE I 1 PG CAL 0.30 0.34 VV 2 43 7. 50 433.01 432, 427.77 ..ÍQ26,,., HE.,,I , _A_ 2.00 - 5.30- 2.26 -6*QQ. WYSE -410.cm A, 405.04 A 1 PG CAL 3.30 5.30 3.74 6.00 1500. 1390.36 1472. 90 1365.23 l LA 10.60 5.30 12.00 6.00 670. OOX 657. 89 X 4068 —Li LI—L -2 A_ 1.60 LaJLQ— 1163. HO 1390.36 1141.99- 1365.23- 1 PG CAL 2.60 2.92 1318. 00 1390.36 1294. 19 1365.23 4072 (S II ) 1 PTP 3.63 A 4.08 A 1170, 00 1390.36 1148. 86 1365.23 . 4.016 - (S II -L _2 A_ 1.60 .-BD 1 444. ■390.36 1417. 91 1365.23 2 P CAL 28.30 31.68 PTP 1200. 00 1390.36 1178. 1365.23 1 PG CAL 1.70 1.70 1.90 1.90 VV 2 1937. 50 1390.36 1902. 1365.23 -J. A 28.Q.Q. 26.52 -31.32- 29.67 WYSE 1330. -00- A 1305. 2 P CAL 28.30 31.66 AW70 1 PG CAL 26.20 29.31 29.67 WYSE IC 5217 (PK NO. 100 -5 l) IC 5217 (PK NO. 100 -5 II 612 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued JLC 5217 tPK NQ. 1QQ --5_L1 _15 (PK NO. 47<-42 1) C = 0.03 (DUST MODEL) WAVE IDENT N RG REF 08S I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I AVE O CORR I 5047 HE. I JL AW7Q Q.2Q- 0.20 ..Qm-ZQ— Q-.2Q 3727 (0 II 1 1 KA2 33.00 A 33.69 A 5159 (FE VIII 1 AW70 0. 19 .19 0. 18 0.18 4686 HE II KA2 35.00 35.00 35.11 35.11 5161 (FE VIII 1 A W7 0 0.22 0.22 0.21 0.21 4861 H I K A2 100.00 l 00.00 100.00 100.00 5176 (FE III) 1 A W70 _0..U- 0.12 0. 12 Q»12 4959 (0 III) KA2 300.00 ?flPtOQ 299.56 299,56 5191 ( AR I III l A W7 0 0. 16 0. 16 0. 15 0.15 5198 (NI ) 1 AW70 0.25 0.25 0.24 0.24 39 (PK NO. 47 + 42 1) 5262 1 AW70 0. 17 0.17 0. 16 0.16 5270 (FE III) 1 AW70 0.30 0.3 0 0.28 0.28 5314 1 WYSE 3.00 A 2.83 A 5411 HE I I 1 AW70 1.33 1.33 1.24 -Ui-4 BEGIN A 71 (PK NO. 85+ 41) C = 0.80 (HYDROGEN LINES) l WYSE 3.00 A 2.79 A 5505 l WYSE 3.00 A •2.76 A S I AVE O CORR I 5517 1 A AE2 0.68* 0.63* -4-861 -Cl¿2 265.00 100. 0-0 100. 00 251.65 100.0-0 251.65 100.00 A W70 0.81 0.74 4991 (C III) 1 CLZ2 265.00 5537 (CL III) A AE2 1.00* 0.92* 6563 H I 1 CLZ 2 525.00 525.00 285.30 285.30 1 AW70 1.02 0.94 6575 _i_N II ) 1 CLZ2 1Q5Q.QP 1Q5Q.QQ 568. 58 568.58 5577 (0 I 1 WYSE 15.00 A 13.69 A 5754 (N I I i A W7 0 2.24 2.01 END 71 (PK NO. -5813 C TV _1 wy.se. 3.00 A 2.67 A 1 AW70 16.30 14.93 14.41 1 ORF 11.00 A 9.72 A 1 PER 15.QQ 1 4.93 13.26 „BEGIN A _LZ LEK NQ. 97 ±—3 1) , 2.00 (HYDROGEN LINES) 1 PTP 13. 50 11.93 1 WYSE 40.00 A 35.35 A 6 049 -1 WYSE 3.0Q A 2. 6Q. A 4861 -Cl ¿2 IQQ.ag LQÜmQQ LOQ.flC 1ÛQ.QQ 6066 1 WYSE 3.00 A 2.60 A 4991 (0 I II ) 1 CLZ 2 500.CO 500.00 439.39 439.39 6194 1 WYSE 2.00 A 1.71 A 6563 H I l CLZ 2 1310.00 1310.00 285.18 285.18 _6-3-0.fl _LQ I L J WYSE 8.QQ A 6.77 A 6575 (N 11)1 CLZ2 460.OQ 460.QQ 99.26 99.26 6311 (S III) WYSE 6.00 A 5.07 A 6346 SI II WYSE 3.00 A 2.53 A 77 (PK NC. 97+ 3 1) 6363 (PI ) 1 WYSE 4.00 A 3.36—A. 6493 l WYSE 3.00 A 2.50 A 6548 (N II ) 1 WYSE 0. 0.0 A 0 A 6563 LL_ -I J CAJ4 1. 0.83* 1 íPK ND. -13 ^4 1 ) BEGIN AN QQ.» 1.00 (ESTIMATE) 1 ORF 384.00 363.00 317.37 300.01 1 PER 342.00 363.00 282.65 300.01 AVE O CORR I AVE C 1 PTP 363.QQ 363.QQ 3QQ.Q1 3QQ.Q1 i oo.oo ino.oo loo.oo l CAM 0.08* 0.07* 4959 (0 III) VV4 130.00 130.00 123.82 123.82 l ORF 21.00 A 17.32 A 5007 (0 III) VV4 400.00 400.00 371.80 371.80 _J PER . 35.00 -2.8. 87 1 PTP 33.20 27.39 1 (PK NO. 13 -4 1) l WYSE 60.00 A 49.50 A _i WYSE 380.00 A -3-14.06— 6621 WYSE 4.00 A 3.29 A 6644 1 WYSE 5.00 A 4.10 A (PK NO. 14 -5 1) C = 1.00 (ESTIMATE) 6678 -J WYSE 70.00-A 16.37—A. 6717 (S I I ) l B AE2 0.51* 0.42* WAVE IDF NT N RG REF OBS I AVE 0 CORR I AVE C 6723 (S II ) 1 PTP 4. 90 4.00 4861 H I 1 VV4 100.00 ICO.00 100.00 100.00 6730 LS— J B A E-2- —1..0Qjfe_ —0-^8 2-*— 4656 LG III) J VV4 300.00 BOQ.-QQ - 785.74 785.74 7065 HE I PTP 7.95 7.95 6.32 6.32 5007 (0 III) 1 VV4 880.00 880.00 817.96 817.96 7325 (O II ) 1 PTP 10. 70 10.70 8.35 8.35 FNn AN 7 f PK Kifl- 14 -5 II 1Q83Q HF —I . PER 175.00- 175.00 116.38- 116.38 10 MU (S IV » 1 REGir.N K.EY (REGION» RFEFB-ENCE »EXPl AN.AJ.1P.N)- AE? , REGIONS A AND B ON DIFFERENT SCALES C = 1.00 (ESTIMATE) CAL , PHOTOELECTRIC CAL , PHOTOGRAPHIC WAVE IOENT N RG REE OBS I AVE 0 CORR I AVE C 4861 H I 1 VV4 100.00 1 00.00 100.00 100.00 1C 5217 (PK NO. 100 -5 1) 4959 (0 III) 1 VV4 370.00 370.00 352.41 352.41 (0 I II ) 1 VV4 UOQtQfl IZQQtQQ HI5.4Q 1115.4Q BEGIN A (PK NO. 131+ 2 1) Q.6Q (HYDROGEN LINES) WAVE IDENT N RG REF ORS I AVE 0 CORR I AVE C 4861 __H I- CLZ2 1QQ.QQ- 1QQ.QQ 1QQ.QQ 1QQ.QQ 30 ( PK NC. C = 0.65 (HYDROGEN t INES) 4991 (0 I II ) 1 CLZ 2 720.00 720.00 692.62 692.62 6563 H I 1 CLZ2 450.00 450.00 284.82 284.82 WAVE IOENT N RG REF OBS I CORR I .$:>7g (N II ) 1 ÇLZ2 790.00 3726 (0 II ) 1 A41 54 » QQ 84.44 79Q«_Q_Q i_9 6723 (S II ) l CLZ 2 170.00 170-00 104.21 104.21 AC P 62.30 97.42 AUV 1.00* 1.56* END A 3 ( PK NO. 131+ 2 1) 63.00 98.52 1 63. 00 1 54.40 —3_72?_ _LC II ) _L AUV Q..-46* BEGIN A 33 (PK NO. 238+34 1) C = 0.05 (DUST MODEL) 3757 III l 8. 30 8.30 12.81 3798 I l 3.98 5.39 8. 18 WAVE IDENT N RG REF OBS AVE O CORR I AVE C L_ —6, 8Q- 5.39 8.18 CLZ 2 100.00 81.00 100.53 81.43 A4! 5. 50 5.38 .21 3.03 KA2 62.00 81.00 62.33 81.43 ACP 4.89 5.38 .30 8.03 4861 CLZ-2 I-Ca.-0-Q- 100.00 100.00 100 _Q -5.14 5.38 .62- 3.03 KA2 100.00 100.00 100.00 100.00 6. 00 .95 (0 I II ) l KA2 265.00 265.00 264.36 264.36 (NF III) 3 A41 15. 10 .20 4991 __LQ Ul) 1 CLZZ - 900.00 897.10 897.10 L_ ACP 12.00 6563 H I 1 CLZ2 285.00 285.00 274.34 274.34 A41 15.10 ACP 5.20 . 57 END A 13 (PK NQ. 238+34 .1) _Q 13. 8Q ,_LQ— 14.40 A41 15. 10 AÇP *_2Q— 7.57 BEGIN A 36 (PK NO. 318+41 1) C = 0.05 (DUST MODEL) 2 13.80 2 14.40 WAVE IDENT N RG REF OBS I AVE O CORR I AVE C (NE I II ) 2 12.60 -2.7.81., 3868 (NE III) 1 KA2 17.00 17.00 17.51 17.51 ACP 13.20 4686 HF I I 1 KA2 118.00 1 18.00 118.62 118.62 A41 12.60 4861 _d I L_ KA_2_. 1QQ..0Q _ 1Q0.-QQ 1Q0.QQ 100.00 ACP 13.2Q 4959 (C III) 1 KA2 100.00 100.00 12.30 1.30 END A 36 (PK NO. 318+41 1) 3970 (NE III) 2 12.30 I.*30 1.70 30 ( PK NO. 64+ 5 1) 613 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued CN3 -J (PK NQ, 38+12—1) BEGIN HA 1 12 ( PK NO. 356 -3 3) Q.Q (NO CALCULATION> HAVE IOENT N RG REF OBS I CORR I WAVE IOENT N RG REF OBS I AVE 0 CORR I 372$.. -LQ n t _L A_ 181.09 6563 tí I_ -J HE67 l.QQ*A 1.00*A A41 102.00 115.44 6584 (N II ) 1 HE67 0.20*A SO 1.00* 1. 13* VV 111■BQ 126.54- END ÜAJ 39 (PK NO- 356 -3 3) 3729 II Ï SO -2_ 0.54* 0.61* 3750 A 4. 70 4.70 5.30 A4I .60 a_L2 A 4.70 5.29 41 (PK NO. 356 -4 2) 0.71 (DUST MODEL) A4I 4.60 5.18 3797 A -5.QQ- 4.20 5.6-L 4.71 HAVE IDENT N RG REF QBS 1 AVE Q CQRR 1. -AVE C A41 .40 4.20 3.82 4.71 4686 ME II VV4 26.00 26.00 28.01 28.01 A 8. 10 5.80 9.05 6.48 4861 H I VV4 100.00 100.00 100.00 100.00 A41 3.50 5.80 3.91 6.48 4959 _LQ UI) VV4 180.00 180.00 173.88 173. A 11.00 11.00 12.21 5007 (0 III) 1 VV4 520.00 520.00 .493.70 493.70 A41 9.00 9.99 VV 2 -25.90 28.74 END HA 1 41 (PK NO. 356 -4 2) 3889 A4I 9.00 9.99 VV 2 25.90 28.74 -39.6,7- 16.00 19.73 17.6L. 21.72 A41 12.00 19.73 13.21 21.72 BEGIN HAl 42 (PK NO. 357 -41) C = 3.30 (HYDROGEN LINES) VV 2 31.20 19.73 34.34 21.72 4026 -HE I 2 - 00 2.00 2* -2.19 WAVF IDENT N RG RFF ORS T AVF n CORR T Av F r 4069 (S II ) A 5. 10 5.55 4340 VV4 22.00 60.44 60.44 4072 (S II) A41 3.10 3.37 4686 HE II VV4 170.00 240.47 A 4076 _LS II ) A 5. 10 5.54 4B61 VV4 , loo.no inn.nn inn.nn A 26. 00 29.00 28. 19 31.44 4959 (0 III) l VV4 280.00 280.00 238.43 238.43 A41 21.00 29.00 22.77 31.44 5007 (D Ml ) 1 VV4 790.00 790.00 620.66 620.66 VV 2 40.00 29.00 4^. 3A 31.44 A 51.00 47.97 53. 89 50.68 42 (PK NO. 357 -4 1 ) A41 40.00 47.97 42.27 50.68 VV 2_ 57.90 47.97 55.90 50.68 4363 (0 III) VV 2 10.00 A 10.54 A 4471 HF I 2.70 5.75 2.82 6.00 BEGIN HA 1 44 (PK NO. 358 -3 1 ) C = 0.0 (NO CALCULATION) _8.AO .75 . 18 6.00 4686 HE II 7.60 7.60 7.75 7.75 WAVF IDENT N RG REF OBS I AVE O CORR I AVE C 4861 H I 100.00 100.00 100.00 100.00 6563 H I I HE6 7 1 •00*A 1 « 00*A A4J ion.no i nn.no inn.nn 1-00.00 ■ ■6.584 LN U ) 1 HF6 7 —0.60*A 0.80*A 0D62 100.00 100.00 100.00 100.00 VV 2 100.00 100.00 100.00 100.00 44 (PK NO. 358 -3 1) 4. an 4.80 4.76 4.76 (0 III ) 16. 10 18.97 15.89 18.72 0D62 12.60 18.97 12.44 18.72 VV 7 78. 20 1A.97 ■ 77.A3- 18.72 -BFfilN HA 1 46 ( PK Nfl. 3 58 -4 1 ) C ^ 1.50 (ESTIMATE) 5411 HE II VV 2 29.40 29.40 27.94 27.94 5876 HE I VV 2 20.00 20.00 18.30 18.30 WAVE IDENT N RG REF OBS I AVE 0 CCRR I 6300 —LQ I L VV 2 . 1 8.20 Ift^PO 16^ L3- 1 6.13 —4.340 H T 1 VV4. 6563 VV 2 576.40 502.49 4861 H I 1 VV4 100.00 100.00 100.00 100.00 6563 VV 2 576.40 502.49 4959 (0 III) 1 VV4 140.00 140.00 130.14 130.14 5007 LQ Li T ) 1 VV4 350. 00 350.00 313.65 3X3.65 (PK NO. 38+12 1) 46 (PK NO. 358 -4 1) 1 (PK NO. 290+ 7 1) 0.33 (RADIO—H BETA) BEGIN HA 1 kl ( PK NO. -Cun (NO CAI rill ATT DM I WAVE IDENT N RG REF OBS I CORR I 3727 (O II ) 1 AF 31.00 38.89 WAVE IDENT N RG REF OBS I AVE Û CORR I AVE C 3868 (NE I II ) 1 AF 74.00 90.00 90.00 6563 H I 1 HE67 1.00*A 1.00*A 3970 H I 2 AF 29.00 34.55 6584 (N II ) 1 HE67 l.00*A 1.00*A 3970 (NE III ) 2 AF 29.00 34.55 41Q1 H I 1 Af_ 3.2.00 37. 10 END ÜAJ, 47 (PK NO. 1 ~3 1) 4340 HI 2 AF 46.50 51.44 4363 (0 III) 2 AF 46.50 51.22 4686 HE II 1 HR 29.50 30.54 1 100.00 100.00 100.00 100.00 49 ( PK NC. 358 -5 2) = 3.30 (HYDROGEN L INES) 1 100.00 100.00 100.00 100.00 4959 -IQ III) 1 AF 250.QQ 250^.00 246.01 246.01 AVE O CORR I (0 I II ) 1 3869 (NF III) 1 VV4 77.00 543.98 3889 H I 2 VV4 25.00 168.74 .END EG- _1 (P* ND. 290+ 7 1) 3889 HF I 2 VV4 25.00 168.74 4102 H I 1 VV4 16. CO 16. 00 70. 12 70.12 4340 H I 1 VV4 25.00 25.00 68.68 68.68 4363 (0 I II ) 1 VV4 14.00 14.00 36.82 36.82 BEGIN HA 1 7 (PK NO. 345 •11) C = 0.0 (NO CALCULATION) 4645 C III 2 VV4 12.00 A 18.41 A 4645 N III 2 VV4 12.00 A 18.41 A _HAY-E IDFNT N RG REF QBS I AVE Q CQRR I AVE C —4-6.86 HF U 1 VY4 5.00 A 7.07 A 6563 I 1 HE67 1.00*A 1•00*A 4861 H I 1 VV4 100.00 100.00 100.00 100.00 6584 (N II ) 1 HE67 0.50*A 0. 50*A 4959 (0 III) 1 VV4 360.00 360.00 306.55 306.55 _5-QQ7 LO III ) 1 VV4 840.00 840.00 -659.94 659.94 (PK NO. 345 -1 1) 49 ( PK NO. 358 -5 2) 16 (PK NO. 0+42) C = 1.50 (ESTIMATE) . BEGIN HA1 54 ( PK NO. —2-T-4 1) C = 1.50 (ESTIMATE) WAVE IDENT N RG REF OBS I CORR I AVE C 5007 (C III) 1 VV3 2.30* 2.06* WAVF IDENT N RG RFF OBS I AVE O CORR I AVE C 6563 H I 1 VV3 2.90» Q. 92* 4959 (0 III) 1 VV3 6. 50* 6.04* 5007 III) 1 VV3 8.30* 7.44* 16 (PK NO. 6563 I l HE6 7 1.00*A 0.32*A -1 Y.Y3 LL.2Q* 5.48* 6584 (N II ) 1 HE67 0.10*A BEGIN HA 1 35 (PK NO. 355 -3 3) 2.60 (HYDROGEN LINES) END HAJ 54 (PK NO. 2-41) WAVE IDENT N RG REF □ BS I AVE CORR I AVE C WO _i m... 16.00 16.00 35.47 35 »47 4861 H I 1 VV4 100.00 100.00 100.00 100.00 BEGIN HA 1 55 (PK NO. 1-41) C = 0.0 (NO CALCULATION) 4959 (0 I II ) 1 VV4 140.00 140.00 123.35 123.35 5007 _LQ IIl-LL VV4 47.Q-._QQ— 47Qj_QQ 388.64 388.64 WAVE IDENT N_ RG REF QBS I AVE 0 CORR I AVF C 6563 H I 1 HE67 1.00*A 0.14*A 6563 I l HE67 i.00*A 1•00*A 6584 (N II ) 1 HE67 0.10*A 0. 01*A 6584 II ) l HE6 7 0.80*A 0.80*A 35 (PK NO. 355 -3 3» 5 5 ( PK NO. 615 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued PEGIN HAI 63 (PK NO. 2 -6 Zi Q.Q ( HYDROGEN LINE.SJ l_ BEGIN HR -5 (PK N CL 359 -Q 1) G = 1.71 t R AD I fl—H RFTAI WAVE IDENT N RG REF OBS I AVE 0 COPR I AVE C WAVE IDENT N RG REF OBS I AVE 0 CORR I 43^0 H I I VV4 48.00 ^9tQ0. 48.00 48.00 3727 (0 II ) I AK I 16.00 52.53 4861 H I VV4 100.00 100.00 100.00 100.00 3797 H I 1 AK! 2.90 2.90 8.81 8.81 4959 (0 III) VV4 120.00 120.00 120.00 120.00 3835 H I 1 AKI 3.30 3.30 9.58 9.58 5500 (0 III) VV4 270.00 270.00 270.00 270.00 3868 (NE III ) _L AKI 47.00 47.00 _13.1« .131.14 3889 I AKI 10.20 27.76 63 ( PK NO. 3889 HE I AKI 10.20 27.76 3967 (NE III) AKI 15.90 39.94 3970 H I 2 AKI 15.90 39.83 4068 (S II) 1 AKI 2.90 2.90 6.54 6.54 RFGIN HA2 1 (PK NO. 350-»- 4 1) C = 0.0 1NQ CALCULATION) —4076 _LS II—L J 4101 1 AKI AKI 0.50 Q« 50... 10.60 10.60 1.12 23.02 ■ 1.12 23.02 WAV F IDENT N PG REF OBS I AVE G CORR I AVE C 4340 1 AKI 27. 30 32.65 46.37 55.46 6563 H I 1 HE67 1.00*A 1.00*A -1 VV4 38.00 32.65 64.55 -55.46- 6584 (N 11)1 HE67 0.20*A 1 AKI 18.50 15.75 30.71 26.15 1 VV 4 13.00 15.75 21.58 26.15 END HA2 1 (PK NO. 350» 4 1) 4471 HE I -1 AKI 3.30 3.30 4.95 4.95 4541 HE II AKI 2.50 2.50 3.49 4640 N III AKI 6.90 6.90 8.68 4686 HE II . —A.Kl. . .58^00 71.50 85.76 REGIN HA2 35 (PK NO. 356 -5 1) 0.0 (NO CALCULATION) l VV4 85.00 71.50 101.95 85.76 4711 (AR IV 1 1 AKI 9. 30 9.30 10.86 10.86 CORR I 4711 HE I .2 AKI -3L.3H.. 10-86 3727 (P I I ) l 3.80B 3. 808 4713 (AR IV ) AKI 9.30 10.84 3868 (NF III) 1 5.40B 5.408 4726 (NE IV ) 1 AKI 5.30 6.09 3967 (NE HD 2 2*2Q3-.. 2,208 . 4740 I AR IV 1 J AKJ , 22-00 24.91 3970 I 2.20B 2.208 1 AKI 100.00 100.00 100.00 100.00 4101 I 2. 50B 2. 508 1 0D63 100.00 100.00 100.00 100.00 4340 _Ü I— 6.2QR 6,20R -J 1nn.no inn.no i nn-nn 4363 (D 111)1 RM 0. 0.0 1 AKI 715.00 647.50 657.23 595.18 4861 H T 1 RM 10.00B 10.00B 1 VV4 580.00 647.50 533.13 595.18 4959 (0 I II ) 1 RM 3 1,00.8. 31,008 . _J nn63 1410.00 1 555.00 1242.49 1370.26 5007 (P HT) 1 PM 120.OOB 120.008 1 VV4 1700.00 1555.00 1498.03 1370.26 6548 (N II ) 1 RM 17.00B 17.008 6300 (0 I 1 VV4 92.00 92.00 28.86 28.86 6563 H I 1 RM 40.OOB 40.OOB 6563 H L -2 VV4 4230^00- 1131.29 (N 11)1 _3_5 ( PK NO. —356 -5 1) < PK NO. 359 -0 1 > BEGIN HA2 38 (PK NO. C = 1.50 (ESTIMATE) BEGIN HR (PK NO. C = 1.63 (RADIO-H BETA) N PG REF AVE C CQRR.I AVE C 5007 (0 I II ) VV3 3. 10* 2. 78* 3727 (C II ) 1 VV4 40.00 122.61 6563 VV3 35.00* 11. 15* 3889 VV4 31.00 A 79.61 A 3 8 ( PK NO. 3970 (NEIII) 2 VV4 21.00 49. 88 4102 H I 1 VV4 14.00 14.00 29.05 29.05 4340 H I I VV4 30.00 30.00 49.42 49.42 4686 HEII VV4 25.00 25.00 29.67 29.67 43 (PK NO. 11 -9 1) C = 0.0 (NO CALCULATION) 4861 I VV4 100.00 100.00 100.00 100.00 4.Q5Q im i WAVE IDENT- N PG REF DBS I AVE 0 CORR I 2 VV 5 27.00* 24.94* 6563 H I 1 HE67 1.00*A 1.00*A (P I 11 ) 1 VV4 650.00 650.00 576.98 65B.4 LN I I ) I HF67 i .nota i.nn*A y v5 27.QQ* . 21^97.^. 1 VV 3 28.00* .08* 48 ( PK NO. 2 VV4 870.00 251. 11 2 VV5 37.00* 10.68* (N II ) 2 VV4 870.00 251.11 VV5 37.00* 10.68* BEGIN HA4 1 (PK NO. 49+88 1) 0.14 (HYDROGEN LINES) 6723 (S 11)1 VV? 2, QQ* Q.53* 6730 (S II ) l VV3 2.00* 0.53* WAVE OBS I AVE 0 CORR I AVE C 3426 1.80 1.80 2.03 ■ ■2.-.02- END _6 (PK NQ, 7» 1 1) 3444 4. 40 4.96 3727 240.00 264.24 3869 8. 10 8. 80 8.80 3889 H I M I 69 30. 10 32. 64 7 (PK NO. 3-14 1) C = 1.33 (HYDROGEN LINES) \ 3889 HE I MI69 30. 10 32.64 4102- —H I_ 1 MI 69 27.4Q 25.25 79. 1 7 WAVE IDENT N RG REF OBS I AVE Q ÇQRR I AVE C MI 7 3 23.10 25.25 24. 59 26.88 3868 III ) 2 31.80 69.99 4340 1 M16 9 52.90 48.20 55.22 50.31 3889 I 2 LA 31.80 68.65 1 M I 73 4 3.’ 50 48.20 45.41 50.31 3967 III) 2 LA 20.00 40.61 4363 (Q III I 1 MI69 12.80 12.80 13.34 13.34 3970 T 2 LA 20.00 40. 51 4471 HE I 1 MI 69 5.60 5.60 5. 79 5.79 4101 I 1 LA 10.40 10.40 18. 88 18.88 4686 HF II i 10.40 MIOS 100.00 1Q.4Q 1Q.55- 1Q.55- 4340 £_ J 1 LA- 39.80 39.80 59.81 59.81 1 MI 69 100.00 100.00 100.00 4363 (O I II ) 1 LA 12.30 12.30 18.16 18.16 1 MI 73 100.00 100.00 100.00 100.00 4861 HI 1 LA 100.00 100.00 100.00 100.00 1 M I 6 9 213.Q.Q- ¿11.55. 211.55 . 4959 LQ III) 1 LA- 24Q.QQ 240.00 224-95 224.95 5007 (0 III) M 169 669.00 669.00 662. 19 662.19 (0 IIDl 5876 HE I l M I 69 15. 70 15.70 14. 65 14.65 6548 (N II) 1 MI 6 9 37.00 37.00 33.28 33.28 ENP hr_ ..(.PK NO.. 3-14 1) h i 1 MI 69 298.00 296.00 267.83 266.04 l M I 73 294.00 296.00 264.24 266.04 _LN Il ) 1 M 16 9 12Q.« Q.Q— 12Q.0Q 107a74 1Q7.74 BEGIN HB 12 (PK NO. Ill -2 1) 0.98 (HYDROGEN L INES) 1 (PK ND. 49+88 l) WAVE _lüfJH M RQ REF DBS I AVE Q COFR I AVE C 3634 l PG AKI 0.80 0.80 1.65 1.65 3669 l PG AKI 0. 70 0.70 1.42 L .42 BEGIN HB _4 (PK NQ. 3t 2 1) C = 1.52 (RADin-H RETA1 3671 _ü L_ -L.P.G. AKI. Q.6Q Q.6Q 1.22 1.22- 3673 I l PG AKI 0.80 0.80 1.62 1.62 IDENT N RG REF DBS I AVE 0 CORR I AVE C 3676 I 1 PG AKI 0.90 0.90 1.82 1.82 4861 —H I_ 1 0D63 IQQ.Qfl 1QQ.QQ 100.00 1QQ.QQ 3629- _ü I_ 1 PG AKI 1-00 1.00 2.02 2.Q2_ 4959 (o uni VV3 7.70* 7.15* 3682 1 PG AKI 1.00 1.00 2.01 2.01 5007 (0 111)1 0D63 912.00 912.00 816.08 816.08 3687 l PG AKI 1.20 1.20 2.41 2.41 L- VY-3 19.00* LLlQÛ* 3692 . 1. PG aki 1.5Q 1.5Q 3.Q1 3.Q1 6563 VV3 51.00* 16.01* 3697 H I 1 PG AKI 1.90 3.80 6730 (S II ) 1 VV3 2. 60* 0.75* 3703 H I 2 PG AKI 2.20 4.38 3703 ..HE. .L 2 PG AKI 2.20 4.38 3+ 2 1) 3712 1 PG AKI 2.40 4.75 3722 2 PG AKI 6.50 12.79 12 ( PK NO. 111-2 1) 616 © American Astronomical Society • Provided by the NASA Astrophysics Data System TABLE 8—Continued 197 6ApJS. . .31. 12 CPK NO. Ill -2 II __L8 1PK NH. ?TK -3 1) WAVE IDENT N RG REF OBS I CORR I AVE C WAVE IDENT N RG REF OBS I CORR I 3722 ( s mi 2 PG AKI 6.50 12.79 -3.970 , _H I __2 JEC 12.00 A (0 II ) 1 10.00 19.62 4101 1 JEC 3.00 A 4.47 A l PE AKI 8.50 16.68 4340 l JEC 20.00 A 26.27 A 1 PG AKI 4.50 8.83 4861 _L JEC .00 A .QQ-A- l VV 2 9.00X 17. 66X 100.00 100.00 100.00 100.00 3729 (0 II 1 1 PG AKI 1.50 2.94 4959 (0 III ) 1 JEC 20.00 A 19.15 A 3734 __±) I 4.80 4.10- ■-9>37_ .5007 10 III > 1 JEC -30.00 A 28.11 A 1 PG AKI 3.40 4.10 6.64 8.00 1660.00 1660.00 1555.43 1555.43 1 A 4.00 4.15 7.73 8.02 1 PG AKI 4,30 4.15 8.31 8.02 END HE2 18 CPK NO. 273 -3 It 3770 4. 10 4.50 7.82 8.59 1 PG AKI 4.90 4.50 9.35 8.59 3 7_9_7_ _11 PG AKI A— t.9JL 5.40 9. 19 10.13- 5.90 5.40 11.07 10.13 26 (PK NO. 278 -61) C = 0.50 CRADIO-H BETA) 3819 HE I 1 PG AKI 1.60 1.60 2.96 2.96 3835 _H I 6.00 6.85 10.97 12.53 -MAVE IDENT N RG REF OBS I —AVE Q CQFR I AVE C l PG AKI 7.70 6.85 14.08 12.53 4861 I l WR 100.00 100.00 100.00 100.00 l A 45.00 39.37 80.47 70.40 5007 (0 I II ) 1 WR 1290.00 1290.00 1243.70 1243.70 I PE AKI 42.10 3^.37 75.29 70.40 1 PG AKI 31.00 39.37 55.44 70.40 HE2 26 (PK NO. 278 -6 1) 1 11.00 11.00 19.39 19.39 2 PE akj_ •-IQ- 12.52 2 PG AKI 12.10 21.33 2 PE AKI 7. 10 12.52 28 (PK NO. 275 -21) C = 0.96 (DUST MODEL) 3967 2 Pf. AKI 1?.10 ■ 21.33..- WAVF IDENT N RG REF OBS I (NE III) 2 A 28.00 47.18 AVE 0 CORR I AVE C 1 PG AKI 19.30 32.52 4861 H' I 1 WB 100.00 100.00 100.00 100.00 3967 __h L_ 2 28.00 47.18- -5.0.0 7 , _LQ MW AI bLS 1660.00 1660.00 .1547.49 1547.49 2 PE AKI 31.10 52.41 1 PG AKI 16. 50 27.80 28 (PK NO. 275 -2 1) 397.Q- (NE III) 2 PE AKI 31.10- 52.32 4009 HE I 1 PG AKI 0. 10 0.10 0. 16 0.16 4026 HE I 1 PG AKI 3. 10 3.10 5.04 5.04 4068 _LS II ) 1 PG AK.I— 1.40 1.40 2.22- 2.22 BFOTN HF 7 2j9 ( PK NO. 775 -7 7 1 0.97 (DUST MOOFt ) 4076 II ) 0.50 0.50 0. 79 0.79 4101 I 17.00 18.50 26.38 28.71 OBS I 1 8-40 1 8.50 74.33_ 100.00 l PG AKI 19.60 18.50 30.42 28.71 5007 (0 III) 1 WB 186.00 186.00 173.90 173.90 4144 HE I l PG AKI 0.40 0.40 0.60 0.60 4267 _C U_ 1 PG AKI 0.40 —0.40- 0. 56 . -F-ND bL£2 29 t PK NO. 2 Z5—--2- 2) 36.00 48.60 2 PE AKI 26.00 35.10 ■ I PG AK I— 31.00 41.85 1 60.00X 81.00X 36 ( PK NO. 279 -3 l) 1.50 (ESTIMATE) (0 III) 1 22.00 29.32 7 PF AKI 7A. nr> R4-h* l PG AKI 22.00 22.00 29.32 29.32 46 86 HF I I l 100.00 100.00 117.07 117.07 4387 HE I 1 PG AKI 0.80 0. 80 1.05 1.05 4861 H T l 100.00 ICO.00 100.00 100.00 4471 HF I _) A_ 7.40 7. 1 5 —9.31 8.-9.9 -5-007 -ID T 11 ) 1 -l-LSO.OO 1150.PC 1 030. 56 1030.56 1 PG AKI 6.90 8.68 4711 (AR IV ) 2 PG AKI 1.10 1.20 36 (PK NO. 279 -3 1) 4713 HF I 2 PG AKI- . 10 1-70 1 A 100.00 100.00 100.00 100.00 1 PE AKI 100.00 100.00 100.00 100.00 1 PG AKI IQQ.Qfl- 1QQ.Q0 1QQ.QQ- 1QQ.QQ RFOTN HF? 3Q (PK ND. 7R3 -4 1 > r = n.n (no cai mi attdni 1 0D6 3 100.00 100.00 100.00 100.00 1 VV 2 100.OOX 100.OOX WAVE IDFNT N RG REF ORS I CORR I 4921 HE II l PG AKI 2.50 2.50 2.43 2.43 3727 (O II ) 1 JEC 50.00 A 50.00 A 4959 (0 III) 1 A 130.00 149.33 123.94 142.37 3868 (NE I II ) 1 JEC 25.00 A 25.00 A l PE AKI 140.00 149.33 133.48 142.37 3967 (NE I II) 2 JEC 5.00 A 5.00 A 1 PG AKI 178^00- 149.33 169.70 142,. 31 —3970 Ü I 2 JEC 5. 00 A 5.00 A 1 VV 2 125.OOX 119. 17X 4340 l JEC 10.00 10.00 (0 III) 1 A 310.00 348.00 288.57 323.94 4959 (0 I 11 ) l JEC 16.00 A 16.00 1 PE AKI . 459t-QP_ ?48tOQ 427t 27 323.94 5007 (0 I I I ) 1 JEC -SQtQQ A 50.QQ A l 0D63 275.00 255.99 l VV 2 220.OOX 204.79X 39 (PK NO. 283 -4 1) _2 VV—2 250.QQ 118.44 (N II ) 2 REGION KEY (REG ION.REFERENCE.EX PLANAT ION) BEGIN HE2 47 ( PK NO. 285 -2 1) Q.O (NO CALCULATION) PE, AKI , PHOTOELECTRIC OBSERVATIONS PG. AKI , PHOTOGRAPHIC OBSERVATIONS WAVE IDENT N PG REF ORS I AVE 0 CORR I 6563 H I I HE67 I.00*A 1.00*A 12 (PK NO. Ill -2 1) 6584 (N II ) L HE67 l.CO*A END HE 2 47 (PK NO. 285 -2 1) (PK NO. 264 -81) C = 0.49 (RADIO-H BETA) WAVE IDENT N RG REF OBS I AVE O CORR I AVE C 50 (PK NO. 283+ 31) C = 0.0 (NO CALCULATION) 3727 (O II ) 1 LK 105.00 147.04 3868 (NE I II ) 1 LK 123.00 123.00 164,49 164.49 3969 (NE III) 2 67.50 87.57 3727 (O II ) l JEC 350.00 350.00 A 3969 H I 2 LK 67.50 87.57 3868 (NE III) l JEC 180.00 180.00 A 4101 __ü I L_ LK 24.J5JL 24.50. 30.52 3889 H I 2 JEC 10.00 10.00 A 4340 HI I LK 52.30 52.30 60.77 60.77 3889 HF I 2 JEC 10.00 A 10.00 4861 HI I LK 100.00 100.00 100.00 100.00 3967 (NF I III 2 JEC 100.00 A 100.00 A .4959 to. lili 1 LK_ 657.00 657.00 641.51 641.51 3970 H I 2 1QQ.QQ A 100.00 A 5007 (0 III) 1 LK 1210.00 1210.00 1167.42 1167.42 4101 H I JEC 50.00 50.00 A 4340 H I JEC 150.CO A 150.00 A -END ÜL2 I (PK NO. ¿64 -..8. li 4686 he n J.E£_ jU-QO.A- 4861 I 1 JEC 100.00 100.00 A 4959 III) 1 JEC 200.00 A 200.00 A _5Q07 111)1 JEC 350.00 A 35.Q.QQ A (PK NO. 273 -31) C = 0.89 (OUST MODEL) 50 (PK NO. 283+ 3 1) WAVE IDENT 3727 (0 II ) 1 JEC 100.00 A 184.34 A 3868 (NE III) 1 JEC 25.00 A 42.38 A -3889.. H I 2_ JEC l.QQ- A 1.67 A 3889 HE I JEC 1.00 1.67 3967 (NE III) JEC 12.00 19.27 18 (PK NO. 273 -3 1) 617 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. TABLE 8—Continued HE2 111 (PK NO. 315 -0 1) BEGIN HE2 123 2.43 (HYDROGEN L INES) WAVE IOENT N RG REF OBS I CORR I WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C 4686 HE II I JEC 40.00 A 45.42 A 4340 H .._I _L WB -22* 00 22.00 46.30 46.3Q 4861 I 1 JEC 5.00 A 5.00 A 4861 H I 1 WB 100.00 100.00 100.00 100.00 4959 (0 III) l JEC 30.00 A 28.28 A 5007 (0 III) 1 WB 190.00 190.00 159.07 159.07 5007 (0 III) 1 JEC 100.00 A 91.53 A HE2 123 iPK NO. 323+ 2 l) HE2 111 (PK NO. 315 -0 1) BEGIN HE2 125 (PK NO. 324+ 2 1) C = 1.66 (HYDROGEN LINES) BEGIN HE2 LL3 ( PK NO. 320+ 4 1) 0.0 (HYDROGEN.LINES) IOENT N RG REF WAVE OBS I AVE 0 CORR I AVE C WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C 4340 H I l WB 28.00 28.00 46.55 46.55 4340 H I 1 WB 78.00 78. 0(J 78.00 78.00 4861 H I 1 WB 100.00 100.00 100.00 100.00 4861 H I 1 WB 100.00 100.00 100.00 100.00 6563 H I 1 HE67 1•00*A 1•00*A HE 2 125 (PK NO. 324+ 2 1) . 6584_ _LN II ) 1 HE67 0. 8Q*A 0.8Q»A HE2 113 (PK NO. 320+ 4 1) BEGIN HE-2 121 ( PK NO. ,325t 4 2) 1.23 (HYDROGEN LINES) WAVE IDENT N RG REF ORS I AVE 0 CORR I AVE C BEGIN HE2 114 (PK NO. 318 -21) C = 0.0 (NO CALCULATION) 4340 Fl I 1 WB 32.00 32.00 46.64 46.64 4363 (0 III) 1 29.00 29.00 41. 58 41.58 WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 4686 HE I I l 47.60 47.60 54.17 54.17 3727 ID LL_ J_J JEC— 100-00 A 1Q0.QQ A 4861 1QQ.QQ i on.on i on.on i on.no RM 0.0 B 0.0 B 5007 (0 III) l WB 110.00 110.00 100.54 100.54 (NE III) I JEC 25.00 A 25.00 A 3883- JEC 0-75 A 0-75 A END HE ? 177 I PK MPI. U ?1 3889 HE I JEC 0.25 0.25 3967 (NE III ) 2 JEC 3.00 A 3.00 A 3970 _H I ■ipr 3. QQ A 3.00 A 4101 1 JEC 1.00 A 1.00 A BEGIN HF2 128 (PK NO. 325+ 41) C = 1.04 (HYDROGEN LINES) 4340 1 JEC 20.00 A 20.00 A 486I_ _J JEC 3.QQ A 3.QQ A TDENT N RO REF OBS I 1 RM 10.00 A 10.00 A 4340 34.00 34.00 46.75 46.75 1)1 JEC 14.00 A 14.00 A 4861 1 WB 100.00 100.00 100.00 100.00 1 RH 24-0QB 24.QQB -5007 T) 1 WB 120.00 170.00 U 1^2-1 1-11.21 1) 1 JEC 35.00 A 35.00 A 6563 I 1 HE67 1.00*A 0.45*A l RM 76.00B 76.OOB 6584 II ) 1 HE67 0.20*A 0.09+A 5876 HE I 1Q-OOB 10-QQ B 6300 (0 I ) 1 12.00 A 12.00 A (PK NO. 325+ 4 1) 6363 (0 I ) l 0.0 R 0.0 B 6548 _LN LI Aft- nnR 6563 I 1 RM 90.OOB 90.OOB 6584 II ) 1 RM 190.OOB 190.OOB BEGIN HE2 129 (PK NO. 325+ 3 1) 1.33 (HYDROGEN L INES) HE2 114 (PK NO. 318 -2 l) WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 4340 H I 1 WB 31.00 31.00 46.59 46.59 4861 H I _1 Mfi 100.00 icn.on 1 00.00 1 00.00 5007 (0 III) 1 WB 135.00 135.00 BEGIN HE2 115 (PK NO. 321+ 2 1)' C = 1.54 (HYDROGEN LINES) END HE 2 129 1 PK NO- 325+ 3 11 WAVE IDENT OBS I AVE 0 CORR I AVE C 4340 H I 29.00 29.00 46.47 46.47 ..486.1- 1QQ.QQ- i nn.no 100-00 100.00 5007 (0 III) l WB 479.00 479.00 428.00 428.00 BEGIN HE2 131 (PK NO. 315-13 1) C = 0.36 (PADIO-H BETA) END HE 2 115 (PK NO. 321+ 2 1) WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C ^Sól HI 1 WB 100.00 100.00 100.00 100.00 5007 (0 III) l WB 13.00 t 13.00 12.66 12.66 BEGIN HE2 117 (PK NO. 321+ 2 2) C = 3.08 (HYDROGEN LINES) HE 2 131 (PK NO. 315-13 1) IDENT N RG REF QES AVE 0 CORR I AVE C 4340 1 WB 18.00-L- 18.00 46.23 46.23 4861 H I 1 100.00 100.00 100.00 100.00 BEGIN HE 2 132 (PK NO. 323 -2 1 ) C = 0.13 (HYDROGEN LINES) 5007 (0 III ) 1 795.00 795.00 634.71 634.71 6563 H I 1 HE6 7 l.OO+A 0.10*A WAVE IDENT N RG REF OBS 1 AVE O CORR I AVE C 6584 (N II ) l HE67 0.20*A 0.02*A 4340 HI 1 WB 45.00 45.00 46.83 46.83 4861 HI 1 WB 100.00 100.00 ICO.00 100.00 HE2 117 (PK NO. 321+ 2 2) 5007 (0 III) l WB 760.00 760.00 752.81 752.81 END HE 2 132 (PK NO. 323 •2 1) BEGIN HE2 118 (PK NO. 327+13 1) 0.28 (HYDROGEN LINES) WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C BEGIN HE2 133 (PK NO. 324 -1 1) 0.44 (HYDROGEN LINES) 4340 H I 1 WB 43.00 43.00 46.85 46.85 4861 H I 1 WB _LQ& 00 100.00 100.00 100.00 N RG REF O&S I AVE 0 CORR I AVE C 5007 (0 III) 1 WB 1170.00 1170.00 1146.29 1146.29 4340 HI 1 WB 41.00 41.00 46.91 46.91 4861 HI 1 WB 100.00 100.00 100.00 100.00* END HE2 118 (PK NO. 327 + 13 1) 5007 (O I II ) 1 WB 135.00 135.00 130.73 130.73 HE2 133 (PK NO. 324 -1 l) BEGIN HE2 119 (PK NO. 317 -51) C = 0.0 (NO CALCULATION) WAVE- IDENT N RG REF OBS I AVE Q CQRE—I. —AVE C BEGIN HE-2 124 ( PK NO. 319 -9 1) 0.15 (RADIO-H BETA) 3727 (0 II ) 1 JEC 100.00 A 100.00 A 3868 (NE III) 1 JEC 40.00 A 40.00 A WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 3882. _tí I 2_ JEC 1.QQ—A_ 1-00 A 4340 HI 1 WB 39.00 39.00 40.83 40.83 3889 HE I 2 JEC 1.00 A 1.00 4861 HI 1 WB 100.00 ICO.00 100.00 3967 (NE III) 2 JEC 15.00 A 15.00 A 3970 H I 2 J.EÇ- 15.00 A 15.00 A END HF2 134 (PK NO. 319 -9 1) 4101 HI 1 JEC 8.00 8.00 A 4340 HI 1 JEC 35.00 A 35.00 A 4686 HE IT 1 JEC 1-QQ A 1.QQ A 4861 HI 1 JEC 15.00 A 15.00 A BEGIN HE2 136 (PK NO. 322 0.75 (RADIO-H BETA) 4959 (0 III) 1 JEC 20.00 A 20.00 A 5001 LQ HD 1 JEC 80.00 A 9Q.0Q A —WAVE IDEM! N RG REF OBS I 4340 38.00 38.00 47.81 47.81 HE2 119 (PK NO. 317 -5 1) 4861 100.00 100.00 100.00 100.00 HE2 136 (PK NO. 322 -6 1 ) 619 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. TABLE 8—Continued - HE2 136 (PK NO. 322 -6 1) „BEGIN HF.2 UÜ, LPK__NO, 326 -6 1) C = 0.58 (RADIO-H BETA1 WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE.C WAVE IDENT N RG REF OBS I AVE 0 CORR I 5007 (Q III) 1 WB 1260.00 ■12J&Q.« ÍLQ 1192.77 1192^77 4340 H I -J W9 38.00 38.00 4861 H I 1 WB 100.00 100.00 -^>,■3.9- 100.00 ^i39 HE2 136 (PK NO. 322 -6 1) 6563 H I I HE67 1.00*A 0.64*A . 8394 JLN II ) 1 HE67 a*IQ*a Q« Q6*A... HE 2 151 IPK NO. 326 -6 1) 8EGIN HE2 L2J I PK -MO. 320,^9 1) C = Q.Z3. (PAD1Q-H BETA1 WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 4340 H I 1 WB 31.00 31.Q.Q- . 33..¿6 3-3.» 26.. BEGIN HE2 L52 ( PK NO. 333+ 1 1 ) —3.Q8 (HYDROGEN LINES) 4861 HI 1 WB 100.00 100.00 100.00 100.00 WAVE IDENT N RG REF OBS I AVE O AVE C END HE2 138 ( PK NO. 320 -9 11 4340 H I _1 WB. U-ß.t-QQ 18.00 -4.6 t 23. .4.6.« 23— 4363 (O 111)1 8.55 8.55 21.08 21.08 4686 HE II 1 WB 83.40 83.40 115.28 115.28 -4861 H I 1 Hü_ 1QQ.QQ U3.Q.QQ 100.00 100.00 BEGIN HF 2 140 (PK NO. 327 -1 2» C = 2.01 (HYDROGEN LINES) 5007 (0 III ) i WB 955.00 955.00 762.45 762.45 6563 H I 1 HE67 1.00*A 0.10*A WAVE . IDENT N RG REF QBS L. ..AVE.-Q CQRR I AVE C 6384 -iiü LL-i-l HE67 l.2Q*A 0. 11 *A 4340 H I 25.00 25.00 46.27 46.27 4061 H I 100.00 100.00 100.00 100.00 HE 2 152 (PK NO. 333+ 1 1) 65.63 hi I— HE67— 1. QQ*A Q«-22*A 6584 (N II ) l HE67 0.80*A END ÜE2 UlO IPK NO. 121—\ 2) -BEGIN HE2 151 ( PK NO. 330 -2 1) ■0.59 (HYDROGEN (INFS) WAVE IDENT N RG REF OBS I CORR I AVE C 3727 LQ II ) 1 J EC 1QQ.0Q A -15Q.QQ A BEGIN HE2 141 ( PK NO. 325 -4 1» C = 0.84 (RADIO-H BETA) 3868 (NE III) 1 J EC 25.00 A 35.48 A 4340 H I I J EC 10.00 A 11.98 A HAVE IDENT N RG REF DBS I AVE Q CURB I AVE C 4340 H I 52.00 52.00 67.25 67.25 4861 H I 1 WB 100.00 100.00 100.00 100.00 4363 (0 III) WB 18.00 18.00 23.02 23.02 4959 (0 III) 1 J EC 15.00 A 14.58 A 468.6 HE II W3_ 41. ZD..- 41.70 45.55 45.55 5 007 _m un i WB 831.00 831.00 795.97 795.97 4861 H I 1 100.00 100.00 100.00 100.00 5007 m in » i 1380.00 1380.00 1297.80 1297.80 END HE2 153 (PK NO. 330 -2 1) HE2 141 (PK NO. 325 -4 1) RFGIN HF? L5-5 LPK NO. 3.3B+ 5 1 ) f. = 0.68 ( H YDfiDGE N l rNFÇl BEGIN HF2 142 (PK NO. 327 -2 1) 1.52 (RADIO-H BETA) WAVE IDENT N RG REF OBS I CORR I 3727 LQ II » J JAC- 60.00 A 95.74 A WAVE ID N RG REF OBS I AVE 0 CORR I AVE C 3835 J EC 0.25 0.38 A 4340 H l WB 30.00 30.00 47.78 47.78 3868 (NE III) J EC 120.00 A 179.62 A 486J H_ _1 H-8 100.00 100.00 1 00.00 100.00 3889 ti I - J EC. 30.00 A 6563 H I l HE6 7 l.00*A 0.31*A 3889 HE I JEC 30.00 A 44.46 A 6584 (N II ) 1 HE67 0.80*A 0.25*A 3967 (NE III) J EC 60.00 A 86.18 A -3370 H I JEC HE 2 142 (PK NO. 327 -2 1) 4101 JEC 50.00 A 67.82 A 4340 JEC 100.00 A 123.15 A 4471 HE I JEC 0.25 A 0.29 BEGIN HF 2 143 (PK NO. 327 -1 1) 0.43 (HYDROGEN L INES) 4861 H I JEC 100.00 A 100.00 WB I no. on i no.nn WAVE N RG REF OBS I AVE 0 CORR I AVE C 4959 (0 III ) JEC 170.00 A 164.46 A 4340 l WB 41.00 41.00 46. 77 46.77 5007 (0 III) JEC 300.00 A 285.45 A 4861 100.00 100.00 100.00 100.00 WB 1020.00 1020.00 970.53 970.53 5007 (0 I II ) 1 1820.00 1820.00 1763.68 1763.68 END HE 2 155 (PK NO. 338+ 5 1) end HF? 143 (PK NO. 327 -1 1) BEGIN HE2 156 LEUJíQ.« . 3.38+ 5 2) —Q.Q (HYDROGEN LINES) BEGIN HE 2 145 (PK NO. 331+ 0 1) C = 0.0 (HYDROGEN LINES) WAVE IDENT N RG REF OBS I WAVE IDENT N RG REF OBS I AVE O CORR I AVE C -4-34.0 H I _1 WB 69.00 69.QQ _J>9. QQ 6,9. QQ 4340 49.00 49.00 49.00 49.00 4861 HI 1 WB 100.00 100.00 100.00 100.00 4861 100.00 100.00 100.00 100.00 5007 1350.00 1350.00 1350.00 1350.00 -END HE2 L5¿ ( PK NO. 338+ 5 ?) HF2 145 (PK NO. 331+ 0 l) BEGIN HE2 157 (PK NO. 331 -2 1) C = 0.0 (NO CALCULATION) BEGIN HE2 146 ( PK NO. 328 -2 1) C = 1.21 (DUST MODEL) . WAVE IDENT N RG REF OBS I AVE O CORR I AVF C. 6563 I 1 HE67 1•00*A 1.00*A WAVE IDENT N RG REF OBS I AVE 0 CORR I 6584 II ) 1 HE67 0.50*A 0.50*A 3727 (D II ) 1 JEC lOt QQ 22^97-A_ 3889 HI 2 JEC 0.25 0.50 A HE2 157 IPK NO. 331 -2 1) 3889 HE I 2 JEC 0.25 0.50 A 4340 HI 1 JEC 4.00 5.79 A H I 1 JEC 2.00 A 2.00 A l WB 100.00 100.00 100.00 100.00 BEGIN HE 2 158 (PK NO. 327 -6 1) 0.0 (HYDROGEN LINES) (0 111)1 JEC 0.50 A 0.47 A III) l JEC 5.00 A 4.58 A WAVE IDENT N RG REF DBS I AVE O CORR I AVE C 1 WB 2510.00 2510.00 2297.50 2297.50 4340 HI 1 WB 51. 00 51.00 51.00 51.00 4861 Ü I 1 WB 100 HQ LQQ.QQ 100.00 -1QQ.0Q HE2 146 (PK NO. 328 -2 1) 5007 (O I II ) 1 WB 525. 525.00 525.00 525.00 6563 H I I HE 67 1. 00*A l.OO*A H584 LU II ) 1 HE67 0. 1Q*A 0- 10*A BEGIN HF2 149 (PK NO. 329 -2 1) C = 0.0 (HYDROGEN LINES) HF 2 158 (PK NO. 327 -6 1) WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 4340 H I 1 WB 52.00 52.00 52.00 52.00 4861 H I_ 1 WB 100.00 100.00 100.00 100.00 -BÜGIN HE 2 LÍL2 ( PK NO. 330 -3 1) C = 0.0 (HYDROGEN LINES) 5007 (0 III) 1 WB 812.00 812.00 812.00 WAVE IDENT N RG REF OBS I AVE O CORR I AVE C END HE 2 L49 ( PK NQ. 329--2 1) 3.868 LNE I 11 I. 1 JEC 25.QQ A 25.00 A 3889 I JEC 4.00 A 4.00 A 3889 HE I JEC 4. 4.00 A HE 2 159 (PK NO. 330 -3 1) 620 American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. TABLE 8—Continued HE2 hhl (PK Nfl. 63-12 1) 1 (PK NO. 119 -6 1) WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C REGION KEY (REG ION,REFERENCEfEXPLANA!ION) 4101 HI 1 LL 21.70 21.70 28.65 28.65 At AE2 t REGIONS A AND B ON DIFFERENT SCALES 4267 LL 1.40 1.40 1.74 1.74 4340 LL 43. 80 43.80 52.96 52.96 END 1 (PK NO. 119 -6 1) 4387 LL 2.80 2.80 3.33 3.33 4686 1 LL 32.20 32.20 34.37 34.37 4861 1 LL 100.00 100.00 100.00 100.00 4Q7 1 -HE—1_ _J U 11.20 11.70 10.99 1 0.66 BEGIN HU 1 2 (PK NO. 86 -8 11 0.59 (RADIO-H BETA) 5015 HE I l LL 3.20 3.20 3.05 3.05 5876 HE I 1 LL 18.20 18.20 13.40 13.40 WAVE IDENT N RG REF OBS I AVE 0 CCRR I AVE C 6563 -J 1 U— 435.3Q 435.30 271.34 271.34 3132 0 III 1 A 35.00 27.50 65.95 51.81 HE I 1 AW 20.00 27.50 37.68 51.81 3187 HE I 1 AW 3.90 3.90 7.20 7.20 END HE2 467 (PK NO. 63-12 II 3203 HE II 1 A 30.00 -22. 5P- 27.53 41.30 15.00 22.50 41.30 3241 (NA IV ) AW 1.20 1.20 2. 16 2.16 3299 0 III AW 1.70 1.70 2.99 — BEGIN HE2 l (PK NO. 355 -4 1) C = 1.13 (DUST MODEL I 3312 III 3.50 3.50 6. 12 6.12 3340 III 4.30 4.30 7.43 7.43 WAVE IDENT N RG REF DBS I AVE Q CQRR \ &VE. C -334¿_ 56 .no 96-67 4861 l 1 VV4 100.00 100.00 100.00 100.00 48.30 83.34 4959 (0 III ) 1 VV4 320.00 320.00 302. 86 302.86 56.00 96.62 5007 jo I_I.LL_L_ _VV4_ 610.00 ...6.LQ«Q0 -561t63 5.6U63 48.3D 83.34 3381 IV 0.40 0.40 0.68 0.68 1 (PK NO. 355 -4 1) 3385 IV 1.50 1.50 2.55 2.55 .3 396 IV 0.30. 0.30- 0.51 0.51 3409 0 IV 0.20 0.20 0.34 0.34 3411 0 IV 0.40 0.40 0.67 0.67 BEGIN HU 1 1 (PK NO. 119 -6 II 0.32 (RADIQ-H BETA) 3425 ( NE—V L 180.QQ 300.91 1 ACP 147. 00 245.75 WAVE IDENT N RG REF OBS I CORR I AVE C 3425 0 III 2 A 180.00 300.91 3727 _LQ U L A Ô- 260.QQ 323.95 3444 Q—UI -I A 10.QQ- 16.60 ACP 342.00 426.11 8.40 9.20 13.95 15.27 Wl 268.80 334.91 3634 HE I 0.60 0.60 0.93 0.93 3797 3. 30 4.05 3673 _H L_ -0-. 73 0.73 1.12 .12 3835 H I 12.00 12.00 14.61 14.61 3676 H I 0.77 0.77 1. 18 1.18 3868 (NF III ) 110.00 167.50 132.99 202.51 3679 H I 0.80 0.8 1.22 1.22 135.QQ 163.22 3682 _H I— 0.87 0. 8.7_ 1.-33 J .33- 225.00 167.50 272.03 202.51 3686 1 AW 0.91 0.91 1.39 1.39 31. 00 31.00 37.31 37.31 3691 1 AW 1.20 1.20 1.82 1.82 1 35.00 162.46 3697 -J AJaL_ 1.34 1.34 7.Q3 —2.03— 2 Wl 53. 10 63.90 3703 AW 2.20 3.33 3 ACP 135.00 162.46 3705 AW 2.20 3.33 _2 WL- 53.10 63.90 3712- AW... 1. 85 2.Z9 . ? A 55.00 65.22 3715 HE II 0.10 0.15 2 ACP 50.80 60.24 3715 0 III 0. 10 0. 15 -2 W-l— 109.40 129.72 3721 4.61 6.93 55.00 65.21 3721 ( S HT I 4.61 6.93 ACP 50.80 60.23 3 72 7 (0 II ) 45.00 67.50 Wl 109.4n 129.71 40.70 61.05 4069 (S II) 7.80 9.06 1 VV 2 87.50 A 131.25 A 4076 S II 7.80 9.05 3732 HE I I 2 AW 0. 20 0.30 6.30 7 .-31- 3734 I -J AW 2.55 2.55 3.81 4097 N III 2 ACP 32.60 37.66 3740 HE II 0.40 0.40 0.60 0.60 4101 H I 1 A 33.00 38.09 3750 H I 2.50 2. 80 3.72 4.16 _2 AC£— 32. QQ 37.63 3. 10 2.8Q . 4.61 4.16 50. 00 41.50 57. 71 47.90 3 754 0 III 0. 57 0.57 0.85 0.85 4340 H I 47.00 61.00 51.84 67.28 3757 0 III 0.21 0.21 0.31 0.31 ACP 56.30 62.10 3759 0 III AW 2.70 2. 70 4.00 4.00 Wl 75. 00 61.00 82.72 67.28 3768 HE II AW 0. 20 0.20 0.30 0.30 4363 {0 III ) 16.00 20.50 17. 57 22.52 3770 H I 3.70 3.95 5.46 5.83 56.30 61.83 AW 4j 20 . 3.95.. 6.20 -5.93- 25.00 20.50 27. 46 22.52 3774 0 III 0. 18 0.18 0.27 0.27 4471 HE I 21.00 18. 10 22.63 19.51 3781 HE I I 0.49 0.49 0.72 0.72 ACP 3Qi 40 L8.1Q 32.76 19.51 -379j_ _Q III -JJZ7- 0.27 0^40 -Q.4Q 1 KA2 2.90 3.13 3 797 4. 70 5.07 6.86 7.40 1 Wl 21.90 23.60 5.44 5.07 7.94 7.40 4685 HF I I _L_ 26.CO 17.37 26.89 HE II Q. 51 Q.51 Q. 74 _Q..Z4_ ACP 16.80 17.37 17.38 17.96 3819 HE I 1.25 1.81 1 KA2 9.30 17.37 9.62 17.96 3833 HE I AW 0.25 0.36 1 Wl 31.-30 32.37 3833 H£_LI . AW Q. 25 Q.36 1 A 100.00 100.00 100.00 100.00 1 6.90 7.10 9.92 10.21 1 ACP 100.00 100.00 100.00 100.00 l 7.30 7.10 10.50 10.21 -J £A2_ 100.00 1QQ.QQ -IQQ.QQ IQQ.QQ 3839 ( FE V ) 1 Q« 25 0.25 Q.36 —Q.36 I DD63 100.00 100.00 100.00 100.00 3851 (FE V 0. 19 0. 19 0.27 0.27 1 Wl 100.00 1 CO.00 100.00 100.00 3856 SI I I 0.20 0.20 0. 0.29 4959 JJ III ). J A_ 35Q.QO 413.07 344.59 406.69 .3 858..- HE II AW. _Qjt. 0.84 1. 20 1.20 1 ACP 411.00 413.07 404.64 406.69 3862 SI II 0.23 0.33 0.33 1 KA2 485.00 413.07 477.50 406.69 3 864 0.48 0.68 0.68 J Wl 4Q6j_2Q 413.07 400.02 406.69 3868 (NE III) 62.00 53.93 87.98 76.53 1 880.00 1270.30 859.65 1240.93 1 ACP 64.80 53.93 91.95 76.53 l ACP 1188.00 1270.30 1160.53 1240.93 l KA2 35. 00 53.93 49.67 76.53 _1 QD63- 1732.CQ 127Q.3Q .1691..95- 1240.93 J W 2 131.30 A I86t-32 A. l Wl 1281.20 1270.30 1251.57 1240.93 17. 00 23.92 5015 HF I 1 AW70 0.90 0.90 0.88 0.88 ACP 14. 80 20.82 5047 HE I 1 AW70 0. 30 0.30 0.29 Ji¿9_ AW 11. QQ 15« ^8 5191 t AR III) 1 AW70 0. 25 0.25 0. 24 0.24 2 VV 2 37.50 A 52.76 A 5198 (NI ) I A W7 0 1.00 1.00 0.94 0.94 2 A 17.00 23.92 5200 (NI ) 1 AW 70 0.80 0.80 0. 76 0.76 —2 ACP . 14.80 ¿Qj>-82 5411 HE I I 1 AW70 2.30 2. 10 11.00 15.4 5517 (CL III) 1 A AE2 1. 15* 1.03* VV 2 37.50 A 52.76 A J AW 70 Q.68 -0,68 0.61 3923 _AW L. QQ 1.39 1 A AE2 1.00* 0.90* 2 A 34.00 46.55 l AW70 0. 50 0.50 0.45 0.45 2 ACP 30.40 41.62 5 75 A -IN LI L J A WI..Q— 5..3Q ¿1.4Q 4.60 18*57 1 AW 24.00 A 32. 86 A 1 Wl 37.50 21.40 32.55 18.57 2 VV 2 56.30 77.08 1 A W70 14.50 35.40 12. 38 30.22 3967 2 A 34.00 46.54 J WJ 56.3Q 35.40 48.07 30.7? -2 ACP 30.40 41.62 6300 1 Wl 106.30 85. 79 56.30 77.07 6563 2 Wl 1593.80 1248.79 4009 HF I 0.27 0.27 0. 36 0.36 -6-563 __2 WJ— - 1593^60 -1248..19- -4Q26 .. HE -I ¿.60 2.60 3.49 3.49 6717 ( S II ) 1 B AE2 0. 77* 0.59* 4026 HE II 2 AW 3.20 4.29 6730 (S III 1 B AE2 1.00* 0.77* 4026 HE I 2 AW 3. 20 4.29 4068 __LS 11 ) 1 AW 5.50 7 «-75 1 (PK NO. 119 -6 1) (PK NO. 86 -8 1) 622 American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued HUI _2 IPK. NQ. 86 -8 1) HU 1 2 CPK NO. 86 -8 11 WAVE IOENT N RG REF OBS AVE O CORK I AVE C WAVE IDENT N RG REF OBS AVE 0 CORR I AVE C ..JlQ22_ _LS II ) J â 2t8.iL. 15.30 3.69 20.15 5309 CCA V ) 1 AW70 0.27 0.27 0. 24 0.24 1 ACP 27.80 15.30 36.62 20.15 5323 (CL IV ) 1 AW70 0.19 0.19 0.16 0.16 4076 CS I! ) 1 AW 1.90 1.90 2.50 2.50 5335 (FE VI 1 1 AW 7 0 0.26 0.26 0.22 0.22 4097 N ITT _2 ACP 26.50 3.4^8. 5411 HE II 1 AW7Q ,8.40 8.40 7.10 7.10 1.50 1.50 1.96 1.96 5517 1 A AE2 0.69* 0.57* 22.50 18.75 29.31 24.43 l AW70 0.74 0.61 ACP 2 6. 50. 34.53 5537 (cl nn J A.-A.E2 1.00» 0.82* 1 15.00 19.54 1 AW 70 0.90 0.90 0.73 0.73 1 VV 2 50.00 A 65.14 A 5554 (N II ) VV 2 31.30 31.30 25.40 25.40 4120 HE I _1 AW 0.70 0.91 0.91 559? _Q LLL AW7Q 0.22 0.2? 0. 18 0-1 a 4143 HE I 1 AW 0.50 0.50 0.64 0.64 5630 CFE VI ) 1 AW70 0.30 0.30 0.24 0.24 4163 (K V ) l AW 0.27 0.27 0.34 0.34 5677 CFE VI ) 1 A W70 0. 14 0. 14 0. 11 0.11 4186 C III 1 AW 0.t6 0.16 0.20 0.20 -5.72-1 _ (FE VLI1. -AH7Q ■ 0.70 0.70 0.54 0.54 4199 HE II 1 AW 2.24 2.24 2.81 2.81 5754 (N II) l AW70 10.00 10.00 7.70 7.70 4227 (FE V ) 1 AW 0. 37 0.37 0.46 0.46 5801 C IV l AW7 0 0.53 0.53 0.40 0.40 4267 C II 1 AW 0.20 0.20 0.25 0.25 5806 HE II AW7Q 0.12 0.12 0- 09 0.09 1 A 46.00 55.11 5812 HE II 1 A W70 0. 16 0.16 0. 12 0.12 2 ACP 46.00 55.11 5875 HE I 1 AW70 15.20 15.20 11.36 11.36 1 ORF 45.00 44.93 -53»_9L. 53.83 1 ORF 11.00 A 8.22 A 1 VV 2 43.80 44.93 52.47 53.83 1 VV 2 25.00 18.68 A (O III» 1 A 20.00 19.27 23.77 22.90 6300 (0 1 VV 2 25.00 A 16.84 A -2 ACP 46.00 54.68- 6563 H_. flR F 458.00 458.00 292.10 l ORF 19.CO 19.27 22.59 22.90 2 VV 2 887.50 566.02 1 VV 2 18. 80 19.27 22.35 22.90 1 W 1.00* 0.64* _n LLL _1 AH 0.22 Q.22- (?■ 26 Q.26 _LN II ) -VV- 2. aa/^LQ 566.0? 4383 AW 0. 28 0.2B 0.33 0.33 1 242.00 153.67 4387 HE I 1 AW 0.73 0.73 0.86 0.86 1 w 0. 92* 0.58* 4471 ..HE I _i A— 5.30 4.20 6.09- 4.82 6717 _LS LI—I—1 R AF? .0^55» 0. 34* 1 4.50 4.20 5.17 4.82 6730 (S II I 1 AE 2 1.00* 1 KA2 2.80 4.20 3.21 4.82 4510 _LK IV 1 J AW 0.20 , 0-20 0-23 0-23 REGICN KEY (PEG ION.REFERENCE.EXPLANA!ION) 8. 20 6.15 9. 19 6.89 AE2 REGIONS A AND B ON DIFFERENT SCALES 4. 10 6.15 4.59 6.89 n.BO 0.80 -0^89— 4606 CFE III1 l AW 0.50 0.54 0.55 0.59 1 AW70 0.58 0.54 0.63 0.59 4634 N III 2 2.00 .2.17 A 0.86 0.86 0.93 0.93 2 l (PK NO. 51+ 9 1) 0.51 (RADIO-H BETA) 4634 N II 1 A W70 0.70 0.70 0.76 0.76 6/140 —N ITT -2 A 7.16 . IflFNI N RG REF 1 AW 1.50 1.45 1.62 1.57 3703 1.90 1.90 2.7? 2.72 l A W70 1.41 1.45 1.52 1.57 3712 2.50 2.50 3.57 3.57 4657 _3 AW70 0.32 0-34 -3J26 78.00 10.77 0.25 0.27 1.00* 1.42* 0.32 0.34 59.10X 83.93 X IFF ITT) 2 0.27 —0.44* 4661 0 II 0.32 0.34 3750 3.70 3. 70 5.21 5.21 4685 HE I I 90.00 89.56 95.76 95.30 3770 4. 10 4.10 5.74 5.74 81.BQ 89.56 87.Q4 95.30 3797 5.40 5.40 7.49 7.49 1 KA2 95.00 89.56 101.08 95.30 7. 70 10.54 1 ORF 81.00 89.56 86. 19 95.30 12.70X 17.39 X 1 W 2 1QQ.QQ 89.56 106.40 95.30 10.70 4711 (AP IV ) 2 A 10.00 10.54 12.70X 17. 18 X 1 AW 10.00 10. 14.00 18.81 .2 A W ? Q. - 9.BO in. 54 33 12.30X 16.5?X 4711 HE I 10.00 10.54 3889 HF I 12.30X 16.52X AW70 9.80 10.33 3967 (NE III) 20.00 26.24 4ÿ24 (NF TV ) AW 2.30 2.41 28.20X 36.99X AW70 2.50 2.62 20.00 26.24 4740 (AR IV ) A 5.00 6.72 5.22 VV 1 28.20X 36.99X AW 7.00 6.72 7.30 -4.Q26 HE. I... A 2. ¿Q 2.20 2,83 2.83 l AW70 7. 10 6.72 7.41 7.02 4069 ( S II ) 1.90 2.41 1 KA2 7.80 6.72 8.14 7.02 4076 ( S II ) 1.90 2.41 _Q Ay 4t6Q _AtAQ_ 4.79 4.79 4101 25. QQ 25.QQ 31.42 31.42 100.00 100.00 100.00 100.00 VV 1 38.60X 48.51X ACP 100.00 100.00 100.00 100.00 A 46.00 53.78 KA2 100.00 1C0.00 100.00 IPOtOQ YV. 1. 5.9.CQX 68,97* 1 0D63 100.CO 100.00 100.00 100.00 A 2. 20 2.2 0 2.55 2.55 1 ORF 100.00 100.00 100.00 100.00 VV 15.00X 17.42 X 1 VV 2 100.00 100.00 100.00 100.00 4471 HE A_ 4, 8Q 4.80 5.41 5.41 4881 (FE III) 1 A W70 0. 15 0.15 0. 15 0.15 9.10 X 10.25X 4893 (FE VII Ï l AW70 0. 18 0. 18 0. 18 0.18 46 34 III 1. 10 1.18 4909 1 4W7Q 0.10 0. 10 0. 10 Ot IQ 4640 III I t IQ U 18 AW 0.80 0.79 1.01 4686 HE II 25.00X 26.38X l AW70 1.26 1.24 1.01 4711 (AR IV ) 1.20 1.20 1.26 1 .26 4931 CO III ) 1 A W70 0.31 0.30 0.30 4861 H I 100.00 100.00 100.00 100.00 4944 CFE VIII 0.21 0.21 0.20 0.20 l OD 62 100.00 100.00 4959 CO III) 290.00 283.40 281.79 275.37 1 VV 1 100.oox 100.oox AÇP 199.00 283.40 193.36 —21.5137 ( 0 III) 1 130.00 i ?ft- ai KA2 268.00 283.40 260.41 275.37 1 VV l 118.20X 115.30X ORF 229.00 283.40 222.51 275.37 l A 380.00 388.50 366.09 374.28 VV 2 431.00 283.40 418.79 .275.37 1 QD62 397.00 388.50 38-Z_LlZ_ 374.28 4972 (FE VI ) l AW70 0.22 0.22 0.21 0.21 290.90X 280.25X 5007 (0 III ) 1 A 750.00 621. 75 718.34 595.50 5411 HE II 34. 50 34.50 29.85 29.85 1 ACP 633.00 621.75 606.28 595.50 5876 HE I 45.5Q 45,5 0 35- 36 35.36 i 0D63 550.00 621.75 526.78 595.50 6300 (0 1 ) 1 VV 1 35.00 24.87 1 ORF 554.00 621.75 530.61 595.50 6563 H I 2 VV L 354.50 240.31 VV 2 2062.50 A 1975.43 A 6563 _LN LI L 2 VV 1 354.50 ?40.31 5015 1 AW70 1.20 1.20 1. 15 1.15 5041 SI II 1 AW70 0.35 0.35 0. 33 0.33 5047 HE I 1 A W70 0.26 0.26 .JL*. »25 5056 SI II AW70 0. 13 0.13 0. 12 0.12 5131 0 V A W70 0.20 0.20 0. 18 0.18 514? CFE VI ) 1 AW70 Qt 29 Qt¿9 Q, 27 0,27 BEGIN J 320 (PK NO. 190-17 1) 0.0 (HYDROGEN LINES) 5164 1 AW70 0.10 0.10 0.09 0.09 5176 CFE VI ) 1 AW70 0.25 0.25 0.23 0.23 WAVE IDENT N RG REF OBS I CORR I AVE C 5191 CAR.I-IU _1 AW7Q . 0. 36 0.36 0.32 _Q .32 3727 (O II ) 1 A 21.00 21tQQ... 5198 (N I ) l A W70 2.30 2.30 2. 07 2.07 27.OOX 27.OOX 5200 (N I ) 1 AW70 1.20 1.20 1.08 1.08 30.60X 30.60X S?70 IFF III 1 AW70 0. 14 _JL_ 0. 1? 3797 5.2Q _ 5, 2.Q— 5.20 5277 CFE VII) AW70 0. 14 0.14 0.12 0.12 3835 H I 1 7. 50 7.50 7.50 7.50 5289 1 AW7 0 0.17 0.17 0. 15 0.15 3868 (NE III) 1 110.00 101.50 110.00 101.50 2 CPK NO. 86-8 1) 320 (PK NO. 190-17 1) 623 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued 3ZQ (PK NQ. 19Q--I7 1J -9.0-0 (PK NQ. 194» 2 1) WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDFNT N RG REF OBS I CORR I 3868 (NE I II 1 1 AA1— l^OfOOX -33M-. (NE III) 2 Ô .34* QQ 4Q.97 93.00 101.50 93.00 101.50 35.50 42.77 VV I 1I8.40X 118.40X 19.00 22.89 -Ü I_ A - 26* QQ -26.QQ_ 2.6.«-QQ . VV 1 33.QQX _39. I6X 27.00X 27.00X A 34.00 40.96 32.70X 32.70X ACP 35.50 42.77 VV 1 3 21 T.Q X 32.70X _Lô 19.QQ . 22..S9 3889 HE I 27.OOX 27.OOX VV 33.OOX 39.76X 3967 (NE III) 55.00 55.00 4026 HE I 1 A 3.30 3.93 -A41- 79.ÛPX -7.9».QmL. —4Q69. _LS LI ) 2 3* QQ. . . 3.54 2 VV 1 75.50X 75.50X 4076 (S II ) 2 3.00 3.53 2 A 55.00 55.00 4097 N III 2 ACP 24. 70 28.92 _2 Aid 79.OOX 79.QQX- -41Q1 H I 1 _A ¿LtQO 22.30 24. 57 2 MA 46. 00 46. 00 ACP 24.70 28.90 2 VV 1 75.50X 75.50X LA 23.60 22.30 27.61 3969 (NE III) _2 ÜA 46.00 _46..Q.fl_ VV 1 SQX .3.6.Q3X 4076 II 20.80X 20.80X A 42.00 46.75 4101 I 30.00 30.00 ACP 108.00 120.22 _A4.l_ 34.OOX 34.QQX. 32.BOX 36.51X 27.00 28.50 27.00 28.50 50.70 56.44 32.70X 32.70X 52.70X 58.66X 4340 5Q.QQ AI» QQ -5Q»Q.Q_ 47.00 --4343 _L0 LULL- 13.00 14.40 -L4.4Û . 57.OOX 57.OOX 108.00 119.66 46.90X 46.90X 7.90X 8.75X 44.QÛ 44.00 5Q.7Q 54^ LB 1 VV 1 5 9.2 OX 59.20X 28.60 X 31.69X (0 III) l A 18.00 18.00 19.00 HE I 1 4.00 4.34 J A41 15.HÛX 15.OOX _1 ? 0. 90 X 22-ftflX 24.60X 24.60X 4542 HE II 1 2. 70 2. 89 20.00 20.00 4634 N III 2 3.20 3.36 20.4ÛX -70.40X -4640 _N LLi 2_ .20 1 A 8.00 8.00 4645 C III VV 1 3. 30X 3.45X 1 VV l 22.40X 22.40X 4645 N III 2 VV 1 3.30X 3.45X _2 VV 1 40.aox 40. BOX _4685 HF T I 1 —A -4Z.00 48.76 47.31 4645 C in VV l 40.BOX 40.80 X 41.80 45.60 43.37 4686 HE I I VV 1 26.50X 26.50X 39.OOX 40.46X 4flAi _H I 100.00 -100.00 48.00 -45.60 49.80 100.00 100.00 VV 1 50.50X 52.39X 100.OOX 100.OOX 4711 (AR IV ) 2 ACP 11.20 11.56 . 1 00.-QQ -100.00 -4713 HF I 2 —ACP— ■ 1 U20 11.55 100.00 100.00 100.00 100.00 (AP IV ) 1 A 4.00 5.64 4. 10 5.78 1 ACP i100.00 100.00 nn.nn 1.00.00 100.00 100.00 -100.00 100.00 —ti 1 C- 7.28 -LOO. 00 5.64 7.47 100.00 5.78 (0 I II ) l 340.00 337.42 340.00 337.42 ACP 100.00 100.00 A41 310.00 337.42 310.00 337.42 AN 100.OOX 100.OOX ..AN . 209.OOX . 209.OOX CPDA i no.nn i nn.nn l CPDA 380.20 337.42 380.20 337.42 LA 100.00 100.00 100.00 1 MA 310.00 337.42 310.00 337.42 VV 100.OOX 100.OOX 346.90 337.4? 346.90 337^42 —LO UI ) 1 _A ^qn.nn 383 .-41 890.00 1104.20 890.00 1104.20 ACP 313.00 307.71 1200.00 1104.20 1200.00 1104.20 AN 297.OOX 291.98X 524.QQX -524. OOX C PDA 478.60 470-51 -38Ü.Q3 CPDA 1202.00 1104.20 1202.00 1104.20 LA 385.00 378.49 VV 1 1124.80 1104.20 1124.80 1104.20 VV 439.60X 432.17X 541 1 HF II- . .AW.7-Q- 0.41 ?- ? 5 0.41 - ? .? 5 —LO L-LU—L- 1260.00 - 1228.-17— VV 1 4. 10 2.25 4. 10 2.25 I ACP 1013.00 1234.50 987.41 5517 (CL III) AW70 0.51 0.51 0.51 0.51 l AN 845.OOX 823.65X 5537 (CL III) AW70 0.51 0. 51 0. 51 0.51 1 CPDA 1445.00 1234.50 1408.50 1203.31 5754 (N II) AW70 0. 17 0.17 0.17 0.17 1 LA 1220.00 1234.50 1189.18 1203.31 5801 C IV AW70 0. 34 2 0.34 5*30 0.34 0.34 1 VV 1 1428.60X 1392.51X 5875 HE I AW70 ¿2f0p 22.00 25-30 -519.9... —LM I L_L_ AH7Q Q..8Q 0.80 ¿*-75 -Q.75 VV 1 28.60 25.30 28.60 25.30 5411 HE ï I 1 AW70 4. 50 4. 07 6300 (DI ) VV 1 36. 70 36.70 36. 70 36.70 5517 (CL III) 1 A AE2 0. 72* 0.64* 6563 28Q« QQ ¿-9JQ.« QQ 28Q« QQ- 280.00 _L— AÜZ¿_ ..¿*86 . Q-.76 0.76 VV 1 265.30 265.30 (CL III) 1 A AE2 1.00* 0.89* (N 11)2 VV l 265.30 265.30 1 A W7 0 0.83 0.83 0.74 _1_N LI ? 1 ■ AH7Q _2*. 5Q. 9.50 2» 14 —8 ■ 14 320 (PK NQ. 190-17 1) VV l 16.50 9.50 14. 13 8.14 5801 IV A W70 1.30 1.30 l.ll 1.11 5812 _LV- AW7Q 0.85 0.85 -¿.-72 1 A W70 14.60 18.30 12.28 15.39 900 (PK NO. 194+ 21) C = 0.35 (HYDROGEN LINES) 1 VV 1 22.00 18.30 18. 51 15.39 6300 _LQ I ) 1 VV 1 35.20 35.20 27.84 27.84 WAVE IDE NT N OBS I AVE 0 CORR I AVE C 6563 1 428.60 328.23 3133 0 III l 31.00 31.00 45. 13 45.13 6563 (N II ) 2 VV l 428.60 328.23 3203 HF I I 1 14«_¿Q 14.00 . 2Q..07 20.Q7 6717 —LS U ) 1 -B AE2 ¿»61*_. Q .46» 3312 III 5.70 5.70 7.94 (S II ) 1 1.00* 3346 0 III ? 10.50 14.51 3346 ( NE V ) 2 10.50 14.51 -REGION.KEY (REG ION»REFERENCE.EXPLANATION) 3425 3425 (NE V ) 2 O III 2 18.00 18.00 24.42 24.42 r AE2 . REGIONS A AND B ON DIFFERENT SCALES 3444 __Q LU L_ 17.00 17. QQ 22.96 22-^96 END -JLO-Q (PK NO. 194+ 2 1) 3650 I 2.50 3.23 3727 II ) 52.00 66. 14 66. 30 84.33 LA 41.80 53.17 BEGIN K3 62 (PK NO. 95+ 01) C = 1.60 (HYDROGEN LINES) VV 38.50X 48.97X . 3-L5Q -A . _5t 5.Q.. 6.96 ¿*.9,6. —WAVE (DENT EL-RÇ RE F OBS I AVE 0 CORR I AVE C 3770 I 1 4. 20 4.20 5.29 5.29 4861 I CLZ2 100.00 100.00 100.00 100.00 3797 I 1 5.00 5.00 6. 26 6.26 4991 (0 III) CLZ2 1100.00 1100.00 991.97 991.97 3835 _1 L— la 4,Q -2*95 9.18 12.34 -5876 - HE l CLZ2 80.00 80.00 36.27 36.27 ACP 12. 50 9.95 15.51 12.34 6300 (0 I ) 1 CLZ 2 20.00 6.85 A (NE III) 1 A 74.00 76.35 91.07 93.97 6563 H I 1 CLZ2 970.00 970.00 286.45 286.45 L_ -ACP.. 78.70 16.3 5 - 96.86- 93.97 6575 (N I I ) 1 CLZ2 500.00 500.00 146.61 146.61 57.40 70.64 63.70X 78.40X 62 (PK NO. 95+ 0 1) 16.QQ 19. 59 ACP 12.00 14.69 LA 57.40 70.29 17* 6QX . 21.55X ACP 12.00 14.69 #V 1 17. 60X 21•55 X 900 ( PK NO. 194+ 2 1 ) 624 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued BEGIN Ml I (PK NO. 130-11 1) 0.53 IRADIO—H BETA) _2 (PK NO. 133 -8 1) WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I CORR I 3133 0 III _L AKI 24.00 2A.QQ 39671 (Ne ni} 2 AD 39.80 56,56 3187 HE I AKI 4.30 4.30 7.46 7.46 2 0 28.80 40.93 3203 HE II 1 AKI 51.00 51.00 88.00 88.00 2 R 25.00 35.53 3242 (NA IV ) 1 AKI 4. 10 4.10 6.96 .JL m -19.70 28.00 3299 0 III AKI 2. 20 2.20 3.65 3.65 2 AD 39.80 56.50 3312 0 III AKI 2.70 2.70 4.46 4.46 2 0 28.80 40. 88 3340 0 III AKI 3.60 3.60 5.89 5.89 2 R 25.00 35.49 3345 ( NE V ) AKI 76.00 76.00 124.05 124.05 2 Wl 19. 70 27.96 3362 (NA IV ) AKI 1.60 1.60 2.60 2.60 1 AD 25.70 24.43 34. 55 32.85 3 4 ¿5 _ INE V I 1 AKI 145.OQ- 145 00 230.06 230.Q6 __l Q_ 26.90 - ¿.4«-43_ 36.16 . 32. 85 3444 III AKI 7.50 7.50 11.83 11.83 1 0D66 27.50 24.43 36.97 32.85 3679 I AKI 0.70 <3.70 1.02 1.02 l R 17. 00 24.43 22.85 32.85 3682 I AKI 1.00 1.00 1.46 1.46 1 Wl 21. 30 24.43 ?ß^64 32.85 3686 AKI 1.50 1. 50 2.19 2.19 1 ZI 2 8. 20 24.43 37.91 32.85 3691 AKI 1.40 1.40 2.04 2.04 1 AD 43. 70 45.05 53.49 55.14 3697 _H I_ AKI 1.3Q- ■L.3Q. 1.89 1.B9 _JL 1 Q , 5.Q.1Q 34. 00 45.05 . 61.3.2 45.05 55.1fr 55.14 3704 I AKI 1.70 2.47 41.62 3704 HE I AKI 1.70 2.47 2 Wl 34.40 42.11 3722 _hi I_ 3. IQ , 4.47 1 ZI 52.40 45.05 64. 14 55.14 3722 (S III) AKI 3.10 4.47 4343 H I 1 0D66 47. 80 47.80 58.44 58.44 3726 (0 II) AKI 14.30 20.59 4363 (Q III) 1 AD 8 1 • 00 68.96 98.28 83.67 VY.1- 71.4QX- 102.81X. 1 0 79. 50 68.96 96.46 83.67 3729 11 ) AKI 9. 70 13.95 1 0D66 72. 50 68.96 87.97 83.67 3734 I AKI 2.40 3.45 Í RWl 53.00 68.96 64.31 83.67 3736 AKI Q.SQ .A_ 1-15. A 34.40 _4_L,.Z_4-. 3740 HE II AKI 0.90 A 1.29 A 1 ZI 58.80 68.96 71.34 83.67 3740 (FE V ) AKI 0.90 A 1.29 A l AD 5.50 10.95 6.42 12.78 3750 AK.1— 3,-50 5.QQ 5.QQ 1 Wl 16. 40 -LQ,9J2_ 19.14 ..12,78 3754 0 III AKI 1. 10 1.10 1.57 1.57 4686 HF II 1 AD 3.30 26.20 3.54 28.08 3759 0 III AKI 3. 10 3.10 4.41 4.41 1 Wl 49. 10 26.20 52.63 23.08 5.20.- 5.2 0. 7.37 .4861_ H I _1 AH 100.00 100-00 100.00 100.00 3797 H I AKI 8*60 8.60 12.09 12.09 1 0 100.00 100.00 100.00 100.00 3819 HE I AKI 1. 10 1.10 1.53 1.53 1 0066 100.00 100.00 100.00 100.00 3835 AKI . .30 ,3-Q_ 12.89 12.89 100.00 i oo. on 100-00 100.00 3858 HE II AKI 1.00 1.00 1.37 1.37 1 Wl 100.00 A 100.00 A 3868 (ME III) AKI 33.00 33.00 45. 19 45.19 1 ZI 100. 00 100.00 100.00 100.00 ?fl.nnx 3fl.34X 4921 HF I JL AH . 1.7Q 1. 70 1.67 1,67 16.60 22.56 (0 I II ) 1 59.00 70. 10 57. 13 67.88 17.00X 23.10 X 54. 70 70.10 52.97 67.83 1 4.3f)X- 19.43X.- 105.00 70.1-0- ..lai.. 6fi 67.88 3889 HE I AKI 16.60 22.56 2 Wl 52.50 50.84 Wl 14.30X 19.43X 1 ZI 61.70 70. 10 59. 75 67.88 3Q¿7 INF TIT) 29.60 39.2-5— 5QQ7 _LD 111 ) 1 AD 170.QQ 166.00 -161.9.9 1 5ft . 1 fl R 3 5.00 X 46.41X 1 0D66 162.00 154.37 Wl 28.60X 37.93X 2 Wl 52. 50 50.03 AKT 29-60 39.22 _l ZJ 1AA r nn 158. 18 35.00X 46.37X 5016 HE I 1 AD 5.00 5.00 4. 75 4.75 28.60X 37.89X 5876 HE I 1 AD 23.40 23.40 16. 89 16.89 AKI . 3.L2 6300 _LQ I L- J WL 9ft.40 98.40. ,63.23 63.23 4068 II AKI 2.80 2.80 3.59 3.59 741.00 644.33 448.03 389.58 4101 I AKI 26.20 26.20 33.23 33.23 468.00 644.33 282.97 389.58 32.QQX. ¿n,5flx 206.60 -124.92 Wl 42.80X 54.28X ZI 724. 00 437-75 4200 HE II AKI 3.00 3.00 3.68 3.68 6563 (N II ) Wl 206.60 124.92 4340 JÜ I AKI 45.60 45.60 . ,5,3.64 53.64 6584. ( N II ) 1 3.20 13.2.Q.. 7.94 1 33. OOX 38.82X 6678 HE I 1 AD 4. 80 4. 80 2.83 2.83 1 VV1 285.60XA 335.93 XA 7065 HE I 1 AD 24.00 24.00 13.09 13.09 (0 III ) 1 AKI 12.20 12.20 14.25 10830 HE I 1 AD 447.00 447.90 152.26 152.26 22.OOX 25.70X 4387 HE I 1. 10 1.10 1.28 1.28 END (PK NO. 133 -8 l) 4471 HE L- AKI - L.60 1.60 1.81- 1.81 Wl 342.70X 387.97X 4541 HE II AKI 4. 80 5.32 BEGIN Ml 4624 (AR V L _AKJL_ 0« 9Q—A— n- 97 A 4 (PK NO. 147 -2 1) C = 1.05 (HYDROGEN LINES) 4658 C IV AKI I. 30 1.30 1.39 1.39 4686 HE II AKI 88. 00 88.00 93.04 93.04 WAVE IOENT N RG REF OBS I 68.00-*-. 71.89 X 3726 ( 0 III 1 AKI Wl 228. 50XA 241.59XA 3729 11 ) 1 AKI 1.50 3.08 4711 (AP IV ) AKI 9.70 10.17 3734 I I AKI 0. 70 0. 70 1.43 1 .43 4713 HE L AKI . 9.70 10.17 3750... _I 1 AKI -1.50 1.50... 3.04 3.04 4726 (NF TV ) AKI 2.00 2.09 3770 H I AKI 4. 30 4. 30 8. 59 8.59 4740 (AR IV ) AKI 7. 00 7.00 7.27 7.27 3797 H I I AKI 3.30 3.30 6.48 6.48 4H61 H I AKI . 1Q0.QQ . 1 QQ. OQ 100.00 i on. oo I 00.00 3835 jy l_ _J AX I -3.-9Q 3.90 7.45 7.45 l 100.00 100.00 3868 (NF III) 1 AKI 41.00 76.43 I wi 100.OOX 100.OOX 3839 H I 2 AKI 12.60 23.13 4959 tn uni AKT 168.QQ 206.5Q -163,12 3889 HE I 7 AKI 12.60 23.13 R 245.00 206.50 238.76 201.24 3967 (NF III) 1 AKI 21.40 21.40 37.43 37.43 Wl 185.60X 180.87X 3970 1 AKI 11.60 11.60 20.25 20.25 -5QQ7 _L0 LULL Wl 585.50 585.50 563.2H 563.25 4101 1 AKI 17.40 17.40 27. 86 2 7.86 6300 (0 Wl 42.80 A 30.01 4340 H I I AKI 32.20 32.20 44.41 44.41 6563 H Wl 442.70 295.55 4363 (0 III ) 1 AKI 8.20 8.20 11. 15 11.15 -4.471 . HE I 4.09 65.63 6717 _Lhl II 1 II ) A E2 442.70 0.56* 295.55 0.36* 4686 HE II i AKI AKI 3t2Q 8.70 8. 70 9.71 .4,.09... .71 673C II ) AE2 1.00* 0.65* 4861 I AKI 100.00 1 CO* 00 100.00 100.00 4959 MI) AKI 357.00 357.00 339.20 339.20 (PK NO. 130-1 l 1) 5517 (CL III) 1 A AE2 0. 0. 50* 5537 (CL III) 1 A A F 2 1. 00* 0. 70* 67L7- IS U..1 1 B AE2 0.45* 0.19* (S M ) 1 B AE2 2 (PK NO. 133 -8 1) 'C = 0.66 (HYDROGEN LINES) REGICN KEY (REGION.REFERENCE.EXPLANATION) WAVE IDENT N RG PEE OBS I AVE O CORR I A t AE2 , REGIONS A AND B ON DIFFERENT SCALES 3727 (O II ) 1 Wl 13. 10 20.62 3835 (O II ) 1 AD B . 30 8.30 12.46 FNP Ml 4 (PK NO. 147 -2 1) (NE I II ) 1 AD 78.00 68.53 115.37 101.37 1 0 77.60 68.53 114.78 101.37 50.00 68.53 73.96 101.37 l 1.70 17. 14 BEGIN MI 7 (PK NO. 189+ 7 t) C = 0.61 (DUST MODEL) 9. 20 13.48 41. QQ 60.Q7 WAVE IDENT N RG REF OPS I AVE O CORR I AVE C AD 11. 70 17. 14 3727 (O II ) l VV l 24.00 36. 50 Wl 41.00 60.07 3869 (NE III) 3 VV l 13.00 18.66 (PK NO. 133-8 1) (PK NO. 189+ 7 1) 625 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. TABLE 8—Continued © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. TABLE 8—Continued <£K NQ,t \(f -1 n 56 (PK NO. HAVE IOENT N RG REF OBS I COPR I WAVE IDEM N RG REF DBS AVE O 6563 H T _2 1400.00 4363 LQ III) l VV^ 23.QQ 29.94 29.2á 4861 H I 1 VV4 100. 00 100.00 100.00 100.00 46 ( PK NO. 4959 (0 III) 1 VV4 160 00 160.00 153.14 153.14 5007 (o un i vv4 480. 00 480.00 449.43 449.43 6563 II ) 2 VV4 760. 382.69 6563 I 2 VV4 760. 382.69 48 IPK NO. 13 -31) C = 0.51 (HYDROGEN LINES) 56 CPK NO. HAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 4340 H I 1 VV4 48.00 48.00 56.11 56.11 4861 H I 1 VV4 100.00 100.00 100.00 100.00 4959 (0 III) 1 VV4 250.00 250.00 * 243.87 243.87 BEGIN Ml 57 51 BEGIN MI SB ÍPK NO. ??-3 11 Q.97 (HYDROGEN LINES) 4340 H I 2 VV4 30.00 46. 06 4363 (0 III) 2 VV4 30.00 45.21 WAVE IDENT N RG REF OBS I CORR I 4686 HE II L_ VV4 3Q.QQ 30.00 34.75 .34.75 3 7 ¿7 (0 II) 1 VV 1 85.00 165t 54 4861 H I 1 VV4 100.00 100.00 100.00 100.00 3868 R3 46. 00 81.78 4959 (0 III) 1 VV4 350.00 350.00 326.93 326.93 VV 137.50 244.44 5007 (0 III) 1 VV4 1200.00 1200.00 1Q83.26 1QB3.26 3 B89 _H L_ -R3- 3.2Q 5.61 6563 II ) 2 VV4 2500.00 859.86 137.50 241.03 6563 I 2 VV4 2500.00 859.86 3.20 5.61 137.50 50 (PK NO. 14-4 1) R3 17.00 28.49 VV 72.50X 121.52X ■R3 17..0Q —28.45— VV 72.50X 121.32X 53 (PK NO. 15 -41) C = 0.85 (HYDROGEN LINES) 4072 R3 16. 00 16.00 25.17 25.17 4101 R3 18.00 1 a.no 27..81 27.81 WAVE IDENT N RG REF OBS I CORR I 65.00X 100.42X 3970 H I 2 VV4 44.00 69.08 33.00 44.41 -INF III ) 2 44. nn 69.OB 120.OOX 161.51 X 4861 I 1 VV4 100.00 100.00 100.00 100.00 (0 I II ) 1 9.60 12.76 4959 III ) 1 VV4 250.00 250.00 239.86 239.86 2 VV 1 120.OOX 159.45X <34.00 94.00 88.34 88.36 vv i 4?.soy 78.43X 6563 I 2 VV4 719.00 376.11 4686 HE II 220.OOXA 243.61XA 6563 II ) 2 VV4 720.00 376.63 4861 H I R3 100.00 100.00 100.00 100.00 VV 1 100.00 lOQ^QJ i no.no 1QQ.QQ 53 (PK NO. 15 -4 1) VV5 100.00 ICO.00 100.00 100.00 (0 III) R3 240.00 219.33 228.93 209.21 VV. 1 22Q^QQ 219.33 209.85 198.00 219.33 188.86 209.21 54 (PK NO. 16 -4 1) 1.00 (HYDROGEN LINES) (0 III ) 775.00 712.50 721.95 663.72 650.00 712.50 605.50 663.72 WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 5876 HE I 122.50 122.50 75.84 75.84 3727 (0 II 1 VV 1 0.0 A 85.00 0.0 163.99 6300 (0 1 ) 140.00 140.00 73.09 73.09 -VV4 . 85. 00 168.99 6563 H I 315.00 150.37 3869 (NE III ) 1 VV 1 0.0 A 54.00 0.0 A 97.65 VV5 508.00 242.50 1 VV4 54.00 54.00 97.65 97.65 (N II) VV l 315.00 150.37 3889 H I 2 W 1 Q»Q L. Q.O Q« Q A . ■■■■Q.Q VV 5 508.00 24¿t-5Q_. 2 VV4 8.50 15. 16 2 VV 1 0.0 0.0 A END Ml 58 (PK NO. 22 -3 1) 2 VV4 8 « QQ .-Là. 27 3970 H I 2 VV4 18.00 30.60 3970 (NE I II ) 2 VV 1 0.0 A 0.0 0.0 2 WA 16.QQ 3Q.6Q BEGIN Ml (PK NO. 23-2 1) C = 1.03 (RADIO-H BETA) 3970 0.0 0.0 A 4102 45.80 A 71.67 A WAVE IDENT N RG REF OBS I CORR I 14.00 14.QQ 3727 _LC II ) J VV 1 29.8Q 6Q.48 VV 1 41.70 36.85 56.64 50.05 (NE III) R3 100.OOX 184.22X VV4 32.00 36.85 43.47 50.05 VV l 40.40 74.42 ..V.V4 17.00 17.QQ 18.88 18.88 3889 .VV 1 40. 40 73.32 100.00 100.00 100.00 100.00 3889 HE I 3 VV l 40.40 73.32 100.00 100.00 100.00 100.00 3967 (NE III) 2 R3 64.OOX 110.76X . .4.959 _I_Q III ) VV I . 241.70 270.85 230.21 257.97 2 VV 1 40.40 69.91 VV4 * 300.00 270.85 285. 74 257.97 3970 R3 64.OOX 110.56X VV 1 541.70 695.85 503. 51 646.79 VV 1 40.40 69.79 V.Y4_ 85Q.QQ 695.85 79Q.Q8 -6-46.79 41Q1 79^-QQX 125.37X 6300 (0 ) l VV 1 66.70 34. 13 57.40 91.09 6563 H 2 VV 1 1250.00 583.22 96.OOX 131.60X 2 VV4 .45Q.Q..Q9- 2Q99.58 VV 1 159.6Q 218.19- ) 2 VV 1 1250.00 583.22 10 III ) 53.OOX 71.67 X 2 VV4 4500.00 2099.58 159.60 215.82 . 468.6 HF II 91. OOX 101.4QX 54 (PK NO. 16-4 1) 100.OOX 100.OOX l VV 1 100.00 100.00 100.00 100.00 _1 VV5 1QQ.Q0 1 00.00 100.00 100.00 (0 III) 1 R3 400.OOX 380.43X 56 (PK NO. 16 -4 2) 0.90 (HYDROGEN L INES) 1 VV 1 170.20 179.10 161.87 170.34 1 VV5 188.00 179.10 178.80 170.34 WAVE IDENT N RG REF OBS I AVE O CORR I AVE C (0 III) 1 VV 1 638.20 675.60 591.91 626.60 3 869 (NE III) l VV4 21.00 21.00 35.79 35.79 l VV5 713.00 675.60 661.28 626.60 3889 1Q.QQ . -83 5876 HE L I VV 1 2 3.40 23.40 14.06 14.06 3889 HE I 2 VV4 10.00 16. 83 6300 (0 I ) 1 VV l 44. 70 22.42 22.42 3970 H I 2 VV4 18.00 29.02 6563 H I 2 VV 1 595.70 271.65 3970 (NE III) 2 VV4 18.00 29.02 2 VV5 925.00 421.82 4102 VV4 15.00 15.00 22.44 22.44 2 VV 1 595.70 271.65 4340 VV4 32.00 32.00 42.16 42.16 2 VV 5 92 5. 00 421.82 56 (PK NO. 16 -4 2) 59 (PK NO. 627 American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. TABLE Continued BEGIN mi _6_0 IPK NO. 19 -4 1) Q.Q ( HYDRDGEN I INF.SI Ml.. _Z3 (PK NO. 51 -3 1) WAVE IOENT N RG REF OBS I CORR I WAVE IDENT N RG REF OBS I CORR I AVE C 3727 (0 II) 1 ^_L_ . 18.Qg A . _18tOP-A_ 3967 JL-N-E IU ) 2 VV 1 31.60 39.56 3869 (NE III) VV l 80.00 80.00 2 R 16:00 19.89 3889 H I VV 1 80. 00 80.00 2 VV 1 31.80 39. 53 .3889.... —HE L VV. 1 . 80,.Q0 .. -80.00- . 4101 _H L_ _1 B 21.00 . 2L..85 25.24 26.26 3970 (NE I II) 1 20. 70 20.70 22.70 21.85 27.28 26.26 3970 H I VV 1 20. 70 20.70 42.00 42.00 47.62 47.62 4102 H I w.. i 36.70 A ■36t7-Q-A-_ 54.50 -61.79 4340 H I 2 VV l 120.00 120.00 4363 (0 III) 5. 80 6. 54 4363 2 VV 1 555.70 415.94 6563 (N II VV5 4Ö0.00 328.91 6575 ( N II) 1 CLZ 2 400.00 400.00 298.90 293.90 6583 (N II ) 1 ORF 270.00 270.00 192.43 192.43 6723 ( S II ) 1 SUL ¿2- . 80.T...0Q 80.00 58.68 58 tfrfl 6717 (S II ORF 2ÜjlQJL- - 28*0Q _ 19.57 19.57 6731 (S 11)1 64 ( PK NO. END Ml 80 (PK NO. 107 -2 1) . B..E1LLN. ...M-L- 73 (PK NO. 51 -3 1) 0.41 (HYDROGEN LINES)... BEGIN M2 4 (PK NO. 349+ 41) C = 0.0 (NO CALCULATION) WAVE IDENT N RG REF OBS AVE O CORR I AVE C 3727 _L0 II )-J VXJL. 68 .-20 9Q.AQ WAV-E IOENT N- RG.. REF OBS 1 AVE O CORR I AVF C 3889 H I 1 15.00 19.02 6563 I l HE67 l•00*A 1.00*A 3967 (NE III) 2 16. CO 19.90 6584 (N II ) l HE6 7 0. iO*A 0.10*A 73 ( PK NO. (PK NO. 349+ 4 1) 628 American Astronomical Society • Provided by the NASA Astrophysics Data System TABLE 8—Continued 197 6ApJS. . .31. 629 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued © American Astronomical Society • Provided by the NASA Astrophysics Data System TABLE 8—Continued 197 6ApJS. . .31. WEI -J. tPK NQt :^-2) tPK NQ. 342■*•27 1) WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C 3967 (NE III) 2_ 33.00 42.16 3967 ine im 1 AC7 0 19.00 iq.oo 19.20 19,20 1 AKI 27.00* 34.49* 2 VV 1 65.30 66.00 2 R 39.00 49.82 1 AC70 15.00 15.00 15. 16 _2 VV 1 62.90 80.36 _2 W 1 65.30 66.00 33.00 42.15 4023 HE II 1 AC7 0 1.60 1.60 1.62 1.62 AKI 12.00* 15.33* 4026 HE I 1 AC70 0.0 0.0 0.0 0.0 _R 39.00 49.82 -4068 _ls u r 1 AC70 1.40 1.4Q 1.41 1.41 2 VV 1 62.90 80.35 4076 l AC70 0.50 0.50 0.50 0.50 1 A 4.60 7.30 5.78 9.17 4101 1 AC 70 22.60 39.95 22.80 40.31 _L_ 10. 00 7.30 12.57 9.17 _J VV 1 57.30 39.95 57.82 40.31 2 A 11.00 13.65 4199 HF II 1 AC 70 2.00 2.00 2.02 2.02 1 AKI 8.80* 10.92* 4340 H I 1 AC70 51.00 37.50 51.31 37.73 _J B 14.QQ . 14. QQ L yv i -24.00 37.50 24.15 37.73 11.00 13.62 (0 III) 1 AC 70 18.50 21.90 18.61 22.03 3.00* 3.71* 1 VV 1 25.30 21.90 25.45 22.03 22.90 28.35 28.35 HF T ACTO 2.00 1 9-nn 2-01 20.00 21.90 24.58 26.92 1 VV 1 36.00 19.00 36. 17 19.09 20.00 21.90 24.58 26.92 4541 HE II 1 AC 70 3.40 3.40 3.41 3.41 25.70 21.90 31.59 26.92 4634 _fj LLL -J A.C.7 0 1.14 1.14 1.14 1.14 4143 HE I l R 9.30 9.30 11.29 11.29 4640 III AC70 1.70 1.70 4267 C II 1 AKI 0.50* 0.59* 4645 C III 2 VV 1 42.70 42.81 4340 Jj I_ 1 A 34.00 34,50 39.14 39,7? 4645 N TIT -2 VV 1 42.70 42.81 36.00*A 41.45*A 4647 C III l AC70 0.65 0.65 0.65 0.65 35.00 40.29 39.72 4649 0 II 1 AC70 0.76 0.76 0.76 0.76 W 1 42.80 49.21 -£685 HE II J AC 70 120-00 A 120.25 A (0 III I 1 10.00 18.50 11.44 21.17 I KA2 90.00 84.35 90. 19 84.53 AKI 9.30* 10.64* l VV 1 78.70 84.35 78.87 84.53 -fi- 27.00 18.50 30.90 21.17 1 AR IV ) J AC 70 10-90 10.90 -IH. 92 10-9? 2 VV 1 42. 80 48.98 4713 HE I l AC70 0.0 0.0 1 AKI 0.60* 0.68* 4724 (NE IV > 1 AC70 2. 10 2. 10 -I B 14.00 15.9? 4740 15 IV > J AC 70 6.20 . 6.21 1 A 6. 50 7.24 7.24 1 AC 7 0 100.00 1 00.00 100.00 100.00 1 AKI 6.30* 7.02* l KA2 100.00 100.00 100.00 100.00 1 R 26.0QX 28.96X -J 0116 3 100.00 100.00 4634 N III 2.60 2.77 1 VV 1 100.00 100.00 100.00 100.00 4640 N III 2.60 2.76 1 AC70 470.00 447.23 469.54 446.80 4685 HE II 5.20— -5^46- —I KA2 525.00 524.49 2.80* 2.94* l VV 1 346.70 447.23 346.36 446.80 4711 5. 80 6.04 (0 III ) l AC70 1410.00 1264.43 1407.94 l 262.59 4. ?Q* 4.38* J 0063 -1-410. QQ 1264.43 -140 7.94 1 262.59 33. 00 19.40 34.39 20.22 l VV l 973.30 1 971.88 l 4713 HE I AKI 4.20* 4.37* 5411 HE II 1 VV 1 49.30 A 49.02 A 4740 (AR IV 1 —A— 7. 70- ?0-85 7-96 -21^55 6563 _H I -2 VV 1 150.70 148.42 1 AKI 4.00* 4. 13* 6563 (N II ) 2 VV l 150.00 147.73 1 R 34.00 20.85 35. 14 21.55 6717 (S IT I 1 AE2 0.85* 0.84* , -4861 —1 A ion.on i nn.no ino.oo inn.op 6730 -LS II ) J A-E2 1.00* 0.98* 1 1 0D6 3 100.00 100.00 100.00 100.00 1 R 100.00 100.00 100.00 100.00 END CPK NO. 342 + 27 1) _1 VV 1 100.QQ 1QQ.00 100.QQ inn.oo ! 520.00 399.53 508.48 390.68 250.00 399.53 244.46 390.68 4?8.6n 399.53 41*9. 1 0 390.68 RFGIN MF? (PK NO. inn -ft 1> 0.2 5 ( H YDRnGF N 1 INFS1 (0 I II ) 1 1970.00 346.67 1904.85 1302.13 I 0063 1070.00 1346.67 1034.61 1302.13 WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C _J VV 1 1000.QQ . 1346.67 966.93. ,.1302.13 3712 _H I _1 A 3.90 3.9Q . 4.64 4.64 5411 HE II 28.60 28.60 25. 10 25.10 40.00 47.51 5876 HE I 20.00 20.00 15.93 15.93 PER 22.00 26. 13 6300 (0 I ) VV 1 34.30 34.30 25.20 25.20 SO 1.00* 1.19* 6563 H I VV l 371.40 261.54 VV 5 36. 50 43.35 6563 (N II ) VV 1 371.40 261.54 3729 SO 0.46* 0.55* 3734 _A 5.50 _5jl5_Q- 6.52 6.52 END (PK NO. 52 -2 2) 3750 H I 5.40 5.40 6.39 6.39 3770 H I 6.20 6.20 7.31 7.31 3797 _y L 9. QQ 9. QQ 10.57 10.57 3835 10.00 10.00 11.66 11.66 (PK NO. 342+27 1) 0.02 (RADI0—H BETA) 3868 (NE III 1 l 75.00 84.00 86.99 97.43 -53.QQ 84.QQ 61.47 97.43 WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C PER 54.00 84.00 62.63 97.43 3132 0 III 1 AC 70 30.00 30.00 30.65 30.65 VV5 154.00 84.00 178.62 97.43 3203 HE II 1 AC70 40. 00 40.00 40.83 40.83 3889 _H I_ 25.QQ 25.QQ .28.89 3299 0 III AC 7 0 3. 50 3.50 3. 57 3.57 VV5 74.00X 85.52X 3312 0 III AC 70 10.20 10.20 10.40 10.40 3889 HE I VV5 74.00X 85. 52 X 334Q Q in -1 AC7Q 15.00 15.00 15,29 15.28 3967 (NE III ) _JA 41.00 46.84 3345 (NE V ) 1 AC70 94.00 95.75 2 VV5 82.00X 93.68X 3425 (NE V ) 2 AC7 0 250.00 254.39 ? A 41.00 46.84 3428 _Q LL 2 AC7Q ?50.00 254.38 4026 _2 VY5 82.00X -93..67X. 3444 0 III 1 AC70 41.00 41.71 HE I 6.10 6.91 3682 H I 1 AC70 0.20 0.20 4069 ( S II) 2. 30 2.59 3696 H 1 1 AC70 _fia_55L_ 0-50 0, 51... 0.51 4076 __LS LI L 2.3Q 2.58 3691 1 AC70 0.83 0.83 0. 0.84 1 A 35.00 32.00 8 39. 15 35.80 3697 1 AC 7 0 1.10 1.10 1. 12 1.12 1 PER 29. 00 32.00 32.44 35.80 370? _J AC7Q 1,35 1.35 1,37 1,37 _i yv5 -46,QQX 51.46X 3705 l AC70 0.0 0.0 0.0 0.0 A 52.00 47.50 56. 14 51.28 3712 1 AC 70 1.80 1.80 1.83 1.83 PER 43.00 47.50 46.42 51.28 3722 2 AC7 0 3.40 3.45 VV5 64.QQX 3722 ( S III) 2 AC7 0 3.40 3.45 (0 III) 8. 30 10.15 8.93 10.92 3726 (0 II ) l AC70 20.30 20. 58 12.00 10.15 12.91 10.92 l VV 1 66.70 67.6Z 4471 —Hg—I 12.20 9.97 12.94 10.59 3728 II ) l AC7 0 16.30 16.53 KA2 7. 75 8.22 3734 I 1 AC 70 2.40 2.43 2.43 VV5 18.00X 19.08X 3750 3 754 J AC7Q, . 3.30 3.34 3,34 —4-634. N MI _jS 3.60 3.72 0 III 1 AC70 2.20 2.20 2. 23 2.23 4640 III 2 3.60 3.72 3759 0 III 1 AC 70 5.50 5.50 5.57 5.57 4711 (AR IV ) l A 3.00 3.00 3.07 3.07 3770 H I 1 AC7 0 4. 10 4.10 4. 15 -4^15 4861 —b I J, A_ 100-00 1QQ.QQ 100,00 100-00 3797 H I 1 AC 70 6.20 6.20 6.28 6.28 KA2 100.00 100.00 100.00 100.00 3835 H I 1 AC70 8.00 8.00 8.10 8.10 PER 100.00 ICO.00 100.00 100.00 -3.868 (ne nn J AC7Q 78.00 93,65 78^93 94.77 VV 5 100,00 100.00 100.00 100.00 1 VV 1 109.30 110.60 4959 (0 III) A 200.00 217.25 197.58 214.62 I 2 AC70 13.60 13.76 KA2 242.00 217.25 239.07 214.62 __2 W 1 76,00 76.88 -PER 235.00 -217.25 232.16 ? 14.6? HE I 2 AC 70 13.60 13. 76 VV5 192.00 217.25 189.68 214.62 2 VV 1 76.00 76.88 (0 III) PER 703.00 624.00 690.27 612.70 (PK NO. 342 + 27 1) (PK NO. 100 -8 1) 631 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued © American Astronomical Society • Provided by the NASA Astrophysics Data System TABLE 8—Continued 197 6ApJS. . .31. PS (PK NQ. tf-Zl l) BEGIN VYl. lPK_.N.P.t., 1.18 -9 W C = 0.96 (HYDROGEN LINES) WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 4363 (0 im 1 P72 3,16 3.57 3,38 3,82 3727, _UJ II ) 1 VYl 31.30 6Q.54 4471 HE I OP 6.04 6.04 6.37 6.37 35.00 54.70 61.85 96.67 4861 H I OP 100.00 100.00 100.00 100.00 26.00 54.70 45.95 96.67 P7.2 1QQ.ÛÛ 100.0Q . 1QQ.0Q 10Q.QQ 103.10 54.70 _A8¿ 20 96.67 4959 (0 III) 1 OP 38.90 38.90 38.47 38.47 3889 1 R 13.00 22.66 22.66 5007 (0 III) 1 OP 123.00 159.00 120.95 156.35 2 VV1 21.90 38. 17 P72 195.00 159. Q-Q 191.75 156.35 3889 VV1 21-90 ?8tl7 5876 HE I P72 12.90 12.90 11. 51 11.51 3967 (NE III) 16.00 26.68 6563 H I P72 339.00 339.00 284.48 284.48 50.00 83.36 3970 H I 16.00 26.63 , 95_ 75.95 4661 H I 1 WB 100.00 100.00 100.00 100,00 142.40 257.52 5007 (0 III) 1 WB 67.00 67.00 65.31 15.00 15.00 , 26.75 147.40 253.99 END NS 42 (PK NO. O-»- 0 1 ) 3889 HE I 3 VV 1 142.40 253.99 3967 (NF III) 2 R 38.00 64. 72 2 VV 1 33.30 56.71 38.00 64.61 43 (PK NO. C = 0.27 (HYDROGEN LINES) 33.30 56.62 _LS II 1 -L 43.00 68.73 IDENT —AVE n CORR-I 4076 (S II J 40.00 40.00 63.65 63.65 3727 (O II ) i WB 12.00 14.45 4101 H I R 52.00 33.60 81.42 52.61 4340 HI 1 WB 43.00 43.00 46.71 46.71 VV 1 15.20 33.60 23.80 52.61 —43.63 in LU! 1 as 3,-36 3,36 3.64 3,64_ 4340 H I 1 R 3 5.00 29.60 47.54 40.21 4471 HE I 1 8.00 8.00 8.52 8.52 1 VV 1 24.20 29.60 32.87 40.21 4861 H I I 100.00 100.00 100.00 100.00 43-6.3 LQ III) J S 14.00 13.05 IS.JJ- 17.49 -5007 LQ LI I ) 1_ 567.00 567.00 551.0? 551 .07 12. 10 13.05 16.22 17.49 4861 100.00 100.00 100.00 100.00 43 (PK NO. VV 1 100.00 100.00 100.00 100.00 200.00 246.96 190.49 235.21 VV l 293.90 246.95 279.93 235.21 VV 1 545. 50 545.50 507.Q4_ 507.04 rfgtn ns 44 (PK-NO. 0+0 1) -0.94-LHYDROGEN 1 I MRS ) 6300 (O I ) VV 1 57.60 79.47 6563 H I VV 1 939.40 438.30 WAVE IDENT N RG REF OBS AVE O CORR I AVE C 6563 LN I_I L_ VV 1 -939.40 4-38.30-- -3727 LO L-L 1 1- WB 35. 66.77 4340 I 1 WB 35.00 35.00 46.68 46.68 ( PK NO. 45-2 1 ) 4363 III) 1 WB 7.14 7.14 9.40 9.40 4861.- _J 1 WB 100.00 1 00.00 _ 100.00 100.00 . 5007 (0 III) 1 WB 933.00 933.00 871.04 871.04 CPK NO. 107-13 1) 0.30 (HYDROGEN LINESL -END NS 44 (PK NO. 0+01) WAVE IDENT N PG REF OBS I AVE G CORR I AVE C 4861 -ii I 1 CLZ2 1QQ.QQ I 00.QQ 1QQ.QQ IQO.QO 4991 (O II!) 1 CLZ 2 1000.00 1000.00 980.80 980.80 47 (PK NO. = 0.35 (ESTIMATE) 5876 HF I i CLZ2 40.00 40.00 34.49 34.49 6563 H I I CL 2-2 360. 00 360.00 286.40 286.40 -WAVE IDENT N RG REF Q-B-S- I -AVE-Q CQRR 1 AVE C 3727 (O II ) l WB 36.00 45.79 (PK NO. 107-13 1) 4861 HI l WB 100.00 100.00 100.00 100.00 _50Q7 LO III) 1 WB- 776.00 276.00 269.03 269.03- 47 (PK NO. —2.9 (PK NO. 705+J 4 1J_ 0.50 (H-YDROGEN I INFS) WAVE IDENT N RG REE OBS I CORR I AVE C 3727 ( C 11)1 LZ2 590.00 831.90 BEGIN NS 70 (PK NO. = 0.27 (HYDROGEN LINES) 4686 HE II 1 CLZ2 75. 00 75.00 79.05 79.05 4861 H I 1 CLZ2 100.00 100.00 100.00 100.00 WAVE IDENT N RG REF OBS I AVE O CORR I AVE C -L ill -IQQ.QQ IQQ,00 10Q.QQ 1QQ.QQ _U2I LQ 11 ) l MB 63.QQ 75.84 4959 (0 III) LZ2 82.00 82.00 80.03 80.03 4340 HI l WB 43.00 43.00 46.71 46.71 4991 (P III ) 1 CLZ2 760.00 760.00 735.84 735.84 4861 HI 1 WB 100.00 100.00 100.00 100.00 . 500 7 (O I IT) I J-Z2_ 182.00 1-82-, 0 0 . 175.47 175,47 5007 (0 III) 1 WB 426.00 426.00 417.67 417.67 654 8 ( N 11)1 LZ2 500.00 500.00 342.48 342.48 6563 CLZ 2 320.00 420.00 218.56 286.89 70 (PK NO. 0+01) LZ2 520.00 420.00 355. 19 286.89 6575 (N ) I CLZ 2 670.00 670.00 456.64 456.64 6584 (N ) 1 LZ2 1260.00 1260.00 857.33 857.33 6717 (S ) 1 LZ2 276.GO 276.00 183.75 183.75 REGIN NS —81 (PK NO. 0+0 1) C = 0.0 (HYDROGEN LINES) 6723 (S CLZ2 190.00 190.00 126.37 126.37 6730 (S LZ2 219*00 219.00 145.49 145.49 WAVE IDENT N RG REF OBS I AVE 0 CORR 1 AVE C 3727 (O II ) 1 WB 147.00 147.00 29 (PK NO. 205+14 1» 4340 HI l WB 49.00 49.00 49.00 49.00 4363 (0 III) 1 WB 8.75 8.75 8.75 8.75 -4471 HE I 1 MEL_ 11.10 11.10 11. IQ LI. IB 4861 I I 100.00 100.00 100.00 100.00 C = 0.35 (ESTIMATE) 5007 (0 III ) 1 513.00 513.00 513.00 513.00 WAVE IDENT OBS I CORR I AVE C 81 (PK NO. 3727 (O II ) I 29.00 36. 89 4861 100.00 100.00 100.00 5007 (0 III) I WB 831.00 831.00 810.01 810.01 87 (PK NO. 0+ 0 l) C = 0.36 (HYDROGEN LINES) END NS 6 (PK NO. 0+0 1) WAVE IDENT N RG REF OBS I AVE O CORR I AVE C 3727 (O II ) 1 WB 41.00 52.51 5340 h I I *3 4 ..go 42f.0Q 46,99 56,9Q_ 38 (PK NO. 0+ 0 l) C = 0.35 (ESTIMATE) 4861 H I 1 100.00 100.00 100.00 100.00 5007 (0 III) 1 562.00 562.00 547.40 547.40 WAVE IDENT N RG REF QBS I AVE Q CQRR I— AVE C 3727 (O II ) 1 WB 51.00 64.87 END 87 (PK NO. 4861 H I 1 WR 100.00 1 00.00 100.00 100.00 5QQ7 LQ III) I - —MB— 870.00 8.LQ, QQ ...848,02 848,02 38 (PK NO. BEGIN P 1 (PK NO. 0+ 0 l) 0.13 (HYDROGEN LINES) WAVE IDENT N RG REF OBS I CORR I 3727 (O II I I WB 38.00 41. 55 —43.4Q ti I 1 MB 4B-,QQ 45,QQ 46.83 46,83 4861 H I I 100.00 100.00 100.00 100.00 5007 (0 III) l 740.00 740.00 733.00 733.00 634 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. TABLE 8—Continued BEGIN P LPK NO*. _Q±_Q_LL_ Q,Q (HYDROGEN. LINES) _2_5 (PK NO. WAVE IDENT DBS CORR I WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C —3127 _LQ II ) I WB 12Q.QQ 12Q.00 4686 HE II 1 WB 29.40 30.06 4340 H I 1 WB 50.00 50.00 50.00 50.00 4861 H I 100.00 100.00 100.00 100.00 4363 (0 IM) 1 WB 26.30 26.30 26.30 26.30 5007 (0 III) 1000.00 1000.00 984.76 984.76 4861 _H I_ WB 100.00 100.00 LOO, Qfl 100,00 5007 (0 III) 1 WB 890.00 890.00 890.00 890.00 END 2 5 ( PK NO. 0+0 1) END P 7 ( PK NO. 0+ 0 1) 26 (PK NO. C = 0.76 (HYDROGEN LINES) BEGIN P 8 (PK NO. 0+ 0 1) C = 0.36 (HYDROGEN LINES) WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 3727 (0 I I ) 1 WB 55.00 92.72 —WAVE IDENT N RG REF QBS AVE* 0 CORR I AVE C .43AQ- _üH IL 1 .MB 37.00 37.QQ 46.70 46.70 3727 (O II ) 1 WB 31.00 39.70 4861 WB 100.00 100.00 100.00 100.00 4340 HI 1 WB 42.00 42.00 46.90 46.90 5007 (0 I II ) 1 WB 933.00 933.00 882.57 882.57 4.861 H I 1 HB_ 100.00 100.00 100.00 100.00 5007 (0 III) 1 WB 758.00 758.00 738.31 738.31 26 (PK NO. END E 8 (PK NO. 0+0 1) 29 (PK NO. 0+01) C = 0.0 (HYDROGEN LINES) C = 0.0 (HYDROGEN LINES) WAVE IDENT N RG REF OBS I CORR I AVE C 3727 (0 II WB 72.00 72.00 WAVE IDENT N RG REF DBS I_ AVE 0 CORR AVE C 4340 _H I_ MB 48.00 4B.QQ 3727 (0 WB 40.00 40.00 4363 (0 III) WB 16.00 16.00 16.00 16.00 4340 H WB 66.00 66.00 66.00 66.00 4686 HE II WB 25.00 25.00 25.00 25.00 4861 ti I— WB 1QQ.QQ_ 1QQ.QQ LQQ.OQ 100,00 4861 _hL _MB 100.00 100.00 100-00 100-00 5007 (0 III) 1 WB 850.00 850.00 850.00 850.00 5007 (0 III) 1380.00 1380.00 1380.00 1380.00 -END E 9 (PK NO. Qf Q 1) END P 29 (PK NQ. _Qf— Q. 1) BEGIN P 17 (PK NO. 0+01) C = 0.76 (HYDROGEN LINES) 32 (PK NO. 0.25 (ESTIMATE) A-VF- 0 CORR I AVE 0 CORR I 3727 (0 II ) 1 78.00 131.49 3727 (O II ) 1 WB 36.00 42.75 4340 H I 1 37.00 37.00 46.70 4861 HI 1 WB 100.00 100.00 100.00 100.00 4861 100.00 LûQ.^00— 5007 (JO III) I MB_ 590.00 590.00 579.31 579.31 5007 (0 III) 1 WB 955.00 955.00 903.39 903.39 32 (PK NO. F NO B LI (PK NO. 0+01) _33 (PK NO. _CUB (HYDROGEN I INFS) 18 (PK NO. 0.28 (HYDROGEN LINES) AVE C —LO II 1 1 3727 (O II ) 1 85.00 103.03 4340 8 1.00 81.00 81.00 81.00 4340 H I 1 43.00 43.00 46.85 46.85 4861 WB 100.00 100.00 100.00 100.00 -4.363 LO III ) 1 13.90 1 ^.on ? rt no 15.09 5007 WB 1510.00 1510.00 1510.00 1 510.00 4686 HE II 1 29.40 29.40 30.28 30.28 4861 H I 1 100.00 100.00 100.00 100.00 33 (PK NO. 0+ 0 1) 5QQ7 (_□ III 1 1 in?n.nn in?n.on 18 (PK NO. 35 (PK NO. 0+ 0 1) 0.0 (HYDROGEN LINES) WAVE IDENT N RG REF OBS I AVE O CORR I AVE C BEGIN P _L2 (PK NQ. Q+ Q 1) 0.06 (HYDROGFN I INFS) 3727 LO II ) 1 MB 66.00 66.00 4340 HI 1 WB 63.00 63.00 63.00 63.00 WAVE IDENT N RG REF OBS I CORR I AVE C 4363 (0 III) 1 WB 33. 10 33. 10 33. 10 33.10 3727 LO II 1 1 MB 56.00 56.36 4686 HE II 1 WB ■4-1. 7Q 41.70 41.7Q 41.70 4340 I 46.00 46.00 46.85 46.85 4861 WB 100.00 100.00 100.00 100.00 4861 H I 1 WB 100.00 100.00 100.00 100.00 5007 WB 775.00 775.00 775.00 775.00 5007 (0 III ) 1 WB 675.00 675,00. 672.05 672.05 35 (PK NO. 19 (PK NO. 38 (PK NO. C = 0.0 (HYDROGEN L INES) BEGIN P _2_Q (PK NQ«_ 0+ 0 1) Q.o (HYDROGEN LINES) WAVE IDENT N RG REF OBS I CORR I AVE C WAVE IDENT N RG REF OBS I CORR I 3727 (O II ) 1 WB 74.00 74.00 3727 LO II ) 1 MB 138.QQ. 136.QQ 4340 HI 1 WB 68.00 68.00 68.00 4340 H I 1 WB 47.00 47.00 47.00 47.00 4861 I WB 100.00 100.00 100.00 100.00 4861 H I I WB 100.00 100.00 100.00 100.00 5007 III) WB 1450.00 1450.00 1450.00 1450.00 5QQ7 LQ HD 1 -MB 1Q5Q.QQ LD5Q,QQ 1Q5Q.0Q 1Q5Q.00 20 (PK NO. BEGIN P 39 (PK NO. C = 0.0 (HYDROGEN LINES) 24 (PK NO. C = 0.0 (HYDROGEN LINES) WAVE IDENT OBS I CORR I WAVE IDENT N RG REF OBS I CORR I AVE C 3727 (0 II ) 1 132.00 132.00 3127 LO II ) J1 MB 81,QQ 81, QQ 4340 H I 54, QQ 54« QQ 54.00 4340 48.00 48.00 48.00 48.00 4861 I 1 WB 100.00 100.00 100.00 -100.0054.QQ 4861 H I 1 100.00 100.00 100.00 100.00 5007 III ) 1 WB 1260.00 1260.00 1260.00 1260.00 5007 _L0 III ) 1 - MB 615.QQ 615.00 615, QQ 615.QQ 39 (PK NO. 24 (PK NO. BEGIN P 42 (PK NO. 01) C = 0.06 (HYDROGEN LINES) BEGIN P (PK NO. 0+0 1) C = Q«21 (HYDROGEN LINES) WAVE IDENT N RG REF OBS I AVE O CORR I WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 3727 (O II ) l WB 78.00 81.28 3727 -LQ II ) 1 WB 51.QQ 58.92 —4340 H I 1 MB 46.00 —46.00 46.85 4340 H I 1 44.00 44.00 46.92 46.92 4363 (0 III) 1 WB 18.40 18.40 18.73 18.73 4363 (0 III) 1 27.50 27.50 29.25 29.25 4686 HE II 1 WB 25.00 2 5.00 25. 16 25.16 4861 HI 1 WB 100,00 100.00 100.00 100.00 25 (PK NO. 0+ 0 1) 5007 (0 III) 1 1320.00 1320.00 1314.22 1314.22 END P 42 (PK NO. 0+0 1) 635 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. TABLE 8—Continued GALACTIC DIFFUSE NEBULAE NGC 1976 ( 209.0 -19.41 WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C BEG T N NGC 281 (123.2 1.66 (RADIO-H BETA1 3465.89 HE I I KAB 0.0 0.0 0.0 0.0 3471.86 HE I KAB 0.13 0. 13 0.20 0.20 WAVE IDENT N RG REF OBS I AVE 0 CORR 3478.90 HE I KAB 0.13 0.13 0.20 0.20 3726 63 —Q. 63 _ Q.-9-2— Q .92 WAVE IDENT N RG REF OBS CORR I 3664.70 KAB 0.70 0.70 1.02 1.02 3727 (0 11)1 l J53 32. 160.87 3666.10 KAB 0. 70 0.70 1.02 1.02 1 3 J53 48. 241.31 3667.70 KAB 0.79 0.79 1.15 1-1..5- 100. co A 100.00 A 3669.49 KAB 0.89 0.8 9 1.30 1.30 l J 53 100. 00 100.00 100.00 100.00 3671.48 KAB 0.96 0.96 1.40 1.40 ? J53 1 on. no ino.oo 1QQ..0Q 100.00 3673.75 _y i_ KAB -.L.Q6 -.QB- - 1.-5-4- 1.54 J 53 100. 00 100.00 100.00 100.00 3676.37 H I KAB 1. 18 1.18 1.71 1.71 J 53 100. 00 1 00.00 100.00 100.00 3682.80 H I KAB 1.4» 1.49 2- 16 2.16 _LD IH) 1 _±UJ 5_Qj QQ A 42.96 A 3686.83 -H I_ KAB 1.69 1.69 . 2.45 . 2.45— 6548 (N l 2 J 53 160. 00 27.02 3691.56 H I KAB 1.90 1.90 2.75 2.75 6563 1 13 CLM 1. 00* 0.17* 3694.15 NE II KAB 0. 10 0. 10 0. 14 0.14 J 1 J 53 1 7R0. 296.74 3697.16 K-AiL 2.11 -3^-05— 2 J 53 1670. 1752.50 278.41 292.16 3703.89 I KAB 2. 34 2.34 3. 37 3.37 3 J 53 1670. 1752.50 278.41 292.16 3705.00 HE I KAB 1.12 1.12 1.61 1.61 1752.50 -34-5^08 292.16 3709-4ft -NF II KAB n.io 0. 14 1 PA . 00* 0.17* 3709.46 S III KAB 0. 10 0. 14 11)113 CLM .71* 0. 12* 3711.99 H I KAB 2.85 2.85 4.09 4.09 1 1 J 5 3.- 90.86 3717.84 -S I 11 KAB >2.0- n, ?n n, 70 0.29- 1 2 J 53 450. 513.75 73.67 84.10 3721.92 KAB 4. 10 5.87 l 3 J53 480. 513.75 78.58 84.10 3721.92 III) KAB 4.10 5.87 1 4 J53 570. 513.75 93.31 84.10 3726 II ) AI 127.QQ 181.61 ,48* 0.08* 1 1 CA 1.00* 1.43* II ) l 1 J 53 180. 00 160. 00 26.60 23.64 1 61 CR 1.00* 1.43* )— 7 .15 3 170, no i 60.no 25.1? 23.64 -J 4 D-M_ . I,>00* 1.43» 1 3 J 53 133. 160.00 19.65 23.64 l 3 DRS 1.00* 1.43 1 4 J 53 157. 160.00 23.20 23.64 l C GZ55 175.00 250.25 —LI 1—1 I J 5 3 150. 1 46.75 21 .46 _1 F G7 5 5 1 3 0-.00 ■ 185.90 1 2 J53 200. 146.75 29.24 21.46 GZ55 140.00 200.20 1 3 J 53 105. 146.75 15.35 21.46 1 l J53 171.OOX 244.53X -J 4 J 5 3- 132. 146.75 19>30 24-. 66 —1 2 J 53 56>QQX.. 8Q.Q8X 3 J 53 34.OOX 48.62 X REG ICN KEY (REGIDN,REFERENCf*EXPLANATI ON) 4 J53 82.OOX 117.26X 13* CL« , DIRECTION l.RING 3D, MAX OF 10 VALUES, SEE REF. IB MA57 1.00* 1.43* l, J 53 , PA 3H 56.9M, NC. 33 IE MA57 1.00* 1.43* 2» J 53 , PA 3H 56.9M, NO.34 1 ME 67 66.30 96.79 3i. J 53 * ,RA 3H 56.9M, MC.3.5 ¿-HE6.7 139.40 203.50 J 53 RA 3H.57.4M 1 3 ME67 45.90 71.78 l 4 ME67 120.70 170.24 _ END NGC 1499 (160.6 -12.0) _1 5 ME67 164.9Q -2-47.44, 6 ME67 150.50 212.27 7 ME6 7 68.00 95.91 8 ME6 7 112.QQ 157.97 BEGIN NGC 1931 C = 0.0 (NO CALCULATION) 1 9 ME67 13.90 19.61 1 10 ME67 90.10 123.63 WAVE AVE Q CORR ( AVE C -J A.. Of L.QQ* 1.43* 6563 HI 1 A GEK I.00* I.00* 1 A OS55 1.00* 1.43* 6584 (N II ) I A GEK O. 32* 0.32* l 1 PC 85.00 113.47 6717 (S II ) 1 B GEK 1.05* 1.05* 1 2 PC 9-L. 10 154.72 (S II ) i B GEK PC 182.00 253.20 L 4 PC 131.00 164.38 PEGICN key (REGION.REFERENCE.EXPLANA!ION) 1 IK RF 21Q.QQX 3QQ.3QX. A , GEK , REGIONS A AND B CN DIFFERENT SCALES 1 A SCH 1.00* 1.43* l 1 SI 79.70 113.97 END NGC 1931 ( 173.9 0.3) _1 Z SI .32^P 119.26 1 3 SI 102.40 146.43 3728.76 (O II ) L KAB 127.00 181.44 I 1 CA 0.48» Q.69* BEGIN NGC 1976 -19.4» **C = 0.52 (HYDROGEN LINES) I 61 CR 0. 59* 0.84* 1 4 DM 0.47* 0.67* . WAY-E- IQ.E-NT N RG KEF oas-L- AY.E Q CQFR I -AVE C _J 3 DRS 0.47» Q. 67 3187.74 HE I L KAB 6.30 10.81 10.81 1 IB MA57 0.58* 0.82* 3286.21 (FF III) 1 KAB 0.0 0.0 0.0 1 IE MA57 0.58* 0.83* 3296.69 HE I 1 KAB 0.25 0.25 0.41 —Q*M 1 A OF 0.52* .0.74* 3323.98 S III KAR 0.0 0.0 0.0 I A 0S55 0.50* 0.71* 3324.96 S III KAP 0. I 8 0.29 0.29 I A SCH 0.97* 1.39» 3334-. S7 NE II KAR Q^?a 3732.88 HF I -J KAB —QL. 13 0- 19 3334.87 (FF III) 2 KAB 0.28 3734.30 H KAB 3.70 3.60 5.28 5.13 3342.92 (NE III) 2 KAB 0.28 AL 3.50 3.60 4.99 5.13 3342.92 (CL JIIJ- 2 KA-B— 0.28 3.747.9.8 S LLL KAB 0.0 Q.Q Q.Q 0.0 3353.34 (CL III) l KAB 0.08 0. 13 0.13 4.50 3.62 6.38 5.18 3354.6C HP I 1 KAB 0-3 5 0.56 0.56 4.40 3.62 6.24 5.18 335-6-. 69 (PE JILL 1 KAB Q.Q d>Q Q.Q 2.40 3.62 3.4L- ,5» l.B... 3360.47 NE I I 1 KAB 0.0 0.0 0.0 2 ME67 3.20 3.62 4.63 5.18 3370.39 S III l KAB 0.0 0.0 0.0 3756.21 HE I KAB 0.09 0.09 0. 13 0.13 3387.01 .5 LLL 1 KAB Q.2.7 Q-c.43 Q «43 _3J5fl K-A-B 0.06 . 0.08 3447.56 HP I KAB 0.61 0.95 0.95 KAB 5. 10 4.27 7. 19 6.07 3453.26 HE I KAB 0.0 0.0 0.0 AL 5.40 4.2 7 7.61 6.07 NGC 1976 (209.0 -19.4) 636 © American Astronomical Society • Provided by the NASA Astrophysics Data System TABLE 8—Continued 197 6ApJS. . .31. NGC 1976 ( 209. Q -19.41 WAVE I0ENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I CORR I AVE C 3770.61 H I 1 1 ME 67 3.20 4.27 4.60 6.07 3969.97 H I 2 W GZ55 10.00 13.18 1 2 ME67 3.40 4.27 4.89 6.07 1 1 ME 67 17.40 15.94 23.30 20.91 3777.05 NE l KAB 0.06 0.06 0.08 0.08 1 2 ME67 15.00 15.94 20.08 20.91 _3784.93 ti£_ _1 0. 09 0.09 Q.13- .13 -J 4-ME67 14. QQ 15.94 18.25 -20.31 . 3797.88 H I 1 KAB 6.00 4.49 8.38 6.25 ME67 13.00 15.94 16.95 20.91 l AL 7.80 4.49 10.89 6.25 7 ME67 15.60 15.94 20.34 20.91 1 1 ME 67 4. 10 4.49 5.84 6.25 _I 8-ME67 14.60 15.94 19j_Q4 20^91 l 2 ME67 5. 10 4.49 7.26 6.25 1 9 ME67 14.50 15.94 18.91 20.91 1 4 ME67 4.40 4.49 6.07 6.25 1 10 ME67 15.00 15.94 19. 15 20.91 6 ME67 ■ LQ- 4.49 4.27 4.69 6.25 6.25 0 KAB 0.02 0.02 0.03 0.03 l 7 ME67 3.40 4.49 3983.72 Ill KAB 0.07 0.07 0. 10 0.10 1 8 ME 6 7 3.60 4.49 4.96 6.25 3985.87 III KAB 0.07 0.07 0. 10 0.10 1 10 ME67. 2.90.- .49 3.90 6.25 --3333. -&.A& ■ Q.Q6 0.06 0.09 Q.-Q9- 3805.73 KAB 0. JO 0.10 0.14 .14 4009.27 HE I KAB 0.28 0.28 0.36 0.36 3806 KAB 0.08 0.08 0.11 0.11 4026.19 HE I KAB 2.62 1.84 3.39 2.39 3819.64 HE I KA.B. 1.88 . 2.60 2.60 Al 2.70 L..84 3..50 2.39 3829.80 NE II l KAB 0.05 0.05 0.07 0.07 1 B MA57 3. 10X 4. 01X 3831.79 S III 1 KAB 0.08 0.08 0. 11 0.11 1 E MA57 2.30X 2.98X 3833.58 HE I 2 KAB 0.13 0.18 1 1 ME 67 1.80 2.37 3833.58 HE II 2 KAB 0.13 0. 18 1 2 ME67 1.70 1.84 2.23 2.39 3835.36 H I 1 KAB 7.63 10.51 1 3 ME67 1.40 1.84 1.93 2.39 -AL- 1 0.90 15.0? 1 4 ME67 1.60 1.64 2.05 2.39 1 l ME 67 6. 30 6.26 8.84 8.68 ME6 7 1.50 1.92 2.39 1 2 ME67 6.60 6.26 9.26 8.68 ME67 1.60 1.84 2.05 2.39 _J 3 ME67- 5.00 6.26 -46 8.68 ME67 1.90 1.84 2.39 4 ME67 5. 30 6.26 7.21 8.68 l 10 ME67 1.60 1.84 2.01 2.39 l 6 ME67 5.90 6.26 8.03 8.68 4068.69 (S II) 1 KAB 1.49 2.09 1.90 2.67 1 7 ME67 5,70 6.26 7.76 8.68 1 AL 2. 70 2.09 3.45 2.67 1 8 ME67 5. 90 6.26 8.03 8.68 4069.76 O II 2 KAB 0. 11 0. 14 1 10 ME67 5. 50 6.26 7.30 8.68 4069.76 O II 2 KAB 0.11 0.14 _1 I EC 6.26 8.68 4072 CS II ) 1 1 ME 67 2.20 1*76 2.84 2.26 1 2 PC 5.62 6.26 9.03 8.68 2 ME67 1.40 1.76 1.81 2.26 l 3 PC 6. 17 6.26 8.29 8.68 1 4 ME67 1.90 1.76 2.40 2.26 _L L_SJ_ 5.82 .26 8.02 8.68 1 6 MF67 -1-. 70 1.76 ?-. 1 5 1 2 SI 5.85 6.26 8.06 8.68 1 7 ME67 1.90 1.76 2.40 2.26 1 3 SI 6.08 6.26 8. 38 8.68 1 1 PC 1.23 1.76 1.50 2.26 _1 4 SI 6. 08 . 6. ?6 -8.38 8.68 1 2 EC -L.JD 1.76 ? . 44 2^26 1 5 SI 6. 40 6.26 8.82 8.68 PC 2. 1.76 2.55 2.26 3837.79 S III l KAB 0. 10 0.10 0. 14 0.14 4072.11 0 KAB 0. 12 0.12 0. 15 0.15 .3838.35 N LI_ _2 KAB .._a..i3_ . 0. 18 4075.82 Q_ KAB Q.Ü Q.Q . Q*-Q 0.0 3838.35 S III 2 KAB 0.13 0. 18 4076.44 (S II KAB 0.69 0.69 0.88 0.88 3853.88 SI II 1 KAB 0.02 0.02 0.03 0.03 4077 KAB 0.03 0.03 0.04 0.04 .3856.14 SI.II J KAR 0.34- 0.34 - 0. 46 0.46 4087.12 0 II KAB 0-01 0.01 0.02 0-0? 3862.70 SI II l KAB 0. 19 0.19 0.26 0.26 4089.21 0 I I KAB 0.03 0.04 3867.73 HE I 1 KAB 0.0 0.0 0.0 0.0 4097.27 N I II KAB 0.06 0.08 .3868 INE Till J AJL_ 1 q.70 . 8.94 -26.82 -12.29 4097.27 n I 1 KAB 1 C GZ55 8.00 8.94 10.89 12.29 4097.27 Q II KAB 0.06 0.08 1 F GZ 55 4. 00 8.94 5.45 12.29 4099 KAB 0.05 0. 05 0.06 0.06 _1 lei GZ55_ 4.00 8.94 --5.45 1 ?.?Q 4101.64 id I KAB ?1 -33 26.-95 l. 1 ME 67 15.50 8.94 21.48 12.29 AL 25.00 21.33 31.56 26.95 l 2 ME67 7.50 8.94 10.39 12.29 C GZ55 19.00 21.33 23.99 26.95 _J 3.-ME 6-7- 8.94 - -1 0.8R 12.29 -G-Z-5-5— 1 a , nn 21.33 26.-95 1 4 ME67 6.40 8.94 8.61 12.29 1 W GZ55 17.00 21.46 1 6 ME67 4. 10 8.94 5.52 12.29 1 B MA57 34.60X 43.69 X _1 7 ME67 11.60- 8.94 15.60 12.29 -J F MA57 36.90X 46.59 X 1 8 ME67 .70 8.94 11.70 12.29 1 ME 67 20.90 21.33 26.75 26.95 1 9 ME67 6.00 8.94 8.07 12.29 2 ME67 22. 40 21.33 28.66 26.95 1 10 ME67 10.50 8.94 13. 79 12.29 3 ME67 17.20 21.33 23.02 26.95 1 1 PC 13.20 8.94 16.93 12.29 4 ME 6 7 18.90 21.33 23.65 26.95 1 2 PC 12.60 8.94 19.89 12.29 5 ME67 23.90 21.33 31.14 26.95 1 3 PC 3.88 _8j.94 5. 16 12.29 6.ME67 19.90 2U33 24^9D 26.95 3871.76 HE I KAB 0. 16 0. 16 0.22 0.22 1 7 ME 6 7 20. 20 21.33 25.28 26.95 3882.49 O II I KAB 0.0 0.0 0.0 0.0 1 8 ME67 20.40 21.33 25.53 26.95 3888.92 H I _2 KAB 18.1,0 24.46 1 9 ME 6 7 2.Q.6Q 2 AL 18. 10 24.46 1 10 ME67 20. 30 21.33 24.95 26.95 C GZ 55 8.00 10.81 1 1 PC 22.90 21.33 27.65 26.95 _2 E GZ55 7,QQ 1 2 EC- 22.40 2L.33 - 3 i «-6.4 - 26.95 2 W GZ 55 7.00 9.46 PC 22.90 21.33 28.40 26.95 2 B MA57 22.30 X 30.14X PC 20.80 21.33 24. 12 26.95 _2 E MA57 ¿3.50 31.76 1 SI 22.30 21.33 .28^16 26.95. 1 ME 67 10.90 10.23 14.99 13.85 SI 22.40 21.33 28.28 26.95 1 2 ME67 10.20 10.23 14.03 13.85 SI 22. 50 21.33 28.41 26.95 _J 3.-MC6 7- 9.00 10.23 13. 12 13.85 _1 4 SI 1 4 ME67 9.30 10.23 12.42 13.85 SI 23.60 21.33 29.80 26.95 1 6 ME67 10. 10 10.23 13.49 13.85 SI 23.90 21.33 30. 18 26.95 7 MF67- 10.23 I 5. ?3 13.85 4104.96 Q U_ KAB 0.0 1 8 ME67 11.50 10.23 15.36 13.85 4104. II KAB 0.0 0.0 0.0 0.0 1 9 ME67 9.40 10.23 12.56 13.85 4110. II KAB 0.05 0.05 0.06 0.06 1 10 ME67 IQ. 30 10-23 13.45 13.85 4L19.24 Q_ II KAB O.Ofe 3888.92 HE I 2 KAB 18.10 24.45 4120. KAB 0. 30 0.3 0 0.38 0.38 2 AL 18. 10 24.45 4131 KAB 0.05 0.05 0.06 0.06 _2 C GZ55 ßtOQ 10*81 4132. KAB 0.06 0.06 0.07 0.07 2 E GZ55 7.00 9.46 4143. 69 HE KAB 0.45 0.45 0.56 0.56 2 W GZ55 7.00 9.46 4153. 27 0 KAB 0.08 0.08 0. 10 0.10 -2 B MA5 7 . ¿2.30X- 30.13X 4156. 34 0 KAB 0. 13 0.13 0. 16 E MA57 23.50X 31.75X 4169. 09 HE KAB 0.07 0.07 0.09 0.09 3918.94 C KAB 0. 13 0.13 0.17 0.17 4185. 46 0 KAB 0.01 0.01 0. 02 0.02 ...3.9.20.66. C KAfi 0.26 0.85 ^189.71 Q Li_ KÄß 0.03 Q.-Q3 0. 04 0.04 3926.53 HE I KAB 0.22 0.22 0.29 0.29 4244. 09 (FE III ) KAB 0. 05 0.06 3928.53 S III KAB 0.06 0.06 0.08 0.08 4253, 73 0 I I KAR 0.06 0.07 3964.80 HF I . KAB. 1-35 .-35 1-78 1-78 4253. 23 CL U_ -KA-B-. 3967.47 (NE III ) 1 KAB 24.40 32. 18 4253. III KAB 0.06 0.07 AL 24.40 32.18 4267, II KAB 0.35 0.27 0.42 0.32 1-15, DEM, CUJ9.* n. 3A (L-2 7 -3.32- 2 C GZ55 13.00 17. 15 1 1 PC 0.26 0.27 0. 30 0.32 2 E GZ55 10.00 13. 19 l 2 PC 0.23 0.27 0.30 0.32 -2 W GZ5S- —13^-19 -L. 3 EC- . Qj-13 Q. 2 7 Q«-15 Q« 32 3969.97 H I 1 24.40 32.16 4276.95 (FE II ) KAB 0.03 0.03 0. 04 0.04 2 AL 24.40 32.16 4284.96 S III KAB 0.03 0.03 0.04 0.04 J—L5 DEM. 1.QQ*_ 1.32* 4287.53 (FE II ) KAR 0. 11 2 C GZ55 13.00 17. 13 4303.77 O II KAB 0.03 0.03 0.04 0.04 2 E GZ55 10.00 13. 18 4305.78 (FE II ) KAB 0.0 0.0 0.0 0.0 NGC 1976 (209.0 -19.4) 637 © American Astronomical Society • Provided by the NASA Astrophysics Data System 97 6ApJS ... 31. TABLE 8—Continued NGC 1976 (209.Q -19.4) NGC 1976 Í2Q3.Q W AVE I0ENT N RG REF OBS I AVE 0 CQRR I AVE C WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 4317. _D LL_ _1 NAB- 0.06 0. 06 Q. 07 0.07 4471.43 HE I 1 10 ME67 3.40 3.86 3.79 *38 4319. 56 (FE II ) KAB 0.03 0.04 1 OP 4. 10 3.86 4.63 4.38 4319. 56 0 II KAB 0.03 0.04 1 1 PC 4.62 3.86 5.10 4.38 4326 KAB 0.06 Q.Q7 1 2 PC 4.27 3.86 5.11 _ 4332, 57 S III KAB 0.03. 0.03 0.04 0.04 PC 3.23 3.86 3.61 4.38 4340. 27 H I KAB 41.00 40.17 48.08 47.12 4590.89 KAB 0.04 0.04 0.04 0.04 41.00 40.17 4a.QB_ 47.12 4607.06 KAB 0.06 0.06 1 A BO 40.80 40.17 47.84 47.12 4607.06 (FE III) KAB 0.06 0.06 1 B BO 41.70 40.17 48.90 47.12 4621.41 N II KAB 0.03 O. _J C -BO 38.90 40.17 45.62- 47.12 4621.41 1C l L KAB P. i o ao 43.60 40.17 51. 13 47.12 4630.60 N II KAB 0. 0.09 0.09 0.10 1 F BO 40.30 40.17 47.26 47.12 AW70 0. 10 0.09 0.11 0.10 _J F -BO 39.80 40.17 46.67- 47.12 4634.01 N III KAB 0.04 0.04 0.04 _<1*04 1 G BO 40.70 40. 1 7 47.73 47.12 4638.81 0 11 KAB 0.08 0.08 0.09 0.09 l H BO 45.70 40.17 53. 59 47.12 4640.73 N III KAB 0.08 0.08 0.09 0.09 _1 C -G255 41..QÛ- 40.17 46. Q8 47.12 AW7 0 0.23 0.25 1 E GZ 5 5 34.00 40. 17 39. 87 47.12 1 KAB 0.15 0. 16 i W GZ55 35.00 40*. 17 41.04 47.12 2 A W70 0.23 0.25 _2 JQ6Q 43.. Qd. 50.42 4649 _2 AW7Q- .26 SLl. 1 B MA57 57.50X bl.WX 4649.15 l KAB 0.25 0.27 0.27 1 E MA57 58.50X 68.60X AW70 0.26 0.28 1 PE MA62 35.90 4Q« 17 42. IQ 47.12 4650.85 0 LL_ _] KAB Q .08 Q. 08 Q.,oa Q.Q9 1 1 ME 67 40.80 40.17 8.28 47.12 4658.18 (FE III) KAB 0. 82 1.08 0.87 1.15 1 2 ME67 41.50 40.17 49.11 47.12 AL 1.20 1.08 1.28 1.15 _J 3 ^E67 32.ítQ- —40*. 17 —39.78. 47.12 AW7Q 1.22 -08 .30 1.15 1 4 ME67 40.10 40.17 46.74 47.12 0 II KAB 0.08 0.07 0.09 0.07 1 5 ME67 41. 10 40.17 49.24 47.12 A W70 0.05 0.07 0.06 0.07 _1 o ME67 36..LQ- 4.0.17 -42. 07. - 47.1? 4676.11 _D LI_ KAB Q. 06 0-06 0.06 1 7 ME67 36. 10 40.17 42.07 47.12 1 AW70 0.05 0.06 0.05 l 8 ME 67 36. 80 40.17 42. 89 47.12 4677 0 KAB 0.0 0.0 0.0 _J 9 -ME67 36.80. 40.17 42.89 47*12 4699.12 2 KAB 0.04 0.04 1 10 ME 67 36.90 40.17 42.48 47.12 4699.12 Q II KAB 0.G4 0.04 42. 50 40.17 49. 84 47.12 4701.69 ( FE III) KAB 0.24 0.32 0.25 0.34 33.90 40.17 38.55 47.12 AW70 Q*_40 0.32 Q. 42 Q. 34 I 2 PC 41. 70 40.17 52.79 47.12 4705.54 0 II KAB 0.04 0.04 0.04 0.04 1 3 PC 44. 70 40.17 51. 78 47.12 4711.48 (AR IV ) KAB 0. 17 0.64 0. 18 0.67 1 4 &£_ 41.70 AW 7Q_ 1.11 _ 0.6-4- 1.16 —0.67_ 1 SI 42.60 40.17 49.95 47.12 4713.19 HF I KAB 1.05 0.52 1.10 0.55 l 2 SI 43.30 40.17 50.77 47.12 AL 1.10 1. 15 _J 3 SI AW 70 0*0 -0.52.- Q. 0 n-95 SI 43. 90 40. 17 51.48 47.12 4712 (AR IV ) AL i.10 1.15 5 SI 44. 50 40. 17 52. 18 47.12 4733.93 (FE III) KAB 0.09 0.12 0.09 0.12 6-SI 47. IQ 40. 17 55.23 47.12 A W70 -0.12- 0.16 0.12- 4342 KAB 0. 04 0.04 0.05 0.05 4740.28 (AR IV ) l KAB 0. 17 0.11 0. 18 0.12 4345. 49 0 KAB 0.11 0.11 0.13 0.13 1 AW 70 0.06 0.11 0.06 0.12 434A . 75 (Fc -KAB 4754.87 (FF TTT ) 1 KAB 0^11— 0.19 0.11 0.20 4347 II KAB 0.03 0.03 0.04 0.04 AW70 0.27 0.19 0.28 0.20 4349 II KAB 0.08 0.08 0.09 0.09 4769.61 (FF III) KAB 0.07 0.08 0.07 0.08 435 1.3? 0 L_L_ —KAB AW 70 O-Ofl O.Qfl 0.09 a.08- 4359. 45 (FF II ) KAB 0.09 0.09 0. 10 0.10 4774.4? (FE II ) KAB 0.0 0.0 0.0 0.0 4363, 18 (P III) KAB 1.65 1.15 1.92 1.35 4777.88 ( FE III) KAB 0.05 0.05 0.05 0.05 —AJ . 1..1 5 1 .35 4814.69- (FF II ) KAR 0.09. 0.10 1 8D0 1.00* 1. 16* AW70 0.09 0.09 2 BDO 1.00* 1. 16* 4815 (FE III) WYSE 0.80 A 0.81 A 3 RPC l.QQ* I. 16« 4 fl 1 5 (FF II ) WYSF- O.flO A 0.B1 A BDO 1.00* 1. 16* 4848 WYSE 0.50 A 0.50 BDO 1.00* 1. 16* 4861.24 KAB 100.00 100.00 100.00 100.00 6 BDO 1.00* l. 16* AL 100.00 100.00 100.00 100.00 7 BDO 1.00* 1. 16* A BO 100.00 100.00 100.00 100.00 8 BDO 1.00* 1. 16* B BO 100.00 100.00 100.00 100.00 9 BDO l.oo* 1. 16* C. BO 100.00 100.00 100.00 100.00 BDO 1.00* 1. 16* D BO 100.00 100.00 100.00 100.00 BDO 1.00* 1. 16* E BO 100.00 100.00 100.00 100.00 1 12 .800 I. PD* 1. 16* F BO 100.00 100.00 IQQtQO 100.00 1 13 BDO 1.00* 1. 16* 100.00 100.00 100.00 100.00 2 JÛ6 0 43.00 50.08 1 H BO 100.00 100.00 100.00 100.00 1 28 MA57 1 » 0.0* 1.16« _1 F DMA— 100.00 100.00 100.00 100.00 1 2E MA57 1.00* 1. 16* 1 47 D02 100.00 100.00 100.00 100.00 1 1 PC 1. 10 1.15 1. 24 1.35 1 GEB 100.00 100.00 100.00 100.00 _L2 1,17 U15 1.47 1.35 1 GEK 100.00 100.00 100.00 PC 0.49 1.15 0. 56 1.35 1 GRA 100.00 1 00.00 100.00 100.00 1 SI 1.15 1.15 1. 33 1.35 1 C GZ55 100.00 ICO.00 100.00 100.00 2 SI 1.29 .1».3.5 1 E GZ 55 100.00 100.00 100.00 100.00 3 SI 0.98 1.15 1. 14 1.35 1 W GZ55 100.00 100.00 100.00 100.00 4366. KAB 0.06 0.06 0.07 0.07 1 GZ 56 100.00 100.00 100.00 100.00 4368 -KAB- Q.Q9 0-09 n. io o.in 1 1 J53 100.QQX 100.QQX 4387.93 HE I KAB 0.82 0.95 2 J53 100.OOX 100.OOX AL 0.60 A 0.69 A 3 J53 100.OOX 100.OOX —KAB— 0.C3 0.03 0.03 _ 0.03 _J 4 J53 100.QQX 100.QQX 4413. 91 (FE II KAB 0.08 0. 08 0.09 0.09 1 J06 0 100.00 100.00 4414. 98 C I I KAB 0.06 0.06 0.07 0.07 1 B MA 5 7 100.OOX 100.OOX 4416. ?9 ( FF II ._K AB 0- 06 __Q*. 1 E MA 5 7 100.OOX 100.OOX 4416. KAB 0.05 0.05 0.06 0.06 l PE MA62 100.00 100.00 100.00 100.00 4437. KAB 0. LO 0.10 0.11 0.11 1 PG MA62 100.00 LOO.00 100.00 100.00 4.446. -N L_L_ K AF n.n . ÍL.0 O.n 1 1 ME 67 100.00 100.00 100.00 100.00 4452 30 0 II KAB 0.06 0.07 l 2 ME67 100.00 100.00 100.00 100.00 4452, 30 (FE II ) KAB 0.06 0. 07 l 3 ME67 100.00 100.00 100.00 100.00 4458. 12 (FE II ) -KAB Q.Q5 . Q* 05 0-06 Q .06 1 4 ME67 100.00 LQQtOQ _ IQQtfl.Q 100.00 4471.43 HF I 6.04 3.86 5.69 4.38 5 ME67 100.00 100.00 100.00 100.00 4.60 3.86 5.20 4.38 ME67 100.00 100.00 100.00 100.00 5.00 3- Rft 5-6S 4.3B MF 6 7 IOQ.QQ 100.00 1 on-on IQQ.QQ— B MA57 7. 65X 8.64X 1 8 ME67 100.00 100.00 100.00 100.00 E MA5 7 7.35X 8.30X 1 9 ME67 100.00 100.00 100.00 100.00 1 MF *7 1 IQ MF67 100.00 .. 100.00 100.00 1QQ.QQ- L 2 ME67 3.60 3. 86 4.09 4.38 100.00 100.00 100.00 100.00 1 3 ME67 3.50 3.86 4.08 4.38 l l PC 100.00 1 00.00 100.00 100.00 _J 4_ME6 7 3.8Q 3.86 4*38 1 ? PC 1QQ-.QQ- 100.00 100.00 l.QQ. 00 5 ME67 3. 50 3.86 4.02 4.38 3 PC 100.00 100.00 100.00 100.00 6 ME67 3.20 3.86 3.60 4.38 4 PC 100.00 100.00 100.00 100.00 7 ME67 3.2Q -JL.86 3.60 4.38 .1 R 1 inn.nn LQQ.QQ- 10Q*HQ inn.nn ME 6 7 3. 80 3. 86 4.27 4.38 100.00 100.00 100.00 100.00 ME67 3.30 3.86 3.71 4.38 100.00 100.00 100.00 100.00 638 © American Astronomical Society • Provided by the NASA Astrophysics Data System TABLE 8—Continued 197 6ApJS. . .31. NGC 1976 (209.0 -19,41 NGC 1976 (209.0 -19.41 WAVE IDENT N RG REF OBS I AVE O CORR I AVE C WAVE IDENT N RG REF OBS I AVE O CORR I AVE C 4861.24 H I 1 4R 1 100.00 100.00 100.00 100.00 . 5QQ7,QQ .(Q LULL J 8Z_ME¿Z 289.50 251,60 279,13 242,09 5R 1 100.00 100.00 100.00 100.00 ME67 291.40 251.60 280.96 242.09 6R 1 100.00 100.00 100.00 100.00 1 9 ME67 246.30 251.60 237.48 242.09 7 R _L_ 100-00 1110,00— 100.00 100,00 100.00 1 IQ ME67 290.50 ¿51,60. 280.92 242.09 1 8 R 1 100.00 100.00 100.00 1 OP 326.00 251.60 313.87 242.09 1 9R l 100.00 100.00 100.00 100.00 1 1 PC 399.00 251.60 386.96 242.09 1 1K RE 100.OOX 100.OOX 1 ¿ E£_ 324. QQ 251.60 3(16,31 242.Q9 1 SI ICO. 00 100.00 100.00 100.00 1 3 PC 132.00 251.60 127.46 242.09 2 SI 100.00 100.00 100.00 100.00 1 4 PC 16.20 251.60 15.81 242.09 IQP.Qfl- 100.00 100.00 1QQU2Q -j 1 R 1 290. 00 251.60 279.?1 242.09 1 4 JU- SI 100.00 100.00 100.00 100.00 1 250.00 251.60 240.70 242.09 1 5 SI 100.00 100.00 100.00 100.00 3 R 1 240.00 251.60 231.07 242.09 1 6 SI 100.00 100.00 100.00 100.00 4R 1 260.QQ 251.60 250.32 242.09 WYSE 100.00 A 100.00 A 1 5 R 1 120.00 251.60 115.53 242.09 4864 KAB 0.08 0.08 0.08 0.08 l 6R 1 143.00 251.60 137.68 242.09 4881,14 (FE TU) _KAB_ -Q.41- ÍL_21 _J 7 R-l .156.QQ 251.60 15-0,19 242.09 AW70 0.52 0.52 1 170.00 251.60 163.67 242.09 WYSE 0.70 A 0.70 A l 9 R l 290.00 251.60 279.21 242.09 4882 (FE III) WYSE Q, 70, A. 0.70 A 1 1K RE -439.QQX 422.66X- 4896 WYSE 0.40 A 0.40 A 1 1 SI 328.50 251.60 316.27 242.09 4921.97 HE I KA8 1.36 1.55 1.34 1.53 1 2 SI 304.60 251.60 293.26 242.09 AL- 1,50— 1,55. 1.48 1.53 _J 3 SI 273.70 251.6Q 263.51 242.Q9 AW70 1.80 1.55 1.77 1.53 WYSE 430.00 414.00 A WYSE 3.00 A 2.95 A 5007 (O II ) J 53 94.OOX 90.49X 4924 (.FE nn WYSE Q.O A— 0.0 Q.Q A— -OUi 5016,00 H£_J -KAfi. ,-24 —2.24_ 2.15 2 «_L5 4931.05 (O III) KAB 0.09 0.09 MORG 2.00 1.92 A AW70 O. 12 O. 12 WYSE 3.00 A 2.88 A WYSE 0.50 A 0.49 A -J012 (FE- III) WYSE 0.60 A 0.57 A 4931.05 (FE III) 2 KAB 0.09 0.09 5041.90 SI II MORG 0.0 A 0.17 0.0 A 0.16 3 WYSE 0.50 A 0.49 A AW 70 0.17 0. 17 0.16 0.16 (FF TU) 3 WVJSE 0.5a A 0.49 A WYSE 0.60 A 0-57 A 4958.90 (O III) KAB 113.00 85.60 110.18 83.42 5047.30 HF I MORG 0.40 A 0.38 A MORG 0.0 85.60 0.0 83.42 AW 70 0.32 0.26 0.30 0.25 _Ai— 113.nn RS.Afl 11n.i » A3.4? _GRA -Q.2a Q.26 D.-19 Q «25 1 1 J53 184.OOX 179.40X WYSE 0.70 A 0.67 A 1 2 J 53 59.OOX 57.53X 5056.40 SI II MORG 0.40 A 0.38 A -J 3 .153- 34.QQX 33-. 1 5X AW70 0-35 0- 33 1 J060 107.00 104.33 GRA 0.20 0.19 1 2B MA57 66.50* 64.84* 5056 (FE III) WYSE 0.80 A 0.76 A 1 -2F MA57- 56.not 54.60* _505.6 SI II WYSE -0.80 A 0.76 A 1 l ME 67 117.10 85.60 114.01 83.42 5112 1 WYSF 0.60 A 0.56 1 2 ME67 103.70 85.60 100.96 83.42 5119 (N I ) 1 1 PC 0. 34 0.39 0.32 0.36 -J 3 MF67 1Q5. 60— ..-107-..3) -1 2 BC 0.2-6 0-39 0.24 O T 36 1 4 ME67 76. 80 85.60 74.95 83.42 PC 0.56 0.53 0.36 i 5 ME67 46. 10 85.60 44.80 83.42 5146 WYSE 0.60 0.55 -J 6 MF67 49.90- 48.70 -5158 (FF VIT 1 AU70 . 34 0.13 1 7 ME67 97.90 85.60 95.55 83.42 1 GRA 0.20 0.17 0. 18 0.16 1 8 ME67 89.10 85.60 86.96 83.42 5145 FF VI l AW70 0.06 0.06 0.06 0.06 1 9 ME67 80.5a. 85.60 78.57 -83.-42 -51 59 (FF IL.) J WYSF 0.70 A 0.64 1 10 ME67 97. 00 85.60 94.85 83.42 5191.40 (AR III) 1 MORG 0. 20 0. 18 1 1 PC 117.00 85.60 114.63 83.42 AW7 0 0. 13 0. il 0.15 _1 2 ££ 102.00 85.60 - 98^.25 GRA 0- 20 0.18 0.15 ' PC 43.70 85.60 42.69 83.42 5192 WYSE 0.70 0.64 1 R l 104.00 85.60 101.40 83.42 5198.30 (N I ) MORG 0.60 0. 55 -2- 80.00- 8-5.60 - —7a.00 83.42 AW7Q Q « 46 _Q,53 - Q..42 3 1 80.00 85.60 78.00 83.42 GRA 0.60 0.55 4 l 80. 00 85.60 78.00 83.42 WYSE 0.90 0. 82 5R 1 40. 00 85.60 39.00 83.42 5200.60 (N I ) MORG 0.40 0.36 6R 1 48.00 85.60 46.80 83.42 5212 WYSE 0.60 0. 54 7 R 1 52.00 85.60 50.70 83.42 5221 WYSE 0.60 0. 54 _i a_fi__L- 50. QQ 85.60 . 48.75 83.42 S 2 3.6 WYSE Q.60-. (U-54 104.00 85.60 101.40 83.42 5243 WYSE 0.60 A 0.54 A 1 SI 108.10 85.60 105.40 83.42 5262 (FE II ) WYSE 0.60 A 0. 54 A 2 SI LOI, 20— as.6Q - 98j-6.I. _83.42 5262 MDRG 0.40 A 0.36 A l 3 SI 90. 10 87.85 5270.80 FE III 1 MORG 1. 20 1.07 l WYSE 120.00 A 117.00 A AW70 0.62 0.61 0.55 0.55 _4959.. _LQ II ) _1 4 J53- . 35.OOX 34.12X GRA 0.60 0.61 0.54 4986 (FE III) WYSE 0.70 A 0.68 A WYSF 1.00 A 0.89 4991 (0 ITT) 1 C GZ55 378.00 309.33 365.51 299.11 5271 (FE II WYSF 1.00 A 0. 89 1 E GZ55 240.00 309.33 232.07 299.11 5299 AW7Q 0.06 0.Q6 Q.Q5 l W GZ55 310.00 299.76 5302 MORG 0.60 A 0.53 A 4994 N II 1 WYSE .0.60 A 0.58 A 5321.80 (CL TV ) MORG 0.0 A 0.0 A 5007.00 (Q III ) J. KAB- 251.6Q - 329.27 242.Q9 5487 MORG 0.34 1 MORG 0.0 A 251.60 0.0 A 242.09 5513.00 C I MORG 0.40 A 0.34 A 1 AL 342.00 251.60 329.27 242.09 GRA 0. 10 0.08 -1 1 BDQ 2.7.1,00*- -26Q.-91* 5518.4Q (CL III) MQ£G 1Q.QQ A 8.40 A 1 2 BDO 264.00* 254.18* AW70 0.84 0.77 0.71 0.65 1 3 BDO 116.00* 111.68* GRA 0. 70 0.77 0. 59 0.65 -I 4 BDO 269.00* 258.99* WY-S-E 1.50 A 1-26 A l 5 BDO 221.00* 212.78* 5538.20 (CL III) l MORG 10.00 A 8. 35 1 6 BDO 147.00* 141.53* 1 AW70 1.13 1.06 0.94 0.89 1 7 BDO 134.QQ* 129.01* 1 GRA 1.00 1.06 0.84 0.89 1 8 BDO 78.00* 75.10* WYSE 2.00 1.67 1 9 BDO 298.00* 286.91* 5555.50 O I MORG 0. 0 0.10 0.0 0.08 1 10 BDO 247.QQ* 237. 81 ♦ -GRA— Q. 10 JL. 1Q Q.Q8 Q.QB 1 11 BDO 245.00* 235.88* 5557 A W 70 0.05 0.04 1 12 BDO 201.00* 193.52* WYSE 0. 70 0.58 A 1 13 BDQ 13Q.QQ* 125. 16* -5571.60 LQ ! L MORG 15.00 12.40 A 1 F DMA 55. 90 251.60 53.82 242.09 GRA 0. 50 20.25 0. 41 16.74 1 47 D02 316.00 251.60 304.24 242.09 GZ56 40.00 20.25 33.07 16.74 A OEK. 303.00 . 2 5.1., 6 Q . -291 .-72 242.09 WYSE 1.50 1.24 A 1 J 53 470.OOX 452.51X 5604 K VI AW 70 0.03 0.03 2 J 53 148.OOX 142.49X 5616 WYSE 0.70 A 0. 57 J 5 3-- 85.Q0X 81.84X 5666 N II A W 70 0.06 Q.Q6 Q. Q5 Q.Q5-. 1 J060 333.00 320.61 5674 N II 1 AW 7 0 0.06 0. 05 1 2B MA57 198.00* 190.63* 5678.00 N II 1 MORG 0.40 A 0. 32 1 MF67 36Q.QQ- 345.84 _1 WYSE Q.7Q A 0.57 A 1 2 ME 6 7 32 4.30 251.60 311.55 242.09 5679 N II GRA 0. 20 0. 16 1 3 ME67 329.00 251.60 313.77 242.09 5692 WYSE 0.70 0.56 -J 4 MF6.L 148.50 251.60 .. 143^18 247.09 5739 MORG 0.60 0.48 A_ 5 ME67 148.50 251.60 142.25 242.09 5740 SI III AW70 0.06 0. 05 6 ME67 159.80 251.60 154.08 242.09 5754.00 (N II) MORG 15.00 11.92 (209.0 -19.4» 639 © American Astronomical Society • Provided by the NASA Astrophysics Data System TABLE 8—Continued NC,C 1976 (209.0 . NGC 1976 (209.Q -19.4) WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N PG REF OBS I AVE 0 CORR I AVE C 19,7 6Ap JS 5754.00 (N II ) 1 A W7 0 1.60 1.12 1.27 0.89 6548. 60 IN II ) 1 1 PC 38.90 23.33 .27.03 16.04— F DMA 1.75 1.12 1.39 0.89 SI 23,50 23.33 15.85 16.04 GRA 2.00 1.12 1.59 0.89 2 SI 18.80 23.33 12.68 16.04 1 PC 0.91 _L*JL2_ 0.76 _Q.89_ 3 SI 22.60 23.33 15.25 16.04... 2 PC 0.98 1.12 0.70 0.89 WYSE 40.00 A 26.99 A 3 PC 1.02 1.12 0.82 0.89 6563.00 MORG 0.0 A 378.98 0.0 A 254.63 4 PC 0.69 1.12 0.59 0.89 AL 350.00 378.98 -235.5-0- 254.63 1 SI 1.02 1.12 0.81 0.89 11 BA 1.00* 0.67* 2 SI 0.47 1.12 0.38 0.89 A BO 398.00 378.98 267.80 254.63 2 WYSE SI- 0.7.1- 1.12 0.57 -Q.B9 . B BO 402. 00 378.98 270.49 254.63- 4.00 A 3.18 A C BO 407.00 378.98 273.85 254.63 5759 MORG 0.40 A 0.32 A D BO 320.00 378.98 215.31 254.63 5765 WYSE 0.90 A 0.71 A E BQ 403.QQ 378.98 271. 16 .254.63. 5 776 WYSE 0.80 A 0.63 A F BO 388.00 378.98 261.07 254.63 5847 WYSE 0.90 A 0.70 A G BO 342.00 378.98 230.12 254.63 5876.00 MORG AH X 0.0 A 20.00* .L5..-92 0.0 A 15.47* 12.22 322.. QQ 318 ■98._ 217.33 254.63 M CO 1.00* 0.67* AL 31.00 23.98 F DMA 345.00 232.14 1 J53 130.QQX 100.54X 1 DM! ■ QQ* 0-67» J53 19.00 X 14.69X 24 002 1.00* 0.67* B MA57 17.20X 13.30X FL 20.00* 13.46* E MA57 . 19.20X 14.85X GEB 398.QQ 378.98 267.80 754.63 PE MA 6 2 16. 20 15.92 12.53 12.22 A GEK 1.00* 0.67* PG MA62 20.60 15.92 15.93 12.22 GZ56 500.00 A 336.43 A 1 ME 67 12.00 15.92 9.14 12.22 1 J 53 132IL QQ* 888. 17X 2 ME67 11. 10 15.92 8.46 12.22 2 J 53 370.OOX 248.96X 3 ME67 17. 70 15.92 12.84 12.22 3 J53 500.OOX 336.43X ME 67 15.40 15.9-2 12j-Q.3— 12.22 4 J53 59Q.QQX _396.9BX— 5 ME67 10.40 15.92 7.77 12.22 J 060 333.00 224.06 6 ME 6 7 13. 10 15.92 10.23 12.22 PE MA62 403.00 378.98 271. 16 254.63 7 ME67 14.30 1 5.9? 11.17 12.77 1 ME 6 7 346.60 378.98 227.94 254.63 ME67 12.50 15.92 9.76 12.22 2 ME67 375.30 378.98 246.82 254.63 i ME67 15.40 15.92 12.03 12.22 3 ME67 464.40 378.98 283.00 254.63 _Q£ 19.9.Q 15.92 15. 39 12.77 4-M-E-67.. 421.20 287. 76 1 PC 16.60 15.92 13.49 12.22 5 ME67 394.20 251.46 2 PC 16.20 15.92 11.07 12.22 6 ME67 432.00 295.14 3 PC 12.30 15.-92 9.. 70 JL2.22 7 ME 67 401.30 .274. 16 WYSE 30.00 A 23.20 A 8 ME67 441.70 301.76 5885 WYSE 3.00 A 2.32 A 9 ME67 437.40 298.83 5894 WYSE 3» QQ A 2.31 A CLP 364.00 244.9? 5931 II l GRA 0.05 0.05 0.04 0.04 1.00* 0.67* 5941 II 1 GRA 0.08 0.08 0.06 0.06 407.00 295.53 254.63 5954 L_ WYS.E - 1.00 A -0.76 A 398. 254.6.3— 5958 C I GRA 0.30 0.23 PC 371.00 378.98 257.35 254.63 5958.00 SI I I MORG 0.40 0.30 A PC 417.00 378.98 324.29 254.63 GRA Q.-3Q- Q.?3 5958.00 0 I MORG 0.40 0.30 A 1 SI 338.00 378.98 261.07 254.63 5979.00 SI II MORG 0. 40 0. 30 A 2 SI 383.00 378.98 257.70 254.63 GRA 0.30 0.30 0- 73 3 SL 380.00 378.98 255.69- 254.63 WYSF 1.50 1. 13 A SI 328. 00 378.98 220.70 254.63 6003 WYSE 0.90 0.68 A SI 351.00 378.98 236.17 254.63 6035 WYSE 0.80 0.60 A 1.00» 0.67* MÜRG 0.70 A 0.52 A 1 WYSE 350.00 A 235.50 GRA 0. 30 0.22 6583.40 (N II 1 1 MORG 0.0 A 92.36 0. 0 63.59 6 049- WYSF.... 1.00 A 0.75 A _AJ 55.00 97.36 36.86 63.59 _ 6066 WYSE 1.00 0.74 A 11 BA 0.50* 0. 34* 6084 WYSE 0. 80 0.59 A M CO 0. 13* 0. 09* 6087 GRA 0.20 0.20 0. 15 F DMA 161.00 107.89 6097 WYSE 0.80 0.59 A 1 DMI 0.40* 0.27* 6118 WYSE 0.80 0.59 A 24 D02 0. 58* 0.39* 6136 WYSE t8Q 0.59 A GEK 0.20*A 0.13.» A 6 161 WYSE 0.80 A 0.58 A 1 J 53 1160. OOX 777. 38 X 6185 WYSE 0.90 A 0.65 A 2 J 53 250.OOX 167.54X _ _62.QQ WYSE Q. 80 A . &. 58 A 053 205.OOX 137.38X 6258 1 MORG 0.40 0.28 A J53 200.OOX 134.03X 6267 1 WYSE 1.00 0.71 A JQ60 333.00 223.16 6300.60 (01)1 MORG 10.00 7.06 A ME67 421.20 286.65 AHX 2.90* 2.05* 5 ME67 394.20 250.32 GRA 0. 80 1.20 0. 56 0.84 6 ME67 432.00 294.00 _i PC 1.29 1.20 .0,97 —Q.84_ 8 ME67 .4A1. 70 . 3QQ.6Q 1. 17 1.20 0. 70 0.84 437.40 297.67 1.55 1.20 1.12 0.84 0. 17* 0.11* -2.. 82 A . I PC- 58.90 -92.36 - 42.63... 63.59 6312.40 (S I 11 ) 1 MORG 15.CO 10.57 A 2 PC 74. 10 92.36 40.97 63.59 FL 0. 12* 0.08* 3 PC 115.00 92.36 79.48 63.59 _££ 2. 57 jl94 ££_ 174.00- —92.36_ 134.97 63.59_ PC 2.66 2.42 1. 58 l .07 1 SI 69.90 92.36 ' 46.84 63.59 PC 2.04 2.42 1.48 1.67 2 SI 55. 70 92.36 37.33 63.59 WYSE 5.00 3.5? A 3 SI 67.60 92.36 45.30 63.53, 6312 (SI III) l GRA 0. 90 0.63 0.35* 0.23* 6347.30 SI II l MORG 0.60 0.42 A WYSE 70.00 A 46.91 A J— WYSE 1.00 A Q, 70 A.. WYSE 1,00 A 0.67 A 6364.10 (O I ) 1 MORG 1.20 A 0.84 A 6638 WYSE 1.00 A 0.66 A 1 1 PC 0.38 0.51 0.28 0.37 6678 < 20 HE I MORG 15.00 A 9.89 A 1_ 3 ELC_ Q.65 0.51 Q.46 D.37 AHX 8. 00* 5 » 2 7 *_ WYSE 1.50 1.05 A F DMA 6.00 3.96 6371.50 MORG 0.40 0.28 A l J53 80.OOX 52.74X 6403 WYSE 1.00 0.69 A 1 PC 5.QL- 3.58 6501 WYSE 1.00 A 0.68 A PC 5.02 4.96 2.71 3.21 6548.60 II ) l MORG '0.0 A 23.33 0.0 A 16.04 PC 3.80 4.96 2. 59 3.21 L_ AL 18.00 23.33 12. 14 16.04 WYSE 12.QQ A 7.91 A 11 BA 0.17* 0. ll* 6716.70 ( S 11)1 MORG 10.00 A 6.55 A M CO 0. 07* 0.05* 1 AHX 5.20* 3.41* 2 J53._ IQQiQQX 67.47X_ L_ 5Q DA -1.94*- 1.27* 17.88 4 J53 71.OOX 47.90X F DMA 49.60 27.30 32.49 J 060 333.00 224.66 GRA 5.00 27.30 3.28 17.88 4 ME 6 7 42..U ?aa.5o J 53 224.QQX 146.74X 5 ME67 394.20 252.23 2 J 53 48.OOX 31.45X 6 ME67 432.00 295.90 3 J 53 43.OOX 28.17X 8 ME67 441.7Q 3Q2.54 4 J53 41.QQX 26.86X— 437.40 299.60 WYSE 6.00 A 3.93 A 18.20 13.24 ( S 11)1 AL 14.00 9.16 (209.0 -19.4) 640 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. TABLE 8—Continued NGC 1976 Í2Q9.Q -19.*) NGC 1976 (209.0 -19.4) WAVE IDENT N RG REF OBS I AVE O CORR I AVE C WAVE IDENT N RG REF OBS I CORR I -6723 __Í_S II ) 1 JQ6Q 15« 3Q 13.81 1Q.Q1 .09 8399 H I 1 MORG 2.00*A 1 » 04*A 1 1 ME 67 4.90 13.81 3.13 9.09 8375 T 1 MORG 3.00*A 1.56*A 1 2 ME 67 10. 10 13.81 6.45 9.09 8392 I 1 MORG 3.00*A l.56*A 0.80 13.81 0.47 . 9.09 L_ AHX 1.80* 1 .3.4 ME61- ME67 19.00 13.81 12.64 .09 MORG 2.00*A 0.93» i.04*A 1 6 ME67 21.60 13.81 14.37 9.09 AHX 1.86* 0.96* _11 87 ME67 ME67 21.60 13.81 14.37 9.09 8437 MORG 3«QQ*A _L«.55.*A 15.40 ► 13.81 10.24 9.09 8446.00 O I MORG 5.00*A 2. 58*A 1 9 ME 67 20.20 13.81 13.44 9.09 AHX 5.29* 2. 73* 1 1 PC 9.33 13.81 6.62 9.09 OF DA A .1.50* -0*71» 1 2 PC 8.70 13.81 4.64 9.09 ON DA A 4.30* 2.22* 1 3 PC 18.60 13.81 12.57 9.09 GRA 1.20 0.62 6731.10 (S II ) 1 MORG 10.00 A 6.54 A MORG 3.00*A 1.55*A 1 AHX 8.90* 5.82* AHX 2.18* 1. 12* 1 50 DA 1.00* 0.65* 8502 MORG 4.00*A 2.05*A 1 F DMA 41.40 27.06 AHX 2.74* 1.41» 1 GRA 9.00 5.88 8545 MORG 4.00*A 2•04*A 1 1 J53 300.OOX 196.07X AHX 2.86* 1.46* -J53.. 3 5 PO X _ 22.88X OF DA A 2.00» 1.02* 3 J53 37.t COX 24.18 X ON DA A 2.00* 1.02* 4 J53 35.OOX 22.88X (CL II ) 1 CF DAA 0.21* 0.11* WYSE 8.00 A 5.23 A L GRA 0.10 0.05 0.05 7001.00 O I MORG 0.70 A 0.44 A MORG 3.00*A 1.52*A GRA 0.30 0. 19 0.19 AHX 4.29* 2. 18* 7065.00 HE I MORG IQtQO A 6.20 A OF DAA 2.Q0* 1.02* 1 AHX 16.00* 9.92* CN DAA 2.00* 1.02* 1 AL 30.00 15.72 18.60 9.60 (FE II > 1 OF DAA 0. 12* 0.06* 1 1 ME 67 11.30 15.72 6.82 9.60 L GRA 0.07 0.04 3 ME67 11.90 15.72 6.55 9.60 8665 MORG 1.00*A 0.50*A 4 ME67 12.70 15.72 8.02 9.60 AHX 4.37* 2.21* 1 9 ME67 12.70 15.72 8.02 9.. 60 8750 AHX 6.00* 3.00* 7135.00 (AR III) MORG 0.0 A 0.0 A III) l AL 72.00 35.02 AHX 36.70* 22.52* 1 FL 3.40* 1.65* _AJ 3ÍL..Q0 -18.4J 1_ 1 ME 67 .49.50 -63.08 23. 10 30.20 1 1 ME 67 11.40 15.49 6. 80 9.40 2 ME 6 7 48. 10 63.08 22.44 30.20 1 2 MF67 16.00 15.49 9.55 9.40 3 ME67 74.20 63.08 30. 14 30.20 _1 3 ME67 16.80 15.00 15.49 15.49 9. 12 9.38 9.40 9.40 4 ME67 47.90 63.08 23.95 ■ 3.0.20 1 4 ME67 5 ME67 16. 50 63.08 7.28 30.20 1 5 ME67 6.60 15.49 3.79 9.40 6 ME67 58.80 63.08 29.40 30.20 _1 6 ME67 13.3Q 15.49 8.32 9.40 7 ME 67 97.40 63.08 -A8..71 30.20 1 7 ME67 17.80 15.49 11. 13 9.40 6 ME67 70. 60 63.08 35.30 30.20 1 8 ME67 12.30 15.49 7.69 9.40 9 ME67 95.20 63.08 47.61 30.20 _J 9 ME67 I 5. 70 15.49 9.8? 9.40 1 PC 69.10 63.08 38.61 30.20 7155.00 (FE II ) MORG 0.60 A 0.37 A 2 PC 64. 50 63.08 22. 18 30.20 GRA 0.90 0.55 0.55 3 PC 56.20 63.08 28.89 30.20 7231 .00 C T T MORG 0.40 A 0.24 A ÛJ— 5.80 5.69 2.J8 GRA 1.00 1.00 0.60 0.60 1 ME 67 4.70 5.69 2.16 2.68 7236.60 C II MORG 0. 0.42 70 2 ME 6 7 5. 00 5.69 2. 30 2.68 GRA 1. nn i .nn n, ¿»n o. ah 3 ME 67 6. 80 5.69 2. 71 2.68 7254.00' D I MORG 1.00 A 0.60 A ME67 4.50 5.69 2.22 2. GRA 1.00 1.00 0.60 ME67 6.20 5.69 3.06 2.68 7281.20 HE I MQRG 7 MF67 . 6* 70 -.5 „6 9 3.31 2.68 GRA 3. 00 3.00 1.80 1.80 ME 67 5.40 5.o9 2.66 2.68 7320.10 (O II ) MORG 0.0 0.0 0.0 0.0 9 ME67 5.50 5.69 2.71 2.68 AI 1 7. 30 10.33 J El 5.88 5.69 3.25 2.68 7319 (O II ) AL 17.30 10.33 l PC 5.88 5.69 1.98 2.68 7325 (N II ) h PC 4. 78 4.78 3.44 3.44 l PC 5. 88 5.69 2.98 2.68 7325 (O II ) 1 ME67 10.30 14.58 5.96 8.50 ( S I II ) 1 AL 181.00 180.20 84.63 83.01 2 ME67 14.90 14.58 8.63 8.50 1 FL 4. 80* 2.24* 3 ME 67 17.60 14.58 9.22 8.50 l 1 ME 6 7 125. 00 180.20 55.94 83.01 4 ME67 1.6. QQ.. 14.58 9.73 3.50 L_ Z . N.E-6-7.. 190.00 -Iß. Qt 2 Q -gJ>...Q.2 -, 83. Q1 1 6 ME67 15. 90 14.58 9.67 8.50 3 ME67 82.20 180.20 31.78 83.01 1 7 ME67 15.00 14.58 9.13 8.50 4 ME67 99.50 180.20 47.90 83.01 _J 8 ME6.7 17-90 1 4.58 7.85 8.50 5 ME67 78.00 180.20 3JU.92. 83.01. 1 9 ME 67 15. 70 14.58 9. 55 3.50 6 ME67 133.30 180.20 64. 18 83.01 1 1 PC 11.70 14.58 7.71 8.50 7 ME67 236.00 180.20 113.62 83.01 1 2 EC- 1.7.« 80-, 14.58 8.28 8.5Q .ME67 19Q.30 18Ct? Q 91.62 83.01 1 3 PC 12.60 14.58 7. 82 .50 9 ME67 251. 30 180.20 120.99 83.01 7330.70 (O II ) 1 MQRG 0.0 A 0. 0.0 A 0.0 1 PC 263.00 180.20 142.33 83.01 J. AHX 17.30* 10.31* 269.00 -18 0.2 0 -3J.±27.. .83,01 AL 17.30 10.31 1 _2 PC PC- 244.00 180.20 120.96 83.01 7330 (0 I I ) AL 17.30 10.31 9545 I 1 AL 8.00 8.00 3.74 3.74 7378 (» T I ) GRA 0.50 0.30 10049 -I L_ AL 10. OQ 12. 15 4.51 5.35 7378 MORG 0.60 0.35 1 ME 67 10. 10 12.15 4.35 5.35 7387.00 (FE II ) MORG 0.0 0.0 0.0 0.0 2 ME67 10. 50 12.15 4.52 5.35 7412 (* II ) GRA 0.20 0.20 • 1? 0.12 3 ME67 16. 10 12.15 5.94 _5.?5 7452.00 FE I I ) MORG 0. 0 0.0 0.0 A 0.0 4 ME67 10. 50 12.15 4.88 5.35 7469 N I GRA 0.50 0.50 0.29 0.29 6 ME67 11. 10 12.15 5. 16 5.35 7500 MORG Q. 4Q... 0-23 A 7 ME 6 7 13.20 12.15 6. 13 5.35 7530.70 (CL IV ) MORG 0.40 A 0.23 8 MF67 11.30 12.16 5.25 5.35 7751.30 (AR III) MORG 5.00 A 2.80 A 9 ME67 11.90 12.15 5. 53 5.35 AHX 11.90* 6.67* 1 PC 13.80 12.15 7.25 . 5.35 7774.50 0 T MORG 0.20 A 0. 11 A 2 PC 14.10 12.15 4.33 5.35 7794 MORG 0.40 A 0.22 A 3 PC 13.20 12.15 6.32 5.35 7816.10 HE I MORG Q.4Q A_ .0-1 ¿Z A AL 70.00 104. 58 29.96 -fr.3-21 , GRA .0.40 0.22 1 ME 67 80.00 104.58 32.61 43.21 7837 MORG 0.40 0.22 2 ME 6 7 115.00 104.58 46.87 43.21 -8.046 LCL_ II ) GRA 0.3Q- . 16 3 ME67 17 5.00 . 104« 59 6Qt 59 43.21 8185 N GRA 0.40 0.40 0.21 0.21 4 ME 6 7 78.00 104.58 34.50 43.21 N GRA 0.50 0.50 0.27 0.27 5 ME67 45. 00 104.58 17. 18 43.21 8204 -GRA., 0.20 0.20 0.11 0.11 6 MF 6 7 70.00 104.58 30.96 43.21 8216 N I GRA 0.60 0.60 0.32 0.32 7 ME67 150.00 104.58 66.34 43.21 8223 N I GRA 0.80 0.80 0.42 0.42 8 ME67 120.00 104.58 53.07 43.21 .■8243 -W I- GRA . 0.4ÍL- Q.4Q- Q. 21 0.21 9 ME 6 7 ■ LQ4..QQ 104.58 45.99 8286 MORG 1.00*A 0.53*A 1 PC 144. 00 104.58 72.57 43.21 8292 MORG 0.0 *A 0.0 *A 2 PC 141.00 104.58 40. 14 43.21 8289 .43.21 8306 H I MORG 1 •00*A 0,52*A AL 20.00 21.55 8.50 8.90 8314 H I MORG 1.00*A 0.52*A 1 ME67 17. 80 21.55 7.20 8.90 8324 _H 1— MQRG 1.QQ»A Q.52*A 2 ME67 2-L. 00 21.55 8.50 8334 MORG 1.00*A 0. 52 *A 3 ME67 33.40 21.55 11.46 8.90 8346 MORG 1.00*A 0.52 *A 4 ME67 20.40 21.55 8.96 8.90 641 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued WAVF lOENT N RG REF OBS I AVE 0 CORR I AVE C C = 0.50 FOR RG REF ME67 (HYDROGEN LINES! 10938 H I 1 5 ME67 15.00 8.90 C = 0.50 FOR RFF HE67 (HYDROGEN LINES) 1 6 ME6 7 20. 50 21.55 9.00 8.90 C = 0.50 FOR RG 9, REF ME67 (HYDROGEN LINES) 1 7 ME67 19.20 21.55 8.43 8.90 C = 0.46 FOR RG 10, REF HE67 (HYDROGEN LINES) _J 8 M67 22.4Q 21.55 9.64 _a^ .C = £Ml2 FQR PQ 1 REF PC (HYDROGEN LINES) ME67 22.00 21.55 9.66 3.90 C = 0.77 FOR RG 2 REF PC (HYDROGEN LINES) 1 PC 25. 10 21.55 12.58 8.90 C = 0.48 FOR RG 3 REF PC (HYDROGEN LINES) _2 R£_ 21.90 21.55 6.17 3.9-Q_ C = Q.33 FQR RG 4 REF PC (HYDROGEN LINES) (209.0 -19.4) REGION KEY (REG I ON,REFERENCE,EXPLANA!ION) 11. BA . MAX (N ID OF 238 MEASURES. SEE REF. i. Bon , 34 ARCSEC N OF CENTRAL STAR 21 BDQ i ARCSEC N OF CENTRAL STAR BEGIN NGC 1977 (208.5 -19.1) C = 0.0 (NO CALCULATION) 205 ARCSEC N OF CENTRAL STAR 4, BDO , 25 ARCSEC S OF CENTRAL STAR WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 5. BOO . 110 ARCSEC S OF CENTRAL STAR 6563 H I 1 1 PA l . Q-Q*_ -ItQQ* 6, BDO 195 ARCSEC S OF CENTRAL STAR 1 2 PA 1.00* 1.00* 7, BOO 280 ARCSEC S OF CENTRAL STAR ) 1 1 PA 0.28* 0.28* 8, BDO 365 ARCSEC S OF CENTRAL STAR 1 2 PA Q.42* Q.42» 9, BDO 120 ARCSEC W, 34 ARCSEC S OF CENTRAL STAR 10, BDO 120 ARCSEC E, 34 ARCSEC S OF CENTRAL STAR REGION KEY (REG I ON,REFERENCE,EX PLANATION) 11, BDO 120 ARCSEC E OF CENTRAL STAR 1* PA , RA 5H 32.7M, DEC -4DEG 52MIN 12, BDO 238 ARCSEC E OF CENTRAL STAR PA 5H 32.9M, DEC -4DEG 52MIN 13, BDO 357 ARCSEC E OF CENTRAL STAR A, BC 0.7 min W, 0.1 MIN N OF THETA-1 CRI END NGC 1977 (208.5 -19.1) B T BC 2.0 MIN E, 0.4 MIN S OF THETA-1 ORI C C, BO 0.5 MIN W, 1.0 MIN N OF THETA-l ORI C D. BO 3.7 MIN W. 0.9 MIN S OF THETA-1 ORI C F , BO 0.5 MIN W, 1.1 MIN S OF THETA-1 CRI C BEGIN NGC 1999 (210.4 -19.7) C = 0.0 (NO CALCULATION) F, BO 0.5 MIN E, 1.1 MIN S OF THETA-1 OPI C 1.1 min W, 3.7 “IN S ÜF THETA-1 QFI.C... WAVE IDENT N RG REF OBS I AVE 0 CQPR-L- AVE C H0.v BO BC 1.1 MTN W, 5.6 MIN S OF THETA-l ORI 6563 H I 1 GEK 1.00* 1.00* 1, CA MINIMUM OF 96 VALUES, SEE REF. 6584 (N II ) 1 GEK 0. 30* 0.30* co MAXIMUM OF 10 REGIONS OBSERVED. SEE REF. 61, CR DIRECTION 6, REGION 1, MIN. OF 43 MEAS., SEE REF. 50, DA MAXIMUM OF 54 MEASURES, SEE REFERENCE ON, DAA ON ENHANCED 01 OF, DAA OFF ENHANCED 01 15, DEM MAX. OF 23 VALUES. SEE REF. BEGIN NGC 2023 C = 0.0 (NO CALCULATION) 4* -ELM MINIMUM OF 20 MEASURES, SEE REFERENCE DMA FILAMENT 14 ARCMIN S OF TRAPEZIUM WAVE IDFNT N RG REF OBS I CORR I 1, DMI MAX. FROM 2300 MEASUREMENTS. SFE REF. 6563 H I 1 A GEK 1.00* 1.00* 24. nn? MAXIMUM OP 91 UAIIIFS, 9 F F RFF. 6 5B4 (N ) 1 A GEK 0.22* 0.22* D 02 MAXIMUM OF 91 VALUES, SFE REF. 6717 (S II ) GEK 1. 35* 1.35* 3, DRS , MINIMUM OF 14 MEASURES, SEE REFERENCE 6731 (S II ) 1 GEK 1.00* 1.00* A. GEK . A ON D IFF E RF NT SCAt E C, GZ 5 5, CENTRAL REGION REGION KEY (REG ION,REFERENCE,EX PLANATION) E, GZ55, TO 12 MIN EAST OF CENTER A , GEK , REGIONS A AND B ON DIFFERENT SCALES W. G755. S TO 15 M.IN WE.SJ-.-flEi.—CFNTFR 1, J 53 , PA 5H 30.4M, NC.45 2, J 53 , PA 5H 30.4M, NC.46 3, .153 . RA 5H 30.4M. NO.47 RA 5H 30.4M, NO.48 3, MA57, EAST OF THETA 1 CRI C BEGIN NGC 2024 -16.3) **C 1.00 (HYDROGEN LINES) IB. M AS 7, SAME REGION AS ABUVF.Sr.AIF DIFFFRFNT FROM ?B BFIOW ?fl, MA57 , SAME REGION AS ABOVE,SCALE DIFFERENT FROM IB ABOVE WAVE IDENT OBS I AVE 0 CORR I AVE C E, MAS 7, 0.4 MIN S CF THETA l ORI C 4861 H I HU 100.00 100.00 IE, MA5 7, SAME REGION AS ABOVE,SCALE DIFFERENT FROM 2E BELOW 1 LZ 100.00 100.00 100.00 100.00 2 E, MA57, SAME REGION AS ABOVE,SCALE DIFFERENT FROM IE ABOVE 2 LZ 100.00 100.00 100.00 100.00 PG, MA62, PHOTOGRAPHIC OBSERVATIONS 3 LZ 100.00 100.00 100.00 100.00 PE. mA62. PHOTOELECTRIC OBSERVAT IONS 4 LZ 100.00 100.00 100.00 100.00 1, ME67, 45 ARCSEC SOUTHWEST OF TRAPEZIUM 1 5 LZ 100.00 I 00.00 100.00 100.00 2, ME67, 68 ARCSEC WEST OF TRAPEZIUM 4991 (0 III ) 1 HU 33.00 30.94 A 3, ME6_7j 32 ARCSEC EAST OF TRAPEZIUM 5876 HE I 1 1 LZ 11.DQ 10.20 5.93 6.-59-, 4, MF67, 104 ARCSEC SOUTHEAST OF TRAPEZIUM 2 LZ 13.00 10.20 17 6.59 5, MF67, 151 ARCSEC EAST OF TRAPEZIUM 3 LZ 7.00 10.20 3.96 6.59 6, m E6 7, 105 ARCSEC EAST QF TRAPEZIUM _1 4 LZ 6. QÛ... 1 0.70 3.43 6.59 7, ME67, 87 ARCSEC SOUTH OF TRAPEZIUM 1 5 LZ 14.00 11.43 8, MF67, 100 ARCSEC NORTHWEST OF TRAPEZIUM 1 GEK 1.00* 0.47* 9, ME67. 115 ARCSEC NORTH OF TRAPEZIUM _J LÔ 1 « OQ* 0.47* 10, MF67, 55 ARCSEC SOUTH OF TRAPEZIUM 1 l LZ 750.00 620.00 289.21 287.43 MINIMUM OF 13 MEASURE'S, SEE REFERENCE 1 2 LZ 590.00 620.00 288.16 287.43 QS55, MINIMUM Qr 16 MEASURES. SFE PEFFRENCF _J 3 LZ 690« QQ 620. QQ 787. 1 5 7B7.A3 PC , 35 ARCSEC NORTH OF THETA-l ORI 4 LZ 680.00 620.00 287.34 287.43 2, 35 ARCSEC SOUTH OF THFTA-1 OP I 5 LZ 390.00 620.00 285.31 287.43 3. PC 35 ARCSEC NORTH OF HD 37047 6584 Q5K 0.45* Q,21* 4, PC 35 ARCSEC SOUTH OF HD 37061 1, R I 1 MIN SOUTHEAST OF TRAPEZIUM 2, R 1 2 MIN SOUTH OF TRAPEZIUM REGION KEY (REG ION,REFERENCF,EXPLANAT ION ) 3, R 1 ? MIN NORTHWEST OF TRAPEZIUM 1, LZ MIN 10 SEC WEST, 1.98 MIN NORTH OF ZETA ORI I MIN EAST OF POINT 1 LZ 1 MIN 27 SFC WEST 1.98 MIN NORTH OF ZETA ORI ..R 1 4 min EAST-SOUTHEAST QF TRAPEZIUM LZ 1 MIN 8 SEC WFST, 4.60 MIN NORTH QF ZETA ORI R 1 MIN EAST-SOUTHEAST OF TRAPEZIUM 52 SEC WEST, 4.30 SEC NORTH OF ZETA CRI 6 MIN SOUTHEAST OF TRAPEZIUM I MIN 18 SEC WEST, 2.40 MIN NORTH QF ZETA ORI 8. R I 5 MTN SOUTH-SOUTHEAST OF TRAPEZIUM R I I MIN NORTHEAST OF TRAPEZIUM C = 1.25 FOR RG REF LZ (HYDROGEN LINES) IK, RE MAX. ABSOLUTE H BETA OF 89 OBS. POINTS, SEE REF. C = 0.94 FOR RG REF LZ (HYDROGEN LINES) Ao-.SQH BRIGHTFST PART QF BRIGHT RIM C = 1.15 FQR RG RFF LZ (HYDROGEN LINES) 1, SI 0.6 ARCSEC W OF TRAPEZIUM C = 1.13 FOR RG REF LZ (HYDROGEN LINES) 2, SI 1.0 ARCSEC SE CF TRAPEZIUM C = 0.41 FOR RG REF LZ (HYDROGEN LINES) it SI 1.5 ARCSEC SE OF TRAPEZIUM 4, SI 7.2 ARCSEC NW CF TRAPEZIUM 5, SI 4.2 ARCSEC SE CF TRAPEZIUM 6, SI 5.3 ARCSEC S QF TRAPEZIUM 2B , W MAXIMUM OF 7 OBSERVATIONS, SEE REF. BEGIN NGC 2068 0.0 (NO CALCULATION) C = 0.5 5 E-Qß RG L, RFF MF67 (HYDROGFN I INE9> C = 0.55 FOR REF ME67 (HYDROGEN LINES) WAVE IDENT N RG REF OBS I CORR I C = 0.65 FOR RG REF ME67 (HYDROGEN LINES) 6563 H I 1 A GEK 1.00* 1.00* C = Q.5Q FOP. RG REF ME67 (HYDROGEN LINES) .6584 _LN LL J—1—A GFK D.73* 0.23*- C = 0.59 FOR REF ME67 (HYDROGEN LINES) 6717 (S I ) 1 GEK 1.30* 1.30* C = 0.50 FOR REF ME67 (HYDROGEN LINES) 673 I ( S II ) GEK 1. 00* 1.00* 642 © American Astronomical Society • Provided by the NASA Astrophysics Data System TABLE 8—Continued 197 6ApJS. . .31. NGC 2068 (205.4 -14,3) NfiC 7?44 -2.01 REGION KEY 75 291.03 1 5 LZ 1860.00 1812.00 REGICN KPY (PEGIDN.REFERENCE.EXPLANATION) BEGIN NGC 3576 .8) C = 0.84 (HYDROGEN LINES) 1, LZ 12 SEC WEST, .38 MIN NORTH OF SAO 208700 2, LZ 17 SEC WEST, 4.73 MIN NORTH OF SAO 208700 WAVE TDFNT N RG RFF PBS I AVF D CORK I 31 LZ 11 SEC EAST. 2.66 MIN SOUTH OF SAQ 2QB7QQ II ) 1 DZ 77.62 138. 17 LZ 41 SEC WEST, 17.75 MIN SCUTH OF SAO 208700 1 DZ 166.00 295.50 LZ 20 SEC WEST, 18.24 MIN SOUTH OF SAO 208700 85. II 151.51 A DZ 11.48 13.06 18.67 21.23 C = 1.93 FOP RG REF LZ (HYDROGEN L INES) B DZ 16.22 13.06 26. 37 21.23 C = 2.38 FOR RG REF LZ (HYDROGEN LINES) r n? _LL. n. n* 1 ft. 67 21.23 . FOR RG -ftEF...L7 (HYDROGEN I INFS) ( S I I ) l A DZ 1.90 2.40 2.82 3.55 C = 2.62 FOR REF LZ (HYDROGEN L INES) 1 B DZ 3.47 2.40 5. 13 3.55 C = 2.43 FOR REF LZ (HYDROGEN L INES) 1 C DZ 1.82 2.40 2.69 3.55 H I l A DZ 15.84 18. 1 1 23.08 26.39 1 B DZ 21. 88 18.11 31.89 26.39 L_ C DZ 16.60 18.11 24. 19 26.39 I A DZ 33.83 3 7.02 43.82 47.88 B DZ 41.69 37.02 53.92 47.88 BEGIN NGC 6357 C = 2.52 (HYDROGEN L INES) -C D.Z.. 35.48 3 7.Q2 45.89 4L.aa- (0 I II ) l B DZ 1.95 1.60 2.49 2.05 WAV F IDFNT N RG REF OBS I CORP I 1 C DZ 1.26 1.60 1.61 2.05 3728 (0 II ) 1 1 DZ 15.15 85.46 4471 HF I 1 A PZ 4.57 -Jt*. .5^-56 5.Q5 .I 2 DZ 12.59 71.02 B DZ 4. 57 .15 5.56 5.05 HF I 1 DZ 10.96 7.17 47.11 30.83 C DZ 3.31 4.15 4.03 5.05 1 2 DZ 3.39 7.17 14.56 30.83 HF II -C D2_ Qm 25 Q.25 0,27 0.27- ( S II) 1 1 DZ 5. 89 3. 54 19.10 ■-U-,JLO_ DZ 100.00 100.00 100.00 100.00 2 DZ 1.20 3. 54 3.90 11.50 B DZ 100.00 100.00 100.00 100.00 4101 H I 2 DZ 8.31 8.31 25.73 25.73 C DZ 100.00 100.00 100.00 100.00 4340 H I_ 1 DZ 20.42 21.93 44. 18 47.45 (0 I II ) 1 A DZ 380.20 293.18 357.55 275.72 1 2 DZ 23.44 21.93 50.71 47.45 1 B DZ 144.54 293.18 135.93 275.72 4363 (0 III) 1 1 DZ 10.23 10.23 21.41 21.41 !_ C DZ 354.80 293.18 333.67 2.7 5-f-X2_ 44.7-L- —HE JL—QZ_ 1G.96 10.96 19.77 19.77 A DZ 26. 30 19. 79 17.36 13.07 4686 HF II 1 2 DZ 0.78 0.78 1.01 1.01 B DZ 14.45 19.79 9.54 13.07 4686 HE I 1 1 DZ 36.31 36.31 47.32 47.32 C DZ 18.62 19.79 12.29 13.07 4861 H I _1 1 DZ 1QQ.QQ ICO. 00 1Q.Q.0Q . 100.00 ) 1 A DZ 2.09 1.68 1.17 0.94 2 DZ 100.00 100.00 100.00 100.00 1 B DZ 0. 87 1.68 0.49 0.94 1 DZ 195.00 331.35 162.19 275.60 L_ -C.-D.Z- 2.09 1.68 1.17 0. 2 DZ 467. 7Q - 331.35 389.01 275.60 DZ 691.80 583.13 364.76 307.46 1 J060 6.00* 4.99* P DZ 426.60 583.13 224.93 307.46 1 I DZ 34.67 44. 18 9.98 12.71 C DZ 631.oa. 583.13 332.70 3Q7..46 2-02 53.70 44.18 15.45 12.71 I 1 A DZ 9.55 .87 4.51 1 1 DZ 17.38 14.98 3.04 2.62 1 C DZ 8. 13 4. 15 4.51 1 2 DZ 12. 59 14.98 2.20 2.62 6724 II ) 1 A DZ 54.9,8. 61.6-5_ 27.7Q 31.Q7 6548 _LN II ) -3 JQ6Q 100.00* 14.85* B DZ 72.44 61.65 36.50 31.07 1 DZ 1950.00 2 069.00 285.84 303.28 C DZ 57. 54 61.65 28.99 31.07 2 DZ 2138.00 2069.00 320.72 303.28 01 16.98 11.33 7.85 5.24 _3 J060 IQQ.QQ* 14.66* l B DZ 2.8 11.33 1.33 5.24 6584 (N II ) J060 100.00* 14.36* 1 C DZ 14. 13 11.33 6.53 5.24 6678 HF I l 1 DZ 33. 11 36.92 4.40 4.90 (P II ) 1 23.44 14.81 10.17 6.43 J 2 DZ 40.74 -16.92 5. 41 4.9Q . B DZ 5.49 14.81 2.39 .43 6724 (S II) 1 1 DZ 158.50 l 13.05 20.28 14.46 C DZ 15.49 14. 6.72 .43 1 2 DZ 67.61 113.05 8.65 14.46 7065 HE I J 1 DZ 42.66 54.36 4.2-1 5.36 REGICN KEY (REG I ON,REFERENCE,EXPLAN AT ION) 1 2 DZ 66.07 54.36 6.52 5.36 A, DZ , POSITION NOT INDICATED. WITHIN 5000 MHZ CONTOURS 1 1 DZ 64. 57 52. 19 5.28 4.27 B, DZ . POSITION NOT INDICATED. WITHIN 5000 MHZ CONTOURS _1 2 DZ 39.81 32.19 3.26 4.23-, C, DZ , POSITION NOT INDICATED. WITHIN 5000 MHZ CONTOURS NGC 6357 (353.2 END NGC 3576 (291.2 -Û.8.) 644 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued NGC 6357 (353.2 Q.9) . NGC 6523 ( 6.L -1 ti-L. REGION KEY (REG ION»REFERENCE,EXPLANAT ION) WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C ItL-t DZ LLÍ 1. RADIO rcttUl U—rn ¿ Tw ■ I SOURCE G353.1+0-7 4340 H I I 5 PC l l PRK 39.90 40.00 41.1 7 41.17 46, 08 47.05 48.09 48.09 2» DZ , RADIO SOURCE G353.2+0.9 l 2 PRK 36.00 41.17 42.34 48.09 ND NGC 6357 (353.2 0.9) _LG III) J C GD l.OQ Q.7-L- 1.17 0.83 1 N GD 1. 0.71 1. 17 0.83 1 0D6 5 0.54 0.71 0.63 0.83 1 1 PC 0» 31 Q.7_L_ 0» 36 Qt 83 BEGIN NGC 6514 -0.2) 1.05 (HYDROGEN L INES) 4387 HE I l C GD 1.00 1.00 1. 16 1.16 4471 HE I 1 C GD 3.50 9.20 3.96 10.39 IDENT N RG REF AVE O CORR I ...AVS C 1 N GD 4. 50 5.09 10.39 4340 l MA62 28.20 28.20 38.90 38.90 1 1 30.20 9.20 34. 27 10.39 l C TH 53.00 A 73. 10 l 3 4.17 9.20 4.62 10.39 4861 _J DLL 100.00 100.00 100.00 100.00 1 4 3.63 9.20 4.00 10.39 1 19 D074 100.00 100.00 100.00 100.00 1 DI L 100.00 100.00 100.00 100.00 1 GEB 100.00 100.00 100.00 100.00 1 47 DD74 100.00 100.00 100.00 100.00 _1 GE* 100.00 LQQ^Q.Q- 100.QQ 100.00 _1 C.N GD GD iflQ.QQ 100.00 --LQQ.QQ 1QQ.Q0 MA62 100.00 100.00 100.00 100.00 100.00 100.00 1 C TH 100.00 A 100.00 A 1 GER 100.00 1 00.00 100.00 100.00 _LQ LUI J. C_LH 47.00 A 44.66 A 1 GZ56 100.00 100.00 100.00 100.00 (C III) 1 DIL 80.00 94. 10 74.09 87.15 l J 53 100.00 ico.co 100.00 100.00 1 19 D074 108.20 94.10 100.21 87.15 1 MA62 100.00 100.00 100.00 100.00 GEK 11Q.QQ A 101.87 A _J Q.n,65 IQQtQQ 1Q0.0Q 100.00 100.00 1 C TH 160.00 A 148.18 A 1 1 PC 100.00 ICO.00 100.00 100.00 5876 HE I l MA62 15. 10 8.99 1 2 PC 100.00 100.00 100.00 100.00 6548 _LU II 1 3 —D.I.L- 490.00 221.15- 1-3 ELL— mQ.QÛ 100.QQ . 1QQ.QQ LQú.QQ I DIL 490.00 220.07 l 4 PC 100.00 ico.oo 100.00 100.00 1 28 DO74 1.00* 0.45* 1 5 PC 100.00 1C0.00 ICO.00 100.00 GEB 43 7..QQ 196.27 1 á 1QQ.QQ 10Q.QQ 1QQ..QQ 10Q.QQ 1 GEK 1.00* 0.45* 1 PRK 100.00 1 C0.00 100.00 100.00 1 MA62 512.00 229.95 2 PRK 100.00 100.00 100.00 100.00 .) 3 DTI 490.CO 21 8.2.9. £ GD 4.00 4^0Q_ 3.94 3.94 1 28 DO74 0.64* 0.29* C GD 50.00 61.14 48. 73 59.68 1 A GEK O. 36* 0.16* N GD 65. 00 61.14 63. 34 59.68 -6-11.7 _LS_ n ) 1 6 GE_K 1.3Q*A 0.55*A 312 39.00 61.14 .38.01 .59.6B 6731 ( S I I ) 1 R GEK 0.42* PC 53.70 61.14 52. 31 59.68 PC 63.00 61.14 61.42 59.68 REGION KEY (REG I ON.RFFERFNCE.EXPLANAT IONJ 89.nn 61.1 4-. ■87.1.1 . 59.68 19» 0074» MAX. OF 31 REGIONS. SEE REF. l 4 PC 79. 50 61.14 77.93 59.68 28, D074, MAX. OF 31 REGIONS. SEE REF. 1 5 PC 66.20 61.14 64.70 59.6 8 -..G.FK » REGIONS A AND R. ON DIFFERENT SCALES 1. 1-P.RK -IX.-CO 61.14-- 65. 8S -5.9.68 C, TH , RIM C, SAMPLE CF 14 OBS.» SEE REF, NO ATM. CORR. PRK 49. 00 61.14 47. 75 59.68 4991 (0 III) GZ5o 120.00 120.00 115.96 115.96 END NGC 6514 ( 6.9 -0.2) 5007 _LQ III) Dll 16 Q. QO 201.14 1 53.9? 194.01 1 47 0074 292.00 201.14 280.90 194.01 l C GD 140.00 201.14 134.68 194.01 i M on I 90-nn —2jQ1.1 4— 1 82.78 194.01 REGIN NGC 6523 -1.3) **C = 0.53 (HYDROGEN LINES) 1 J53 145.00 201.14 139.49 194.01 1 0D65 195.00 201.14 187.59 194.01 1-1 162.00 -2.01.1 4— 155.73 194.01 (0 II ) 1 DIL 600.00 863.92 1 199.00 201.14 191.58 194.01 C GD 130.00 187. 18 l 3 218.00 201.14 211. 10 194.01 N GD iflo.nn 259. 1 8 . 41.7. GO 201.14- 404.69 194.01 GZ 5643.00 61.91 PC 182.00 201.14 175.85 194.01 21 MB 1.00* 1.44* PC 141.00 201.14 137.14 194.01 245.QQ QD 6 5 352.7.Z PRK ?nn.nn ? 01 . I 4-- 192.40 194.01 PC 129.00 187.02 2 PRK 175.00 201.14 168.35 194.01 PC 148.00 211.64 5577 (0 GZ 56 60.00 60.00 49.42 49.42 PC 89.00 120.46 5755 (N C GD 4.00 1.91 3. 16 1.51 PC 126.00 167.05 N GD 1.00 1.91 0.79 1.51 PC 105.00 145.07 0. 72 1.91 0. 57 1.51 PC 112.QQ 145.4.6 5876 HE I 28.00 1.8. 45_ 21.55 14.41 A WO 1.00 1.44 N GD 25.00 18.45 19.24 14.41 (o u ) i 21 MB 0. 78* 1.12* J53 26. CO 18.45 20.01 14.41 L - A HQ 0.56 . 8-L 1 MA6 2 1 5, 90 18.45 12.24 14.41 3750 C GD 1.00 1.00 1.43 l .43 I 1 PC 14.40 18.45 11.03 14.41 3771 C GD 2.00 2. 00 2.84 2.84 1 2 PC 16.60 18.45 12.84 14.41 3797 C GD 3.00 4.00 4.22 5.6? 1 3 ££_ 16.6Q 18.45 13.36 .14^.1... N GD 5. 00 4.00 7.03 5.62 13.80 18.45 11.27 14.41 3820 C GD 1.00 1.00 1.39 1 .39 17.80 13.45 14.11 14.41 3835 C. GD 7.QÛ 6.00 . 7.0 8.32 12.8Q 18.45_ 10.61 .14.41. N GD 5. 00 6.00 6.93 8.32 1 PRK 16.00 18.45 12. 31 14.41 (NE III) 1 C GO 4.00 6.00 5.48 8.22 6300 (0 I ) GZ 56 20.00 20. 00 14.02 14.02 L —N-.O.D 8.00 6. QO IQ.96. 8.22 .6548 - _LN II ) DU 680.00 455.31 3889 GD 1 5. 00 20.38 GD 46. 00 78.00 30. 80 52.23 N GD 15.00 20.38 GD 43.00 78. 00 28.79 52.23 3889 C GD 15.00 -20,23- J 53 145.QQ 78.00 97.Q9 52.23. N GD 15.00 20. 38 3 1 PRK 690.00 462.01 (NE III) 2 C GD 26.00 34.48 3 2 PRK 738.00 494.15 2_ N GD 20.00 26.52 6563 1 23 CLM l.QQ* ■ ■Q,67.*.. C GD 26. 00 34.45 3 DIL 680.00 453.98 GD 20.00 26.50 1 2 DO 1.00* 0.67* 12» GZ 56_ QQ 12».QQ 15.90 15,9Q 1 25 DO 74 l.QQ* Q..6.7 * 4026 HE I 1 C GD 2.00 2.00 2. 60 2.60 1 C GD 370.CO 451.91 247.0? 309.86 4072 (S II ) 1 C GD 3.00 2.00 3. 84 2.56 l N GD 390.00 451.91 260.37 309.86 L_ N GD l.QQ -¿.QQ 1.28 2.56 _1 GEB 331.00 -A51.9L- 220.98 3Q9« 86 C GD 24.00 20.72 30.44 25.92 GZ56 600.00 A 400.57 A N GD 23.00 20.72 29.17 25.92 J 53 910.00 451.91 607.53 309.86 22.00 GZ 56_ 2Q.72 ■¿7.9Q- 25.92 1 1 PC MA6? 445.on -4.51.9 L. 797.09 457. 00 451.91 302.78 30.4.86 309.86 20. 60 20.72 26.24 25.92 19.90 20.72 25.13 25.92 1 2 PC 457.00 451.91 307.44 309.86 i PL- 21.80 20.72 26.55 25.92 1 3 EL- 416.00 451.91 297.45 309.86... PC 21.40 20.72 25.72 25.92 407.00 451.91 297.75 309.86 5 PC 20.80 20.72 25.68 25.92 l 5 399.00 451.91 278.85 309.86 1 PRK 13» QQ 20.72 16» 4.9 ¿5,92 L__6— 389.QO -45L.9L- 291.17 309. C GD 45.00 41.17 52.93 48.09 3 1 PRK 690.00 460.66 N GD 35. 00 41.17 41.17 48.09 3 2 PRK 738.00 492.70 GZ56- 48.00 41.17 56.46 48.09 -6584 1 23 CLH 0.48* 0. 3?» MA62 32.30 41.17 37.99 48.09 3 DIL 680.00 452.12 0D65 50. 00 41.17 58.81 48.09 i 2 on 0. 54* 0. 36* 1 EG 40.70 41.17 48.02 48 »Q9 1 ¿5 DQ74 0.52* Q.35* 2 PC 42. 70 41.1 7 50.07 48.09 109.00 120. 34 72.47 81.62 3 PC 41. 70 41.1 7 47. 72 48.09 102.00 120.34 67.82 81.62 4 PC 4?. 70 41.17 48.41 -48.Q9 645 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued NSC 6.1 -1.3) NGC. 6.619 ( 13.1 WAVE IDENT N RG REF OBS I AVE O CORR I AVE C WAVE IDENT N RG REF OBS I CORR I 6584 (N II ) 1 J53 380.00 120.34 252.66 81.62 3727 (O II ) 1 4 PC 123.00 25^83_ 1 1 PC 107.00 120.34 70.60 81.62 1 1 PC 13.20 13.53 27.76 25.92 l 2 PC 132.00 120.34 88.44 81.62 1 2 PC 11.20 13.53 23.98 25.92 1 3 P£_ 58.70 .1.20.3') 41.83 81.62 1 4 PC 16.20 13.53 26, Q4_ 1 4 PC 83. 10 120.34 60.60 81.62 i GE 44.00 32.28 72.26 52.54 1 5 PC 58.90 120.34 41.01 81.62 1 006531.60 32.28 51.90 52.54 1 6 E£_ 52.40 120.34 39.11 81.62 -A E£ 3Q.2Q-- 50.21 57.54 PRK 690.00 458.77 1 2 PC 27.50 32.28 46.28 52.54 3 2 PRK 738.00 490.69 1 3 PC 25.70 32.28 46.55 52.54 6678 1 1 E£_ .90 3.18 2.90 1 4 PC 34.70 32.28 48.01 52.54 PC 3.80 4.22 2.67 2.90 1 0D65 0.45 0.66 0. 72 1.07 PC 3.96 4.22 2.85 2.90 1 1 PC 0.87 0.66 1.42 1.07 (S Till C GD 12.00 41.33 7. 80 26.85 4472 1 1 P£_ 2.14 2.14 3t 15— 3 » 15 1 N GD 12.00 41.33 7.80 26.85 DIL100.00 100.00 100.00 100.00 1 J53 100.00 41.3^ 64.97 26.85 GE 100.00 100.00 100.00 100.00 ) 1 1 PC 22. 30 26. 73 14.35 18.48 GEB100.00 100.00 100.00 1QQ.0Q 1 3 19.90 26.73 13.90 18.48 100.00 100.00 100.00 100.00 GZ56 l 4 38.00 26.73 27.20 18.48 100.00 100.00 100.00 100.00 0D65 6731 _Ü I I L_1 Ç-GD 26.00 39.00 16. 85 25.28 1 1 100.00 LÛCL 00 10Q.QÛ-. 100.00 i N GD 35.00 39.00 22.68 25.28 1 2 PC 100.00 100.00 100.00 100.00 J 53 56. 00 39.00 36.30 25.28 1 3 PC 100.00 100.00 100.00 100.00 II ) 1-1 EI_ 7.75 7.75 4.53 4.53 1 4 E£_ 100.QQ 10Q.QQ 10Q. QQ-, 100.00 9069 (S 111)11 PC 42.70 42.70 20.20 20.20 100.00 100.00 100.00 100.00 9532 (S 111)11 PC 123.00 123.00 55. 85 55.85 GE 100.00 118.67 92.41 108.92 10049 _J 1_1 PjL_ 17.00 17.00 7.43 7.43 PC 115.00 118.67 1Q6.Q7., 1QB.92 1 3 PC 141.00 118.67 128.29 108.92 (O III) I 210.00 207.50 189.13 186.88 GZ 56 PEGICN KEY (REGION.REFERENCE.EXPLANATION) J 205.00 207.50 184.63 186.88 23. C L M DIRECTION 2,RING 3D, MAX OF 5 VALUES, SEE REF. (0 III ) DIL370.00 355. 86 328.68 315.63 2, DO MAXIMUM OF 10 VALUES OBSERVED, SEE REF. GE 280.00 355.86 248.73 315.63 25. 00741 MAX. OF 96 REGIONS. SEE REF. 275.QQ 355.66 Z4¿..2SL. . 115...63 QD65-. 47, D074, max. OF 96 REGIONS. SEE REF. PC 380.00 355.86 336.57 315.63 C, GD , CENTRAL CONDENSATIONS PC 398.00 355.86 351.49 315.63 N, GD . NEBULA SURRUUNCING CENTRAL CONDENSATIONS PC 355.R6 21, MB , MINIMUM OF 37 MEASURES, SEE REFERENCE 275.00 355.86 254.49 315.63 1, PC , 175 ARCSEC WEST, 90 ARCSEC SOUTH OF 9 SAG (0 I ) GE 82.00 101.00 45. 32 55.83 2. PC . 175 ARCSEC WFST. 30 ARCSFC SOUTH OF 9 SAG G756 120.00 101.00 66-33 SS-RI 3, PC 60 ARCSEC SOUTH OF 9 SAG 5755 (N II) PC 0.25 0.25 0. 12 0.12 4, PC 55 ARCSEC WEST, 50 ARCSEC NORTH CF 9 SAG 5876 HE I GE 8.00 26.16 3. 59 11.67 270 ARCSEC FAST, 40 ARCSFC SOUTH OF ) -SAT, 2 7.00- - 26.16 1l.flfl- 11.67 6, PC , 30 ARCSEC SOUTH OF HD 165052 l 2 28.20 26.16 12. 17 11.67 l, PRK , CENTRAL PART OF NEBULA 1 3 44. 70 26. 16 17.13 11.67 7 , PRK FOGF OF NFRIII A 22.90 2 á.Lá -13.56- 11 .AI- MINIMUM OF 12 VALUES 6300 70.00 GZ 56 23.64 6548 IN II ) 3 DIL 1260.00 369.75 C = Q.5-4 E_Q£ RG 1 (HYDROGEN l INFS> _jG£ 930.00 272.91— C = 3.52 FOP RG 2 REF PC (HYDROGEN LINES) DIL 1260.00 366.46 C = 0.44 FOP RG 3 REF PC (HYDROGEN LINES) GE 930.00 270.48 FOP RG 4 RFF PC ( HYDROGEN-J .IMF-S) GFB741.00 215. 51— 0.47 FOR REF PC (HYDROGEN LINES) 1 850.00 710.17 247.21 218.54 GZ56 0.38 FOR REF PC (HYDROGEN L INES) l l PC 871.00 710.17 245.71 218.54 1 2 EC 997-00 710.17 272.81_ 218.54 PC 126.00 710.17 28.71 218.54 PC 676.00 710.17 301.30 218.54 _LN 11)3 1260.00 Dll 362.11— 930.00 267.27 REOIN NGC 6559 .2) C = 0.0 (NC CALCULATION) PC 75.90 98.17 21. 15 32.86 PC 46. 80 98.17 12.65 32.86 WAVE I OF NT N RG REF OBS I AVE O CORR I AVE C PC 100.00 98.17 22.46 32.86 6563 HT 1 A GE K 1.00* 1.00* PC 170.00 98.17 75. 18 32.86 6584 (N II ) 1 A GE K 0. 50* 0. 50« GE 55.00 15.02 6717 (S ) l GE K 1.20* 1.20* 1 1 PC 11.50 9.21 3.04 3.00 6731 (S ) 1 GE K 1. 00* 1.00* 1 4 PC 6.92 9.21 2.96 3.00 3 GE 55. 00 14. 73 REGION KEY (REG I ON,REFERENCE,EXPLANAT I UN) l 1 PC 26.30 51.10 6.79 19.37 A , GFK , REGIONS A AND R CN DIFFERENT SCALES 1 4 PC 75.90 51.10 31.96 19.37 6730 LI L J3 &£_ 55. QQ. 14.62- 7325 (0 II) l 1 PC 6.92 6.92 1.33 1.33 9069 (S III ) 1 1 PC 263.00 263.00 26.34 26.34 9532 _LS III) _LJ EC— 105.00 423.QQ 9.21— 83.30 PC 741.00 423.00 157.33 83.30 RFGIN NGC 6611 C = 1.27 (HYDROGEN LINES) 10049 PC 83.20 83.20 6. 53 6.53 10830 363.00 363.00 24. 19 24.19 WAVE IDF MT N RG REF OBS I CORP I AVE C 3726 (O ti ) i pn 1.40* 3.35* REGION KEY (REGION,REFERENCF,EXPLANATION) 3729 _LC I 1 l.i EC 1.4Q* 3.35* 1, PC , 135 ARCSEC EAST, 15 ARCSEC NORTH OF BD-16 4818 4340 44.00 A 64. 92 A PC 100 ARCSEC EAST, 60 ARCSEC NORTH OF BD-16 4818 4861 DIL 100.00 100.00 100.00 100.00 PC 45 ARCSFC NORTH OF RD-16 4818 GEB -LQQ-. QQ 1 QQ. QQ 100-00 100.00 PC 305 ARCSEC EAST, 25 ARCSEC NORTH OF BD-16 4818 1 100.00 100.00 4959 III) 1 40.00 A 37.60 A C = 1.66 FOR PG 1 REF PC (HYDROGEN LINES) 5007 III) 1 130.00 130.00 118.47 118.47 C = L.7P REF PC (HYDROGEN LINES) TH 140.00 127.59 1.94 FQR FOP 8Ç RG 2 REF PC (HYDROGEN LINES) 654R (N DIL 830.00 317.43 1.06 FOR RG REF PC (HYDROGEN LINES) 6563 Ü— DIL ■83Q.QQ 315.21 GER 759.00 288.25 288.25 ( N 11)3 DIL 830.00 312.13 RFGICN KFY (REG I ON,R EFE RENCE,EXPLANATI ON) A, TH , RIM A, SAMPLE CF 5 OBS., SEE RFF. NO ATM. CORR. BEGIN NGC 6820 0.0 (NO CALCULATION) WAVE IDENT N RG REF OBS I CORR I AVE C 3726 (0 11)1 A SCH 1.00* 1.00* 3729 LC II ) 1 A-.SCH 1.1Q* I« IQ* BEGIN NGC 6618 -0.8) **C = 1.62 (HYDROGEN LINES) REGION KEY (REG I ON,REFERENCE,EX PLANATION) At SCH t BRI£HI PATCH IN ELEPHANT..J&tim, SLIT A WAVE IDFNT N RG REF OBS I CORR I 3727 (O II ) 1 ÜD65 49.00 149.17 1 1 PC 39.90 124.85 1 2 36.30 116.75 l 3 30.20 114.55 646 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued BEGIN NGC 6888 ( 7S«6 . 2.77 IHYDRnGFN t INFS1 NGC 6888 ( 75.6 2.4) WAVE IDENT N RG REF OBS I CORR I AVE C WAVE IDENT N RG REF OBS I CORR I -^12-6 _LQ U ). L I 37Q.Q0 2486.88 6583 (N II ) I B2 PR - Of 43* gLtQ.5* 2 J53 165.00 1109.02 I B3 PR 0. 52* 0.06* A 1 PR I. 00* 6.72* I B4 PR 0.40* 0.05* A? PPL. I. Q.O * 6.72* I B5 PR 0.59» 0.07* A6 PR 00* 6.72* I B6 PR 0.54* 0.06* A7 PR 00* 6.72* 3 1 RY 2.90* 0.34* P? PB- 00» 6.72» 3 2 RY 2.30* -Pt27* 1 RY 00* 6.72* 3 RY 2. 10* 0. 25* 2 RY 00* 6.72* 5 RY 1.40* 0. 17* 3 RY 00» 6.72* (S II ) l 1 J53 955.00 100.26 60.89 1 5 RY .00* 6.72* 2 J53 205.00 580.00 21.52 60.89 (0 II ) 1 A1 PR • 32*A 8.82*A 6731 (S II ) 1 J 53 770.00 455.00 79.84 47.18 L_ AS .PB— ■ 20* 8.02* 8.36* 2 JS3 140.QQ _45.S« QQ 14.52 47.18 A6 PR 25* A7 PR 04* 6.95* REGION KEY (REG ION,REFERENCE,EXPLANATI ON) B2 PR Q7*_ 7.15* 11 J53 t RA 2OH OH 1 J53 100. 00 100.00 100.00 100.00 J53 , RA 2 OH 4M 2 J53 100. 00 100.00 100.00 100.00 PR » SLIT 1,7 REGIONS.RED,GREEN,BLUE CN DIFFERENT SCALES 41-P.B- 100« £0* 100.00» PR , SLIT 2,6 REGIONS.RED,GREEN.BLUE OF DIFFERENT SCALES A2 PR 100, 00* 100.00* 1, RY , NORTH A3 PR 100. 00*A 100.00*A 2, RY , WEST FDGE A4 PR IQQi OQ*A . 100.00»A 3« RY «-CENTER A5 PR 100. 00*A 100.00*A A6 PR 100. 00*A 100.00*A A7 PR ion. mi 100.00* ( 75,6 2.4) B2 PR 100. 00* 100.00* B3 PR 100. 00* 100.00* B4 PR IQ.Qj 00* 100.00* B5 PR 100. 00* 100.00* BEGIN NGC 7000 -1.0) 0.95 (HYDROGEN LINES) B6 PR 100. 00* 100.00* III) 1 2 J53 74. 64.66 WAVE IDENT A1 PR 50. 00* 43.69* II ) 1 l DR S 1.00* 1.92* A3 PR 38. 00* 33.20* 1 3 DR S 1.00* 1.92* A 5 -P-R— 21. 00* 18. 3S.*_ L_ 4 DRS 1.00* 1.92* A6 PR 26. 00* 22.72* 1 P I 54 157.00 301.77 A 7 PR 31. 00* 27.09* 2 P I 54 207.00 397.88 B2 PR Ill 00» 96.99* 3 PI 54 —L76.QQ B3 PR 92. 00* 80.39* 1 4 P I 54 193.00 370.97 B4 PR 100. 00* 87.38* 1 1 SO 1.00* 1.92* B 5 PR 1Q3. QQ*_ 90.00* II 1 1 1 DRS 1-47* 2^72*. B6 PR ,00* 80.39* DRS 1.42* 2.72* 1 J53 340, ,00 227.00 277.67 185.39 DRS 1.37* 2. 63* 7 J 53 114, jm 227.00 93.10 185.39 A1 PR 157. 00* 128.22* 1 P I 54 23.00 19.67 35.21 30.11 A2 PR 139. 00* 113.52* 2 PI 54 14.00 19.67 21.43 30.11 A3 PR 128. QQ* I 04.54* 4 P I 54 22. QQ 19.67 33.68 ■30.11 A4 PR 83. 00* 67.78* GZ56 35.00 46.20 46.82 61.80 A5 PR 71. 00* 57.98* 1 PI 54 49.00 46.20 65.55 61.80 A6 PR 87-, 00* ■ 71.05* 2 PI 54 -56.QQ 46.20 -74.91 61.80 A 7 PR 93. 00* 75.95* 1 3 PI 54 39. 00 46.20 52.17 61.80 R2 PR 286. 00* 233.57* l 4 P I 54 52.00 46.20 69.56 61.80 B3 PR 763. nn* 214.79» _J 1 G_E_B 10Q.QQ 1QQ.00 100-00 100-00 B4 PR 286. 00* 233.57* GZ56 100.00 100.00 100.00 100.00 B5 PR 294. 00* 240.10* 1 J53 100.00 100.00 100.00 100.00 B6 PR 27Ü. on* 770-sn* 2 J53 1QQ.GO 1QQ.Q0 iQQ.on ion-on l 1 RY 40* 0. 33* 1 P I 54 100.00 100.00 100.00 100.00 1 2 RY 10* 0.90* 2 P I 54 100.00 I CO. 00 100.00 100.00 (N II ) 1 A1 PR 57* 0.07* 3 PI 54 100.00 100.00 100.00 100.00 l A2 PR 53* 0.07* 4 P 154 100.00 100.00 100.00 100.00 1 A3 PR 43* 0.05* (D III) 1 J 53 38.00 32.33 36.28 30.87 L_ A4 PR 49* Q.Q6*„ 2 J 53 2Q,Q0 32.33 -19.10 3Q.87 A5 PR .65* 0.08* 1 P I 54 31.00 32.33 29.60 30.87 A6 PR .60* 0.07* 2 PI 54 35. 00 32.33 33.42 30.87 A7 PR . 59* Q.Q7*. 3 P I 54 -J?-Q, QQ 32.33 -23.64 30.87 B2 PR 15* 0.02* 4 PI 54 40.00 32.33 38.19 30.87 B3 PR 18*A 0.02*A 4991 (n i ii ) i GZ56 250.00 250.00 235.12 235.12 B4 PR 13*A 0.Q2*A 5007 _L£ TIT) 1 1 J53 65.00 89.00 6Q.64 83.03 B5 PR 18* 0.02* J 53 52.00 89.00 48.51 83.03 R6 PR 24* 0.03* 1 P I 54 108.00 89.00 100.75 83.03 RY 9Q* Q.36* 2 P I 54 104.00 . 89.QQ 97.02 2 RY 30* 0.28* 1 3 PI 54 100.00 89.00 93.29 83.03 3 RY 10* 0.26* 1 4 P I 54 10 5.00 89.00 97.96 83.03 5 RY . Qj 1.7.*— _JLQ L ) 1 GZ56 160.00 16Q.QQ 113.01 113.Q1 6563 1 J 53 4550, 2915.00 550.71 352.82 6300 (01)1 GZ56 50.00 50.00 26.46 2 J53 1280 00 2915.00 154.92 352.82 6563 HI 1 22 CLM 1.00* 0.48* A1 PR L Ji£* 0.12* -1 &££ 6.46. QQ 85Q.5Q 313.12 412.24 A2 PR 00* 0. 12* GZ 56 450.00 850. 50 218.12 412.24 A3 PR 00* 0. 12* 1 J53 2220.00 850.50 1076.04 412.24 A4 PR A5 PR 00* 00* 0.12* 0.12* 2 J53 2280.00 -35.0,5 Q ■1105.12 412.24 1 PI 54 302.00 850.50 146.38 412.24 A6 PR 00* 0. 12* 2 PI 54 310.00 850.50 150.26 412.24 A7 PP sm* 0. 12* 3 PI54 280.00 850.50 135.72 412.24 B1 PR 00* 0.12* 4 P I 54 316.00 153.17 B2 PR 00* 0. 12* II ) 1 22 CLM 0.39* 0. 19* B3 PR . QQ* Q.12» L 1 J53 400.00 J7Q.QQ 192.46 178.Q3 B4 PR 00* 0.12* 2 J53 340.00 163.59 B 5 PR 00* 0.12* 1 PI54 16.00 7.47 B6 PR M* 0.12* 2 P I 54 35.00 -16.35 1 RY 90* 0. 35* 2 3 P I 54 35.00 16.35 2 RY 30* 0.28* 2 4 PI 54 32.00 14.95 3 RY IQ*. . 0. ?5* II ) 1 1 J53 155.00 -1.3-3,. 5 Q 71.55 61.63 3 5 RY 1. 40* 0.17* 2 J53 112.00 133.50 51.70 ) l 1 J53 1730. 00 1020.00 205.16 120.96 II ) 2 l P I 54 16.00 7.37 L_ 2 J 53 31 Qj £0 1Q2Q.QQ 36.76 12Q.96 2. -.2 P I 54 —3 5« 16. 1 3 A1 PR 44* 0. 17* 2 3 P I 54 35.00 16.13 A2 PR 52* 0. 18* 2 4 P I 54 32. 00 14. 74 A3 PR 45.*— 0.17» 6731 _LS_ II ) 1 2 J53 105.QQ 48.26 A4 PR 50* 0. 18* A5 PR 48* 0. 18* REGION KEY (REG I ON,REFERE NCE,EXPLANATI ON) A6 P.B_ 38* 0. 16* 22, CLM . DIRECTION 2.RING 2G. MAX OF 3 VALUES. -SEE REF. A7 PR .36* 0. 16* DRS , NORTHERN EDGE B1 PR .42* 0.05* DRS , WEST EDGE NGC ( 75.6 2.4) NGC 7000 -1.0) 647 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued NGJL. 76JL5 U12^2 0.2) 4, ORS , CENTER WAVE IDENT N RG REF OBS I CORR I Lt J53 t RA 2QH 48. 6563 H I _2 IV l 377.40 2, J 53 , RA 2 OH 56.9M 6563 (N II VV 1 377.40 163.16 1» P 154 » NORTHERN REGION 6584 H I GEK 0.19* 0.08* -2* PI^4t NORTH CENTRAI., REGION .6584 _LN UL_ -A_.DQR 130.00 55.73 3, PI 54 » SOUTH CENTRAL REGION 3 B DOR 853.00 365.65 4, PI54, SOUTHERN REGION 6717 Q 17,79 - 19.36 WAVE N RG RFF OBS I ■ AVE 0 CQRR I AVE C III) 3 BOHM 18.00 28.59 4861 130.00 100.00 100.00 100.00 3 3DS 17.00 27.00 4959 (0 I II ) 1 PF 54.00 54.00 47.25 47.25 TI 1 2 BJDHM 18.OQ 28. 59 5876 HP I I PF 71.00 7UQQ IB. 32 18.32 BPS 17.00 27.00 6563 H I 1 2620.00 2620.00 324.45 324.45 3 BOHM 18.00 28. 58 6584 (N II ) 1 806.00 806.00 97. 72 97.72 BAS 17.QQ 26.99 7065 HF I L_ __AE 119.00 119.00 9,59 9.59 4009. 80 (FF I I ) BPS 0.0 0.0 0.0 0.0 7325 TI ) l 522.00 522.00 34.28 34.28 4047, 00 ( FE III) BPS 3.00 3.00 4. 57 4.57 9015 I l 239.00 239.00 5.49 5.49 4068. 50 ( S .11—L -BPS 37*.QQ 37.QQ 55.66 - 55.66 9069 (S II ) 1 4220.00 4220.00 94.61 94.61 4072 (S II ) 1 BOHM 43.00 43.00 64. 56 64.56 10049 H T 961.00 961.00 14.41 14.41 4076. 30 ( S I I ) 1 BPS 13.00 13.00 19.47 19.47 10830 HF I 20400.00 20400.00 233.31 233.31 „ 4.1Q1 A_ J J &DHM. 14.00 15.50 20.68 22.9Q BPS 17.00 15.50 25. 11 22.90 4114. 40 (FE 11 ) BPS 4.00 4.00 5. 87 5.87 -A177 .LEE- II ) BOHM 2.QQ ... 2-*Q.Q..- 2.84 A. .8 4 ( FE II ) 2 BOHM 6.00 8.22 2 BPS 6.00 8.22 -1.0) C = 2.78 (HYDROGEN LINES) 2 BOHM 6.00 .22 2 BPS 6.00 8.22 WAVE IDENT N RG REF OBS I CORR I AVE C 4276« 6C (FE I I ) l BPS 2.00 2.00 2.69 2.69 3728 (O II ) 1 DZ 33.88 228.47 4287 L£F_ ■H ). 1 BOHM 8.00 6,50. 1Q...7¿_ 8.71 3889 HF I 1 DZ 5.75 5.75 28.75 28*75 1 BPS 5.00 6.50 6.70 8.71 4072 (S II ) 1 4.36 4.36 15.99 15.99 4319. II ) 1 BPS 0.0 0.0 0. 0 0.0 4101 6.61 6.61 22.98 22.98 4340 _I J BOHM. 34.00 3?.no 44.38 4340 ...02— 20.42 2Q.42 41.84 47.84 1 BPS 30.00 32.00 39. 16 41.77 4686 HE TI 1 DZ 6.92 6.92 9.27 9.27 1 BOHM 11.00 9.50 14.22 12.28 4861 HI I DZ 100.00 100.00 100.00 100.00 -J EB-S —8.00 - 12.28 5007 (0 III) 1 DZ 512.90 512.90 418.57 418^¿7_ 4414 ( FE I I ) BOHM 7.00 8. 81 5876 HF I 1 DZ 72.44 72.44 18.33 18.33 BPS 14.00 17.62 6364 (C I ) 1 DZ 20.42 20.42 2.98 2.98 441 4 (FE .11 -L- BOHM 6562 H L_ J 02— 2344.QQ ¿344.QQ . 281.84 281.84 BPS 14.00 17.62 6678 HE I 1 43.65 43.65 4.71 4.71 BPS 0.0 0.0 6724 (S II ) 1 154.90 154.90 16.03 16.03 (710.2 652 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued RCH 38 (268,0 -1-0) BEGIN S 1Q6 ( -¿«50 (HYDROGEN LINES! WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE N RG REF OBS I AVE 0 CORR I AVE C 7065 HE I 1 DZ 93-33 93.33 7.25 7.25 4861, 1 N CLZ2 100.00 100.00 100.00 100.00 7324 (O II ) 1 DZ 138.00 138.00 1 GEK 100.00 100.00 100.00 100.00 4991 (0 III ) 1 N CLZ2 150.00 150.00 127.63 127.63 _END RCW 38 (268.0 -1«01 5007 _J_Q HI? 1 -117.00 117.00 -91.40- ■97.46 l N CLZ2 1930.00 1930.00 286.98 1 A GEK 1.00* 0.15* 6575 _LN_ II ) 1 N C_L¿¿ 1800.00 1800.00 ¿64.71 ¿64.71 17.2) C = 1.16 (HYDROGEN LINES) 6584 (N 11)1 A GEK 0. 59* 0.09* 6717 (S I I ) l B GEK 0.68* 0.09* HAVE IPENT N PQ REF.. OBS I AVE Q COfiR I 6723 (S 11)1 N CLZ2 450.00 450.00 58.57 58.57 3727 (O II ) l CL 70.00 155.34 6731 ( S I I ) 1 B GEK 1.00* 0. 13* 4101 HI 1 CL 15.20 15.20 25.57 25.57 7135 (AR III) 1 N CLZ2 10.00 A 0.96 A 4340 HI 1 CL 32.50 32.50 46.36 46.36 7325 (0 LL_L_1 N CLZ2 60.00 A 5.00 A 4861 HI 1 CL 100.00 100.00 100.00 100.00 6548 (N II ) 1 CL 57.00 57.00 23.69 23.69 REGION KEY (PEG ION,REFERENCE,EXPLANAT ION ) 6563 HI 1 CL 698.00 696.00 288.27 288.27 N, CLZ2. NORTHERN KNOT 1 GEK l. 00* 0.41* B ON DIFFERENT SCALES (N II ) 1 CL 166.00 166.00 67.97 1 GEK 0,28* 0.11* END 10t» ( 7t».4 -0.6) (S III) 1 A7.-?I C = 0.15 (RELATED STARS) WAVE IPENT N RQ. RfF AYE Q COBP I AVE C C = 3.10 (HYDROGEN LINES) 1 2 J 53 1.00* 0. 89* 1 3 J53 1.00* 0.89* WAVE IPENT N RG REF QBS I AVF n CORR .4-, J53 1.00* Q.89* 3727 (0 II ) 1 MAT 62.00 521.86 J 53 1.00* 0.89* 4861 I 1 MAT 100.00 100.00 100.00 100.00 6 J53 1.00* 0.89* 4959 (0 III ) 2 MAT_ 6 « QQ 5« 16 J 53 1.00* 5007 (0 III) 2 MAT 6.00 4.78 l 8 J 53 1.00* 0.89* 6563 H I 1 MAT 3012.00 3012.00 283.47 283.47 (N II ) l 2 J53 0. 15* 0. 13* . .6584 LN II ) 1 MAI— 762« QQ 762.00 70,02 70.02 1 3 J 53 0.31* 0.28* 7324 (O II ) 1 MAT 1 4 J 53 0.39* 0.35* 1 5 J53 0.28* 0.25* END S 61 ( 26.3 _I fc-J-5.3 0.34* Ql. 30* 7 J 53 0. 44* 0.39* l 8 J 53 0.34* 0.30* _LS 11 ). _J ¿ J53 0- 18* Q. 16* C = 0.85 (HYDROGEN LINES) 4 J53 0. 17* 0. 15* 5 J 53 0.22* 0.19* 3727 (0 II ) l MAT 143.00 256.45 1 7 J53 0.22* 0. 19* 4861 H I 1 MAT 100.00 100.00 100.00 100.00 1 8 J53 0.33* 0.29* 4959 _L0 I II ) 2 MAT m3A.no 993.99 _J 4. .15 3 0. 14* 5007 (0 III) MAT 1036.00 973.58 6 J 53 0.45* 0.40* 6563 H I MAT 2365.00 2365.00 1237.12 1237.12 7 J53 0. 19* 0. 17* _LN IT ) 1 598.00- ._5aa^QQ. 310.76 310.76- 7324 (O II ) 1 MAT 28.00 REGION KEY (PEG I ON PEFE RENC F,EXPLANAT ION) 2, J 53 . RA 22H f29.1M, NEPULA AROUND 10 LAC END S U ( 36.0 -1.0) 3. J 53 . PA 22H 27.OM. NFBU1A AROUND 10 1 AC 4t J53 , RA 2 2H 26.9M, NEBULA AROUND 10 LAC 5t J 53 , RA ?2H 26.9M, NEBULA AROUND 10 LAC 6. .153 . RA M 30.AM. NFRIIIA ARHIIMn 90 ( 63.2 0.4) C = 1.90 (HYDROGEN LINES) J53 » RA 22 27.OM, NEPULA AROUND 10 LAC J53 , RA 22H 33.5M, NIPULA AROUND 10 LAC WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 4861 H I B CLZ2 100.00 100.00 100.00 100.00 ( 95.4 -16.8) 4991 (0 III) B CLZ 2 230.00 230.00 203.43 203.43 6563 _H L J S CLZ2- 1220-00 1220.00 286.67 286-62 6575 (N II ) l B CLZ2 650.00 650.00 151.43 151.43 6723 (S II ) 1 B CLZ2 180.00 180.00 38.22 38.22 0.70 (HYDROGEN LINES) REGION KEY (REG ION,REFERENCE,EX PL ANAT I ON) WAVE N PG REF DBS I AVE C CORR I AVF C B, CLZ2, BRIGHT PART,2.5 ARCMIN NNE OF STAR 4861 1 W CLZ2 100.00 1 CO.00 100.00 100.00 6563 1 W CLZ2 485. 00 485.00 284.44 284.44 6575 (N I I ) l W CLZ2 400.CO 400.00 233.86 233.86 6723 (S (1)1 W CLZ2 210.00 210.00 118.65 118.65 PEGICN KEY (PEGION,REFERENCE,EXPLANATION) 0.0 (NO CALCULATION) W, CLZ2, WESTERN EDGE WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 4861 H I 1 CGLZ 100.00 100.00 100.00 100.00 4959 (0 111)2 CGLZ 800.00 800.00 5007 (O I 11 ) 2 CGLZ 800.00 -1.1 ) C = 1.70 ( HYDROGEN LINES) END S 95 ( 65.9 WAVE IDENT N RG REF DBS I CORP I 3727 (O II ) l MAT 165.00 530.68 4861 H I 1 CGLZ 100.00 100.00 = 2.18 (HYDROGEN L INES) i CLZ2 100.00 100.00 100.00 100.00 1 MAT 100.00 100.00 100.00 100.00 -HAVE IPENT N RG REF QB.S I . AYE 0 CORR I AY£.C III) 2 CGLZ 30.00 27.62 3727 II )l MAT 71.00 317.58 2 MAT 18.00 16. 57 4861 I 1 F CLZ2 100.00 ICO.00 100.00 100.00 4991 (0 I I I ) 1 CLZ2 35. CO 31.36 (4AI 100.00 inn.on 100.00 100.00 5007 (P III) 7 CGLZ 30.00 26. 49 4959 (0 III )2 MAT 508.00 456.83 2 MAT 18.00 15. 90 4991 1 E CLZ2 125.00 125.00 108.58 108.58 (O I II ) 5876 HF I 1 CLZ 2 20. 00 20. 00 8.63 8.63 5QQ7 _LQ 1111 2 tlAI 508.00 433.16 6563 HI 1 CI 7 7 63 5. 00 1063.QQ 173.76 29Q.37 1 E CLZ 2 1470.00 1489.00 278.97 282.58 l MAT 149 1.00 1063.00 407.98 290.87 1 MAT 1508.00 1489.00 286.19 282.58 6575 1 CLZ2 450.00 450.00 122.21 122.21 II I I MAI 703.00 703.00 37-88 37.88 6584 MAT 498.QQ 498.00 134.49 134.49 6723 II ) 1 E CLZ2 170.00 170.00 28.72 28.72 6723 (S II ) 1 CLZ2 180.00 180.00 44. 99 44.99 7324 IT ) 1 MAT 18.00 18.00 2.06 2.06 7324 (0 II ) 1 MAT 13.00 13.00 2.40 2.40 REGION KEY (REG I ON,REFERENCE,EXPLANAT ION) E, CLZ2, H-ALPHA CONDENSATION 653 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued < lQft.4 -^1,01 1-30 (HYDRnKFN I INFS! BEGIN S LB7 . (126.7 O^Q (NO CALCULATIDN) WAVE TOENT N RG REF WAVE IDENT N RG REF OBS I CORR I -4861 H I 1 CLZ2 -1QQ.QQ LQQ.QQ 1QQ.Q0 1QQ.QQ 6563 _L JL GEK l.QQ* l.QQ* CLZ 2 770.00 285.82 6584 (N II ) 1 0.33*A 0.33*A GEK I.00* 0.37* IN Till CLZ2 -38Q.QQ 380.00 140.24 187 (126.7 -0.8) 6584 11)1 GEK 0.33*A 0.12*A 6723 II ) 1 CLZ 2 300.00 300.00 103.90 103.90 -1.0) 1.60 (HYDROGEN LINES) WAVE IDENT N RG REF QBS I AVE □ CORR I CGLZ 100.00 100.00 100.00 100.00 152 (108.7 -0.9) C = 2.10 (HYCI^OGEN LINES) l NO CLZ2 100.00 100.00 100.00 100.00 _UL nn 2 cGLz 450.00 ^16« 27 - WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 4991 (O I II ) i NO CLZ2 600.00 541.08 541.08 3727 (C II ) 1 MAT 124.00 524.98 5007 (0 III) 2 CGLZ 450.00 400.32 434Q _tí I J CLZ2 45.00 85.61 A 5876 HE I 1 NO CLZ2 60.00 60.00 27.21 1 CGLZ 100.00 100.00 100.00 100.00 6563 1 NO CLZ2 970.00 970.00 286.45 286.45 1 CLZ2 100.00 100.00 100.00 100.00 6575 ) 1 NO CLZ2 90.00 90.00 26.39 26.39 _I GEK -100« QQ 100.00 -LQ.Q. 00 - JL .00.00 MAT 100.00 100.00 REGION KEY (REG I ON,REFERENCE.EXPLANATION » CGLZ 140.00 126.39 NO, CLZ2, NEAR 05 STAR MAT 62.00 55.97 4991 (n ii CLZ 2 180.00 180.00 157.16 5007 (0 II CGLZ 140.00 120.08 _GEK_ -1QO.CO . -a¿..zz a 2 MAT 62.00 53. 18 5876 HE I 1 CLZ2 40. 00 40.00 14.17 14.17 BEGIN S 1.25 (HYDROGEN LINES) 6563 _tí I— _L CLZ2 -59Q.QQ 1474.50 119.Q1 297.42 l MAT 2359.00 1474.50 475.84 297.42 WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 6575 (N ) 1 CLZ 2 350.CO 350.00 69.95 69.95 4861 H I l CLZ2 100.00 1 00.00 100.00 100.00 6584 IN ) 1 MAT 809.00 160.56 160.56 6563 H I _1 CLZ2 749.^0 740.00 -285,35 293,35 6723 ( S II ) 1 CLZ2 110.00 19.84 6723 (S II ) 1 CLZ 2 220.00 79.37 6678 HE I 1 CLZ 2 10.00 1.86 A _ 713 5- (AR..1L10 1 CLZ2 30.QQ 4.17 A END S 2Ü3 (151.4 2.Q) ) 1 CLZ2 20.00 2.48 A 1 MAT 127.00 15.76 2.5) C = 2.10 (HYDROGEN LINES) WAVE.. IDENT N RG REF QBS AVE C CORR I AVE C 4861 H I 1 CLZ 2 100.00 100.00 100.00 100.00 1.38 (HYDROGEN LINES) 6563 H I 1 CLZ2 1420.00 1420.00 286.43 286.43 6575 LN II ) I CLZ2- 1 nnn.nn ionn.no 199.85 199.85 WAVF IDENT N PG REF OBS I AVE C CORR I AVE C 6723 (S II ) 1 CLZ2 275.00 275.00 4861 HI 1 CLZ 100.00 100.00 100.00 100.00 ] A Cl 7? -100.00 1 00.00 END S 2_Li U-5A.6 2.5) GER 100.00 100.00 4959 III» 2 CLZ 130.00 121.55 -4.991 ■ 1LU 1 A CLZ2 140.00. 128.Q6 5007 (P 111)2 CLZ 130.00 117.52 C = 1.11 (RADIO-H BETA) 6563 H I 1 A CLZ2 800.00 825.50 279.38 288.29 -851.00 825.50 297. 19 288.29 N PG REF AVF r l A GEK 1.00* 0. 35* 3727 ) 1 MAT 119.00 255. 16 6575 11)1 A CLZ2 440.00 152.73 4861 1 CLZ2 100.00 100.00 100.00 100.00 6584 M ) 1 A GO 0.37» Q.13* _L_ MAT 100.00 100.00 -IQQ.flfl LQQ.QQ 6717 (S II ) 1 B GEK 1•30*A 0.42*A 4959 III) MAT 276.00 261.48 6723 (S II ) 1 A CLZ2 150.00 48.67 4991 III) CLZ 2 320.00 297.86 6731 (s I I ) l B GEK 1.00* 0. 32* 5007 TIT) ? MAT 276.00 254.49 6563 I 1 CLZ2 610.00 820.50 261.72 352.03 REGION KEY (PEG I ON,REFERENCE,EX PL ANAT ION ) 1 MAT 1031.00 820.50 442.34 352.03 A, CLZ2, BRIGHT KNOT 6575 (N II ) 1 CLZ2 85.00 85.00 36.29 36,29 GEK , REGIONS A AND B CN DIFFERENT SCALES 6584 (N II ) 1 MAT 64.00 64.00 27.22 27.22 6723 (S II ) l CLZ2 50.00 50.00 20.22 20.22 _ JND S 157 (111.3 -0.7) 7324 (O II ) 1 MAT 25.00 25.00 8. 30 3.30 1.10 (HYDROGEN L INES) WAVE IDENT N RG REF OBS I AVE O CORR I C = 2.20 (HYDROGEN LINES) 4861 I l CLZ2 100.00 100.00 100.00 100.00 499 1 III) CLZ2 75.,00 75.00 69.86 69.86 WAVE IDENT N RG REF OBS I AVE O CORR I AVE C 6563 CLZ2 660..0.Q 66Q.QQ 265.34 285.34 4861 __1 CLZ2 100.00 100.00 100.00 100.00 6575 (N ) 1 CLZ 2 350.00 350.00 150.58 150.58 6563 H I 1 CLZ 2 1530.CO 1530.00 285.97 285.97 6723 (S ) 1 CLZ2 150.00 150.00 61.16 61.16 END S 222 (165.3 ~9.Q) BEGIN S 232 (173.5 3.2) C = 0.0 (NO CALCULATION) C = 1.40 (HYDROGEN LINES) WAVE IDENT N RG REF OBS I AVE G CORK I AVE C WAVE IDENT N RG REF DBS I AVE O CORR I AVE C 6563 GEK 1.00* 1.00* 4861 H I 1 CLZ2 100.00 100.00 100.00 100.00 6584 GEK 0.33*A 0.33*A -6-56.3 tí I ] CLZ2 830.00 830.00 285.47 285.47 6575 (N I ) 1 CL Z 2 450.00 450.00 153.82 153.82 3.2) 6723 (S II ) 1 CL Z 2 250.00 250.00 79.81 79.81 BEGIN S 235 (173.6 C = 0.0 (NO CALCULATION) WAVE IDENT N RG REF OBS I CORR I BEGIN S C = 1.60 (HYDROGEN LINES) 6563 HI 1 A GEK 1.00* 1.00* 6584 (N II ) 1 A GEK 0.29» 0_t_29*_ WAVE IDENT N RG REF OBS I AVE O CORR I AVE C 6717 (S II ) 1 B GEK 1.30* 1.30* 4861 H I I CLZ2 100.00 lCO.00 100.00 100.00 6731 (S II ) 1 B GEK 1.00* 1.00* 4991 (_Q I IQ 1 ÇLL2-. 45.00 45.00 40.58 40.58 6563 H I 1 CLZ2 970.00 970.00 286.45 286.45 REGION KEY (REG I ON,REFERENCE,EX PL ANAT ION) 6575 (N II ) L CLZ2 570.00 570.00 167.14 167.14 A , GEK , REGIONS A AND B ON DIFFERENT SCALES 6723 LS II ) 1 CLZ2 220.QQ 22Q.ÛQ 59.66 59.66 654 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued BEGIN S 0.0 (NO CALCULATION! S 2JL5 {192.6 Q.Q) WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C CH 1.2 ARCMIN W OF CENTRAL STAR, .15 ARCMIN S OF RG J 6563 H I 1 A GEK 1.00» 1.00» GEK MAXIMUM VALUE FOR 5007 6584 (N II I 1 A GEK 0.32» 0.32* GEK , REGIONS A AND B ON DIFFERENT SCALES 6717 (S II ) 1 B GEK 1.25» 1.25* 6731 (S II I 1 B GEK 1.00* 1.00* S 255 tlQ?.6 Q.Q) REGION KEY (REG ION,REFERENCE,EXPLANAT ION) A , GEK , REGIONS A AND B ON DIFFERENT SCALES C = 1.28 (RADIO-H BETA) 254 (192.5 WAVE IDFNT N RG REF oes I -AVE Q CORR I AVE C 3727 (0 MAT 100.00 240.99 4861 A CH 100.00 100.00 100.00 100.00 255 (192.6 1.54 (RAD 10—H BETA) B CH 100.00 100.00 100.00 100.00 C CH 100.00 100.00 100.00 100.00 WAVE IDENT N RG REF OBS I CORR I D CH 100.00 100.00 100.00 100.00 3727 (0 II ) 1 MAT 112.00 322.. 71 CH 100.00 100.00 100.00 100.00 CGLZ 100.00 100.00 100.00 100.00 F CH 100.00 100.00 100.00 100.00 CH 100.00 100.00 100.00 100.00 CLZ 2 100.00 100.00 100.00 100.00 _£H 100.00 100.00 ioa^Q.0- IQQ.QQ MAT 100.00 100.00 100.00 100.00 C CH 100.00 100.00 100.00 100.00 4959 (0 III ) 2 MAT 16.00 15.03 D CH 100.00 100.00 100.00 100.00 5007 (O I II ) 2 MAT 16.00 14. 57 1 no-no I no.QQ ino-oo 1 no.on -6548 -LU ¡I ) 1 A CH I5.aQQ 96.67 28.47 . —36.69— CH 100.00 100.00 100.00 100.00 1 D CH 130.00 96.67 49.34 36.69 G CH 100.00 100.00 100.00 100.00 l E CH 85.00 96.67 32.26 36.69 ,H CH IfliJuuQfl IQQ.QQ 100.00 100.00 -6563 -I L_ A CH 660.00 733.63 248.75 -276.SO.. I I CH 100.00 100.00 100.00 100.00 B CH 715.00 733.63 269.48 276.50 1 J CH 100.00 100.00 100.00 100.00 C CH 670.00 733.63 252.52 276.50 _1 K CH -LQQ.Qfl IQQ.QQ 100-00 IQQ.QQ D CH 685.00 733.63 258. 17 276.50 CLZ2 100.00 100.00 100.00 100.00 E CH 605.00 733.63 228.02 276.50 GEK 100.00 100.00 100.00 100.00 F CH 665.00 733.63 250.63 276.50 MAT 1QQ.QQ- ico.oo IQQ.QQ 100.00 CLZ2 685.00 733.63 258.17 .276.50 III ) 2 CGLZ 40.00 37. 11 1 GEK 1.00» 0. 38* H CH 15.00 13.92 1 MAT 1184.00 733.63 446.24 276.50 MAT 25, QQ_ 23. 19 II 1 1 CLZ 2 480.00 480.00 —L79.89 179.89 4991 (0 III ) 1 CLZ2 45.00 40.74 (N II ) 1 A CH 235.00 283.33 87.70 105.73 5007 (0 III ) 2 CGLZ 40.00 35. 74 C CH 200.00 283.33 74.64 105.73 40.00 35.74 0 CH 375.00 283.33 139.94 - 105.73 1 C GEK 40.00 35.74 E CH 250.00 283.33 93.29 105.73 2 MAT 25.00 22.34 F CH 260.CO 283.33 97.03 105.73 _LN 11)1 A CH 130.00 130.00 40.53 A GFK Q.36»A Q-.13*A_ CH 160.00 130.00 49.88 40.53 MAT 380.00 141.81 C CH 145.00 130.00 45. 21 40.53 ( S 11)2 A CH 265.00 93.52 £ CH- 135.00 1 30.00 42.09 40.53 195^00 —68.8? G CH 80.00 130.00 24.94 40.53 270.00 95.29 A CH 945.00 768.33 292. 13 237.51 210.00 74.11 1 R CH 890.QQ 768.33 275. 12 237.51 280.00 -98.82 - C CH 960.00 768.33 296.76 237.51 2 CH 245.00 86. 46 D CH 435.00 768.33 134.47 237.51 1 GEK 1. 10*A 0.39*A E CH 765.00 768.33 236.48 237.51 II ) 1 Cl /? 715.CO 75. AQ F CH 1015.00 768.33 313.76 237.51 II ) 2 A CH 265.00 92.98 G CH 505.00 768.33 156.11 237.51 2 B CH 195.00 68.42 CLZ2_ 5Q5.Qfl_ 768.33 156.11 237.51 2_ C CH 210.00 —94.74 - GEK 1.00* 0.31* D CH 210.00 73.69 1 MAT 895.00 768.33 276.67 237.51 E CH 280.00 98.25 6575 -LN_. _L_L_ ■■C-LZ2- 35Q.Q3 350.00 lQI«-46 1Q7 >46 F r.H 745.00 85.97 6584 II ) l CH 440.00 339.38 134.41 103.67 GEK 1.00* 0. 35* l CH 470.00 339.38 143.57 103.67 ( C 11)1 MAT 6.00 1.68 1 CH 440.00 339.38 134.41 103.ö7 1 CH 240.00 339.38 73.31 103.67 REGION KEY (REG ION,RFFERENCE,EX PLANATI ON) l CH 410.00 339.38 125.24 103.67 A, CH , 1.2 ARCMIN w OF CENTRAL STAR L_ 305.00 339.38 . 93jt_1.7„ 10-3-1-67 8. CH , .4 ARCMIN W OF CENTRAL STAR G CH 240.00 339.38 73.31 103.67 C, CH , 1.25 ARCMIN W CF CENTRAL STAR A GEK 0.37* 0. 11* D, CH , .5 ARCMIN E OF CENTRAL STAR MAT 17Q.CQ 3J3..23 5U93 1Q2_«.67 E, CH, 1.35 ARCMIN W OF CENTRAL STAR A CH 345.00 98.54 CH 1.0 ARCMIN E OF CENTRAL STAR B CH 300.00 85.69 GEK REGIONS A AND B ON DIFFERENT SCALES C CH ¿15.OQ 6U41 D CH 220.00 62.84 E CH 140.00 39.99 F CH 185.00 52.84 G CH 155.00 44.27 H CH 120.00 34.27 1.00 (HYDROGEN L INES) I CH 165.00 47. 13 CH 205.00 58.55 WAVE IDENT N RG REF OBS I CORR I CH 235.00 67. 12 3727 (O II ) 1 CL 100.00 198.81 GEK .26». 0.36» 4101 H I 1 CJ- 12.10 18.95 6723 ( S II ) 1 CLZ2 120.00 34. 17 4340 CL 30. 30 30.30 41.16 41.16 6731 ( S II ) 2 CH 345.00 97. 86 4861 CL 100.00 ICO.OO 100.00 100.00 B CH 300.00 85.09 1 WS CLZ2 IQQ.QQ IQQ.QQ IQQ.QQ IQQ.QQ C CH 215.00 60.98 6548 (N S CL 9.00* 4.22* D CH 220.00 62.40 6563 H S CL 100.00* 46.66* E CH 140.nn 39.71 WS CLZ2 400,00 400.00 186.63 186.63 F CH 185.00 52.47 1 A GEK 1.00* 0.47* G CH 155.00 43. 97 6575 (N ) 1 WS CLZ2 200.00 200.00 92.90 - H CH 12Q.QQ. 34.04 6583 (N ) 1 S CL 35.00* 16.21* I CH 165.00 46. 80 1 A GEK 0.28* 0.13* J CH 205.00 58. 15 6717 (S ) l P GEK 1.60*A 0.71*A K CH 235.QQ 66.66 6723 LS_ ) 1 IwS CLZ2 2Q.Q.QQ ZÜQ.QQ 88.47 88.47 GEK 1.00* 0. 28* 6731 (S I I ) 1 R GEK (0 II ) 1 MAT 8.00 1.73 RFGICN KFY ( R FG I ON. R FFF R FNf. F . F X PI AN AT I ON ) REGION KEY (REG ION,REFERENCE,EXPLANATION) S, CL , SCALE DIFFERENT FROM BLUE A, CH , 1.2 ARCMIN W OF CENTRAL STAR WS, CLZ2, 5 ARCMIN SOUTHWEST OF STAR 6, CH , -L.Q ARCMIN H QF CENTRAL STAR A . GEK , REGIONS A AND B ON DIFFERENT SCALES CH , .50 ARCMIN W OF CENTRAL STAR CH , 1.45 ARCMIN E OF CENTRAL STAR CH . .65 ARCMIN W OF CENTRAL STAR CH , .5 ARCMIN W OF CENTRAL STAR, .15 ARCMIN S OF RG C CH , 1.1 ARCMIN E OF CENTRAL STAR CH . .5 ARCMIN E OF CENTRAI STAR CH 1.0 ARCMIN E OF CENTRAL STAR, 15 ARCMIN S OF RG G CH 1.2 ARCMIN W OF CENTRAL STAR 655 © American Astronomical Society • Provided by the NASA Astrophysics Data System TABLE 8—Continued 197 6ApJS. . .31. 264 { 195.1 . C = 1.64 (HYDROGEN LINES) 271 ( 197.8 -2..3 ) WAVE IDE NT N RG REF OBS I CORR I WAVE IDENT N RG REF OBS I CORR I 3 72 7 < 0 11)1 1 J53 78.00 240.73 6731 (S II I 1 B GEK 1.00» 1.00* 2 J 53 58.00 179.01 1 J 53 100.00 1 00.00 100.00 100.00 REGICN KEY IREG ION.REFERENCE» EX PLANATION I 2 J 53 100.00 100.00 1 Qfl »..QQ 1QQ.QQ A . GEK , REGIONS A AND B ON DIFFERENT SCALES 1 J 53 1020.00 1010.00 292.17 289.30 1 2 J 53 1000.00 1010.00 286.44 289.30 (N I I ) 1 1 J 53 214.00 l92.t0Q _60.t_£2 ÎH.30 . I 2 J53 170.00 192.00 48.0 54.30 II ) 1 1 J 53 87. 00 93.50 22.91 24.62 L_ 2 J53 100.QQ 93.50 .-26.33_ 24.62 . BEOIN S 272 U97.8 -2.3) , Q.90 (HYDROGEN LINES! 1 J53 100.00 85.50 26. 14 22.35 2 J 53 71.00 85.50 18.56 22.35 WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 4861 H I 1 CLZ2 100.00 100.00 100.00 100.00 REGICN KEY (PEG IDN»REFE RENCE»EXPLANAT ION ) 6563 H I 1 CLZ 2 565.00 565.00 284.50 284.50 1, J53 , RA 5H 25.9M, NEBULA AROUND LAMBDA ORI 6575 (N II ) 1 CLZ2 340.00 340.00 170.52 170.52 21 J 53 t RA 5H 33.3M, NEBULA ARCUND LAMBDA ORI 6723 (S II ) 1 CLZ2 230.00 230.00 110.39 110.39 BEGIN S _263 t 196t4 -1.7) 1.65 (RADIQ-H,„ALTAI BEGIN S 280 (208.7 -2.6) .JLlQ (NO CALCULATION) WAVE IDENT N RG REF OBS I AVE 0 CORR I WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C -3-12 7 _LG II ) 1 MAT 154.00 478.-iZ_ 6563 H I 1 GEK 1.00* It.OQ* CGLZ 100.00 100.00 100.00 100.00 6584 (N II ) l GEK 0.33*A A CH 100.00 1 00.00 100.00 100.00 B CH 100.00 100.00 100.00 100.00 END S 280 (208.7 -2.6) C CH 100.00 100.00 100.00 100.00 D CH 100.00 l00.00 100.00 100.00 E CH 100.00 1QQ.QQ 1Q0.QQ . 10.Q.QQ CH 100.00 100.00 100.00 100.00 C = 0.0 (NO CALCULATION) CLZ2 100.00 1 00.00 100.00 100.00 GEK 1QQ.QQ i CO. on -1QQ.Q0 -100.00 WAVE IPENT N_JiS—B.E.F. OBS I AVE Q CORR . I AVE C MAT 100.00 100.00 100.00 100.00 6563 GEK 1.00* 1.00* (O I II ) 2 CGLZ 40.00 36.91 6584 (N ) 1 GEK 0.33*A 0.33*A CH 15.00 1 5. QQ 13.84 13.84 671 7 LS— ) 1 GEK 1.50»A. 1.50»A MAT 56.00 51.68 6731 (S II ) 1 B GEK 4991 ( n 11 n i CL72 45.00 40.45 5007 (0 i n ) 2 CGL7 40.00 35.45 REGICN KEY (REG ION.REFEREMCE.EX PLANAT ION) A CH 35.00 29.00 31.02 25.70 REGIONS A AND B ON DIFFERENT SCALES B CH 30. 00 29.00 26. 59 25.70 E CH 25.QQ 29.00 22.16 25.70 GEK 26. 00 23.05 2 MAT 56. 00 49.64 II J L- A CH 7Q..QQ 20.08, B CH 65.00 80.00 18.65 22.95 C = 1.50 (ESTIMATE) F CH 75.00 80.00 21.51 22.95 F CH 1 IQ.00 80.00 3) . 56 22.95 N RG REF OBS I AVE Q CQRR I CH 660.00 755.71 187.61 214.82 6563 1 J53 1.00* 0.32* 8 CH 600.00 755.71 170.56 214.82 6584 II ) 1 J53 0.21* 0.07* C CH 655.00 755.71 1B6. 19 214.B2 671 7 Till .153 0.30* 0.09» CH 600.00 755.71 170.56 214.82 CH 635.00 755.71 180.51 214.82 CLZ2 660.00 -7-55-. 71 187.61 ¿14.82 GEK l.CO* 0. 28* MAT 1480.00 755.71 420.71 214.82 6575 (N CLZ2 325.00 325.00 91.71 91.71 BEGIN SE C = 1.50 (ESTIMATE) 6594 (N CH 255.00 254. 57 71. 57 71.45 CH CH 200.00 254.57 210.00 254.57 56. 13 58.94 71.45 WAVE IDENT N RG REF □ BS I CORR I AVE C 71.45 6563 H I D CH 270.00 254. 57 75. 78 71.45 6584 (N II ) _1l J53 J53 1»QQ* 0.23* Q« 32* 0.07* E CH 195.00 254.57 54.73 71.45 6717 ( S II ) 1 J 53 0.12* 0.04* F CH 315.00 ¿54.57 «-41 71.45 6731 II ) 1 J 53 0. 14* 0.04* GEK 0. 43* 0. 12* 1 MAT 337.00 94. 58 ( S 11)2 A CH 120.00 31.34 B CH 100.00 26. 12 C CH 1 85.00 48. 32 Q CH 285.00 74.43 C = 1.50 (ESTIMATE) CH 115.00 30. 03 CH 22 5 .,00 58. 76 WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C GEK 1.40*A - .QjJi7*A 6563 H I 1 1 J 53 1. 00* 0.32* 6723 ( S II ) 1 CLZ2 120.00 31.24 l 2 J 53 1.00* 0.32* 6731 ( S 11)2 A CH 120.00 31.11 1 3 J 53 1.00* 0.32* 2_ B CH 100.00 25.92 ) 1 1 J53 .Q*42*... Q. 13* C CH 185.00 47.96 l 2 J 53 0.29* 0.09* D CH 285.00 73. 88 l 3 J53 0.21* 0.07* E JCH. .-115«.QQ 29. 81 (S II) 1 3 J53 0.25* 0.07* 2 CH 225.00 58. 33 1 GEK 1.00* 0. 26* REGICN KEY (REGION,REFERENCE,EXPLANATION) ...132.4- 11)1 MAT 17.QQ 3. 30 3.3Q 1, J53 , RA 21H 57. 1M 2, J53 , RA 22H 06.6 REGICN KEY (PEG IDN,REFERPNCE,EXPLANAT ION ) 3, J53 , RA 22H 00.5 _£H . .35 ARCMIN NE OF CENTRAL STAR 8, CH .50 ARCMIN NNE OF CENTRAL STAR (103.3 C, CH .45 ARCMIN W OF CENTRAL STAR Dt CH 1.2 ARCMIN NE OF CENTRAL STAR CM .40 ARCMIN NNE OF CENTRAL STAR F , CH .45 ARCMIN W OF CENTRAL STAR, .10 ARCMIN S OF REGION C (204.4 -13.7) C = 0.0 (NO CALCULATION) A . GEK REGIONS A AND B ON DIFFERENT SCALES WAVE IDENT N RG REF OBS I CORR I AVE C 6563 HI l PA 1.00* 1.00* 6584 LU III 1 ELâ 0.23* 0.23* P.FGIN R (197.8 -C = 0.0 í NO CA) rill ATTON) WAVE IDENT N RG REF OBS I CORR I 6563 _h I 1 A G.E-K- 1.00* 1« QQ* 6584 (N II ) 1 A GEK 0 .42* 0.42* 6717 (S I I ) 1 P GEK I.50*A 1.50*A 656 American Astronomical Society • Provided by the NASA Astrophysics Data System TABLE 8—Continued © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued EXTRAGALACTIC DIFFUSE NEBULAE (LHC WAVE IDENT N RG REF □BS I AVE 0 CORK I AVE C 30 (LHC ..»♦C = Q,lfr (HYPROGEN LINES) 3889 HE I 2_ l ÂFF 13.80 ■ 15.1* FE 26.00 28.52 WAVE IDENT N RG REF DBS I AVE 0 CORR I AVE C A J059 38.00 »1.69 3554 HE I 1 WA 0. 10 0.10 0.11 0.11 B J059 »8.00 52.66 3587 HE I WA 0.30 0.30 0.34 0.34 C J059 »2.00 »6.07 3614 HE I WA 0.30 0.30 0.34 0.34 D J059 38.00 41.69 3634 HE I WA 0.40 0t*0. 0.45 Qt»5 WA 16.50 18. 10 3674 I 0.13 0.13 0.15 0.15 (NE III) 1 1 AFF 7.90 8.07 8.60 8.78 3676 I 0.25 0.25 0.28 0.28 1 FE 11.00 8.07 11.98 8.78 3679 __H I_ 0.42 0.42 0.47 0.47 2 A J059 40.00 »3.56 3682 WA 0.51 0.51 0.57 0.57 B JO59 66.00 71.87 3686 WA 0.56 0.56 0.63 0.63 C J059 56.00 60.98 3691 0.81 0.81 0.91 0.91 D J059 50.00 5».»5 3697 H I WA 0.98 l. 10 WA 5.30 8.07 5.77 8.78 3704 H I WA 1.75 1.96 1 AFF 14.50 13.»3 15.79 14.62 3705 HE I 1.75 1.96 FE 16.00 13.43 17.42 14.62 3711 H I WA 1.35 1.51 A J059 40.00 43.55 3722 H I WA 3.85 4.30 B J059 66.00 71.85 3722 (S III) WA 3.85 *t3Q 2 C JP.59 ., 56.00 99*96 1 AC KB 93.00 103.82 D J059 50.00 54.43 1 l AFF 49.00 54.70 WA 9.80 13.43 10.67 14.62 1 A AFF lOUOO US* 49 »009 HE I WA 0.20 9*20 ■ _9.*22- 0*22 1 B AFF 111.00 141.21 HE I 1 1 AFF 1.50 3.46 1.62 3.75 1 C AFF 86.00 89.62 1 FE 3.00 3.46 3.25 3.75 _J D AFF 203.00 -2*6.11. _L A JQ59 10.00 3 *.*6. - 10.83 _3.J.I5. 1 E AFF 170.00 170.00 B J059 3.00 3. 3.25 3.75 1 F AFF 167.00 182.62 C J059 3.00 3.46 3.25 3.75 _J G_a,lf_ 183.90 199*71 -J P JQ59 2.00 3*46 - 2.17 3.75 H AFF 219.00 219.00 WA 1.73 3.46 1.87 3.75 FE 102.00 113.87 (S II ) 1 1 AFF 0.90 1.57 0.97 1.69 A FE 1.00* 1.12» _1 A JQ59 3.99 1.57 3.23 1.69 l B FE 1.00* 1.12* B J059 3.00 1.57 3.23 1.69 1 C FE 1.00* 1.12* C J059 1.00 1.57 1.08 1.69 I R1 FE -JL» 0.9* 1.12* ■D J.Q3.9- 1.99 1.57 1.08 1.69 1 R2 FE 1.00* 1.12* 2 1 PTP2 1.24 1.34 l R3 FE 1.00* 1.12* 1 WA 0.51 0.55 R4 FE 1.00* . 1.12» II ) 2 1 PTP2 1.24 1.34 1 A J059 211.00 235.55 WA 0.26 0.26 0.28 0.28 1 B J059 113.00 126.15 AFF 22.80 29.33 24.50 31.51 _1 C JP59 .135.00 150.71 _E£ 30. QQ 29.33 32.73 31.51 1 D J059 163.00 181.96 A J059 34.00 29.33 36.53 31. 51 2 1 PTP2 64.00 71.45 B J059 38.00 29.33 40.83 31.51 _2 2 PTP2 1120.QQ 1250.30 C JQ59 43.00 29.33 46-20 31.51 2 3 PTP2 170.00 189.78 D J059 37.00 29.33 39.75 31.51 2 4 PTP2 170.00 189.78 MA65 24.00 29.33 25.79 31.51 _1 kLA 58.00 A 64.75 A 1 PTP2 ..22.0.0— 29.33 23.64 31.51 1 1 AFF 52.00 53.03 2 PTP2 23.00 29.33 24.71 31.51 l FE 98.00 109.37 WA 19.50 29.33 20.95 31.51 A FE 0.95* 1.06* WA 0^15- 0.15 Q. 16 0-16 1 B FE 1.26* 1.41* 4143 HE I 1 0.18 0.18 0.19 0.19 1 C FE 1.05* 1. 17* 4267 C II 1 0.07 0.07 0.07 0.07 1 R1 FE Q-9a*A .1. Q9*A 4340 _H I L_ 42.30 48.89 44.42 51.29 1 R2 FE 0.71* 0.79* 1 AFF 42.00 48.89 44.11 51.29 1 R3 FE 1.15* 1.2 8* A AFF 42.00 48.89 46.75 51.29 1 R4 FE 1.35*A 1.51*A B AFF 42.00 4B.89 46.75 51.29 1 PTP2 64.00 71.42 AFF 46.00 48.89 46.85 51.29 2 PTP2 120.00 133.92 AFF 43.00 48.89 46.85 51.29 3 PTP2 170.00 189.72 AFF 48.00 48.89 48.00 51.29 4 PTP2 170.00 189.72 AFF 45.00 48.89 46.83 51.29 WA 60.00 66.96 AFF 46.00 48.89 46.85 51.29 WA 2.11 2. 11 2.35. 2.35 AFF 47.00 48.89 471 QQ 51*.29_ 3750 2.80 2.80 3.12 3.12 FE 56.00 48.89 58.81 51.29 2.81 2.80 3.13 3.12 J059 61.00 48.89 64.06 51.29 . 3770 1_J AFF 3.00 2.22 3.33 2.47 J059 61.00 48.89 64.Q6 51.29 B 1 J059 2.00 2.22 2.22 2.47 C J059 62.00 48.89 65.11 51.29 C 1 J 05 9 1.00 2.22 l.ll 2.47 D J059 68.00 48.89 71.41 51.29 D 1 J059 2-00 2.22 2.22 2.47 HA 65 44.00 48.89 -4_6_._2_L_ 51.29 WA 3.10 2.22 3.44 2.47 1 PTP2 42.00 48.89 44.11 51.29 1 AFF 3.90 4.08 4.32 4.53 2 PTP2 43.00 48.89 45.16 51.29 A J059 B .00 4.08 8.87 4.53 48.70 48.89 51.15 51.29 l B J059 2.00 4.08 2.22 4.53 (0 III) 1 AC KB 2.80 3.21 2.93 3.37 1 C J 059 2*00 4.08 2.22 4. 53 1 1 AFF 3.70 3.21 3.88 3.37 1 D J 059 WA 4.00 *08 * 53 L_ FE i t 5_Q_ 3.21 ■3*£I_. « 3.7 .60 4.08 5.10 4.53 1 PTP2 3.26 3.21 3.42 3.37 l AFF 0.70 0.82 0.77 0.91 2 PTP2 3.01 3.21 3.15 3.37 0.95 C . 82 1.05 0.91 WA 3.00 3.21 3*1.4 . 1 AC KB 5.50 8.51 6.07 9.40 4388 HE I l WA 0.40 0.40 0.42 0.42 1 1 AFF 5.50 8.51 6.07 9.40 4471 HE I 1 1 AFF 3.60 4.78 3.74 4.96 _i A J059 9.00 8.51 9.93 -9 ..40 FE 4.00 **79 *96 1 B J059 12.00 8.51 13.24 9.40 B JO59 6.00 4.78 6.23 4.96 l C J059 9.00 8.51 9.93 9.40 C J059 7.00 4.78 7.27 4.96 _L D J059 -11.00 B. 51 12.14 9.40 _1 P—0059 6 * O.Q— 4*2? 4.96 l WA 7.60 8.51 8.39 9.40 L PTP2 4.09 4.78 4.25 4.96 (NE III) 1 AC KB 25.00 40.79 27.49 44.85 2 PTP2 3.95 4.78 4.10 4.96 _l I AFE 26.70 -40.79 ¿9.36 44.85 _WA 3.60 4.78 3.74 4.96 1 FE 33.00 40.79 36.29 44.85 4529 WA 0.09 A 0.09 A 1 A JO59 47.00 40 • 79 51.68 44.85 4562 WA 0.09 0.09 0.09 0.09 _l B J059 77.00 40.79 64.67 44.85 4657 HA 0.40 0.40 0*41 0*4.1 - I C J059 60.00 40.79 65.97 44.85 4713 0.60 0.61 1 D J059 49.00 40.79 53.88 44.85 4779 0.60 0.60 _1 1 PTP2 27.70 40.79 . -3.0^46 44.85 4B61 -1QQ.QQ . 100.00 27.00 40.79 29.69 44.85 1 AFF 100.00 100.00 100.00 100.00 35.50 40.79 39.03 44.85 A AFF 100.00 100.00 100.00 100.00 3889 _H L ACKB 14.00 15.36 100.QQ 1QQ.QQ 100.00 2 1 AFF 13.80 15.14 C AFF 100.00 100.00 100.00 100.00 2 FE 26.00 28. 52 D AFF 100.00 100.00 100.00 100.00 _2 A JQ59 38.00 41.69 _1 E AFF 100.00 100.QQ 100.00 100.QQ 2 B J059 48.00 52.66 AFF 100.00 IOC.00 100.00 100.00 2 C J059 42.00 46.07 G AFF 100.00 100.00 100.00 100.00 2 D J059 -3a. QQ 41 ^0.9 H AFF. . 1QQ-.QQ 100.00 100.QQ 100.00 16.50 18.10 100.00 100.00 100.00 100.00 ACKB 14.00 15.36 A J059 100.00 100.00 100.00 100.00 (LHC (LHC 658 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued (LHC _äfl LLHC_ WAVE IDENT N RG REF OBS I AVE □ CORA AVE C E« AFF FAR EAST OF CENTER 4861 H l _J B JQ?^- 1M«QP 100.90- IQQi.QS) . -F, A£F . FAR SOUTHWEST OF CENTER C J059 100.00 100.00 100.00 100.00 G. AFF FAR SOUTH OF CENTER D J059 100.00 100.00 100.00 100.00 Hi AFF FAR SOUTHWEST OF CENTER* MA 65 100 00 100.00 100.00 iQPïQP— A, FE NORTHEAST LOOP 1 PTP2 100.00 100.00 100.00 100.00 B, FE , NORTHEAST LOOP* EAST OF A 2 PTP2 100.00 100.00 100.00« 100.00 Rl* FE , CENTRAL *BRIGHT PART OF NEBULA 3 PTP2 100 00 100.00 ioo.oo 100.00 R2* FE . ON CENTRAL STAR 4 PTP2 100.00 100.00 100.00 100.00 R3, FE , TO SIDE OF CENTRAL STAR 100.00 100.00 100.00 100.00 R4* FE , OTHER SIDE OF CENTRAL STAR 4922 HE 1 1.50 1.50 1.49 1.49 AO* J059 * REGIONS A-D ARE 4 SECTIONS OF A NORTH-SOUTH SLIT AC KB 164.00 149.06 162.73 147.89 1, PTP 50 ARCSEC N OF HD 38268 1 AFF 173.00 149.06 171.66 147.89 2* PTP 50 ARCSEC E, 65 ARCSEC N OF HD 38268 A AFF 174.00 149.06 171.06 14J*_8g- 3* PTP 155 ARCSEC W, 50 ARCSEC N OF HD 38268 l B AFF 163.00 149.06 160.25 147.89 105 ARCSEC W* 65 ARCSEC N OF HD 38268 1 C AFF 169.00 149.06 168.51 147.89 1 D AFF 131.00 149_._06_ 129.23 147.89 C = 0.35 FOR RG A, (HYDROGEN LINES) E AFF 136.00 149.06 136.00 147.89 C = 0.35 FOR RG REF AFF (HYDROGEN LINES) F AFF 133.00 149.06 132.16 147.89 C = 0.06 FOR RG REF AFF (HYDRUGEN LINËS) 1 G AFF 132.00 149.06 131.61 147.89 C = 0.28 FOR RG REF AFF (HYDROGEN LINES) 1 H AFF 116.00 149.06 116.00 147.89 C = 0.0 FOR RG REF AFF (HYDROGEN LINES) 1 FE 182.00 149.06 180.59 147.89 C = 0.13 FOR RG REF AFF (HYDROGEN LINES) A J059 142.00 149.06 149«.?9 147t8-9 C = 0.06 FOR RG REF AFF (HYDROGEN LINES) 1 B J059 159.00 149.06 157.77 147.89 C = 0.0 FOR RG H,, REF AFF (HYDROGEN LINES) 1 C JO59 136.00 149.06 134.94 147.89 1 D JQ59 125*90 149.96- 124*Itt-. 147,89.. _EW LLM£ I 150.00 149.06 148.84 147.89 (0 III) AC KB 499.00 434.35 493.20 429.25 1 AFF 499.00 434.35 493.20 . 429.25 A AFF 498.00 434.35 485.42 429.25 C = 0.32 (HYDROGEN LINES) B AFF 469.00 434.35 457.15 429.25 f. AFF 485.00 434.35- 482.88 429.25 -WAVE IDENT N RG REF -AV-E-Q CQ&fi-l. -AYE C- AFF 376.00 434.35 368.38 429.25 3726 (0 II ) 2 A PTP2 110.00 137.08 AFF 390.00 434.35 390.00 429.25 3729 (0 II ) 2 A PTP2 110.00 137.00 AFF 382.00 434.35-. 378.39 429.25. 3868 (NE III) I A PTP2 23.00 - 23.00 27.81 27.81 1 G AFF 379.00 434.35 377.34 429.25 4068 ( S II) 2 A PTP2 0.53 0.62 1 H AFF 333.00 434.35 333.00 429.25 4076 (S II ) 2 A PTP2 0.53 0.62 -1 E£_ 141. 434.35 732.38 429.25 4102 —ti I 1 A- PLP2 - 21.00 —21-..QQ _ 24.24 24.24 1 A J059 383.00 434.35 378.55 429.25 4340 A PTP2 43.00 43.00 47.43 47.43 1 B JO59 280.00 434.35 276.74 429.25 4363 (0 III) 1 A PTP2 1.89 1.89 2.08 2.08 1 X JE59_ 256.0-0 . 434.35- 253.02 429.25 -4412 HE, L _L A PTP2 3.66 3.66 3.94 3.94 I D J059- 267.00 434.35 263.90 429.25 4861 I 1 A PTP2 100.00 100.00 100.00 100.00 1 L PTP2 510.00 434.35 504.07 429.25 5007 (0 III) 1 A PTP2 42C.00 420.00 410.29 410.29 _1 2 PTP2- 520.90 434.35- 513.96 429.25 5K7A HF I J A PTP? 13.00 13^00 - 11.10 11.IQ 3 PTP2 500.00 434.35 494.19 429.25 6300 (0 1 ) 1 A PTP2 1.59 1.59 1.28 1.28 1 4 PTP2 390.00 434.35 385.46 429.25 6311 (S III) 1 A PTP2 1.42 1.42 1.14 1.14 _l_ 539.99 43-4.35_ 523.84 429.25 6563 _hi L 1 A PTP? 340.00 .349.99 266.49 266.« 49— 5518 (CL III) 1 PTP2 1.02 1.02 0.97 0.97 6584 (N II ) 1 A PTP2 15.00 15.OC 11.72 5538 (CL III) 1 PTP2 1.21 1.21 1.14 1.14 6678 HE I 1 A PTP2 3.72 3. 72 2.88 5755 LN II i- ACKB— 9.25 9.25 0.23 0.23 _6.7 U _(_S II ) A- PT-P.2 -9.61 9 «El 7.41 7_«_41- ACKB 13.80 14.50 12.75 13.40 6731 (S II ) 1 A PTP2 8.18 8. 18 6.30 6.30 MA65 17.20 14.50 15.89 13.40 7065 HE I 1 A PTP2 3.72 3.72 2.77 2.77 1 PTP2 14.90 14:.5Q- 17.94 13.49 —7.136 ( A& mi J A PT-P.2 14.00 14.00 10.36 10.36 1 2 PTP2 13.00 14.50 12.01 13.40 7320 (0 II ) A PTP2 4.88 3.55 3.55 (0 1 ) 1 ACKB 5.90 2.38 5.30 2.14 7330 (0 II ) A PTP2 4.88 3.55 3.55 J 1 PTP2— 0.58 2.38 Q «52 2.14 PTP2 0.66 2.38 .60 2. 14 REGION KEY (REGI ON,PEFERENCE,EXPLANATI ON) (S II ) ACKB 2.20 1.79 1.98 1.61 A* PTP2, NGC 1714 PTP2 1.76 1.79 1.58 1.61 PTP2 1.42 1.79 1.27 1.61 6548 (N II ) ACKB 8.40 8.40 7.44 7.44 ■..6563.- H I ACKB 405.00 319.00 36¿A67_ 365.67 358.49 282.37 323t68, 323.68 1 MA 65 323.68 1 i PTP2 400.00 365.67 354.07 1.50 (HYDROGEN LINES) 1 2 PTP2 380.00 365.67 336.36 323.68 1 3 PTP2 360.00 365.67 318.66 323.68 WAVF IDENT N RG REF OBS I CÜRR I AVÈ C 1 4 PTP2 330.00 365.67 292.11 323.68 3727 (0 II ) 1 DAF 150.00 420.49 6584 JLN II L _1 A£KB_ 29.59 21.07 18.12 18.63 3868 (NE III) 1 DA F 10.00 24.34 24.34 1 1 PTP2 11.80 21.07 10.43 18.63 3969 HI 2 DAF 9.00 19.97 1 2 PTP2 20.00 21.07 17.68 18.63 3969 (NE III) 2 DAF 9.00 19.97 1 4 PTP2 32*00 21.07 28.29 18.63 4101 HI 1 DAF 21.00 41.14 1 ACKB 9.60 6.45 8.45 5.67 4340 DAF 11.00 11.00 17.41 17.41 1 1 PTP2 5.01 6.45 4.41 5.67 4861 DAF 100.00 100.00 100.00 iOO.OO _1 2 ACKB PTP2- 4.73 *45_ 5.67 4991 DAF 150.00 150.00 136.15 136.15 (S II ) 1 14.20 17.46 12.47 15.33 1 PTP2 7.64 17.46 6.71 15.33 2 PTP2 16.00 17.46 14.05 15.33 1 3 PTP2 32.00 17.46 28.09 2 4 PTP2 43.00 37.75 (S II ) 1 ACKB 11.50 15.97 10-09 14.02 (LMÇ. C = 0.16 (C = 0.1Q6CSC 8) 1 1 PTP2 7.30 15.97 6.40 14.02 1 2 PTP2 13.10 15.97 11.49 14.02 WAVE IDENTN RG REF ’ OBS I CORR I 1 3 PTP2 32.00 15.97 28.07 14.02 - 372.7 LQ I LI1 1 PAF -2-09*09 223.24 2 4 PTP2 43.00 37.73 3868 (NE III) 1 1 DAF 25.00 27.49 7065 1 ACKB 4.60 4.09 3.97 3.53 3969 HI 21 DAF 14.00 15.24 _1 1 PTP2- .51 4.09 3.89 3.53- 3963 (NE III) 2 I DAF 14.QO 15.24 1 2 PTP2 3.15 4.09 2.72 3.53 4101 1 DAF 34.00 34.00 36.53 36.53 7135 1 ACKB 22.70 19.23 19.53 16.55 434C 1 DAF 50.00 50.00 52.51 52.51 1 1 PTP2 17*99 19.23 H*-63 16.5§_ -M6I— L -DAL. . 199-iP Q_ 109.99 190*99 190*09 1 3 PTP2 18.00 19.23 15.49 16.55 (0 III) 1 1 DAF 7136 (CL III) 1 2 PTP2 18.00 18.00 15.49 15.49 7320 (0 IT ) 7 1 PTP2 3.36 2.87 -REGION KEY tREGÍQN.1.FEFERENCEiEXPLANATION) 2 PTP2 4.89 4.17 I. DAF , NGC 1 73 6 7330 ACKB 6.00 5. 12 1 PTP2 3.3-6 2.87 -END N— RFGION KEY ( REGI QN.REFER ENCE * EXPLANAT-IQN1 1* AFF BRIGHTEST PART OF NEBULA BEGIN N 9 ( LMC ) C = 0.16 (C = 0.10*CSC B) AFF NORTHEAST OF CENTER B. AFF * SOUTHWEST OF CENTER- -WAVE IDENT N RG REF OBS I AVE 0 CORK I AVÉ C AFF SOUTHEAST OF CENTER 3727 II DAF 260.00 290.22 AFF NORTHWEST OF CENTER 4861 I DAF 100.00 100.00 100.00 100.00 (LMC 659 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued (LHC LI Í LHC WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C vm _LQ LLU 1 DAf . 21Q.QQ ■ 21Q.0Q -LQI.afl.jL- 207.84 4340 _tí I 1 OAF , flfla.QQ 38.00 57.63 4861 DAF 100.00 100.00 100.00 100.00 (LHC 4991 (0 IIII 1 OAF 195.00 195.00 178.60 17Ó.60 BEGIN N 11 (LHC C = 0.38 (HYDROGEN LINES) WAVE IDENT N RG REF OBS I AVE 0 CORR I AVË C 0.68 (HYDROGEN LINES) .-37¿7 (0 II) 1 AB DAF . 165.iM .214. ?_4 — l CD DAF 220.00 285.65 WAVE IDENT N RG REF OBS I CORRI "avTc" l E DAF 250.00 324.60 3727 (O II ) 1 A DAF 220.00 351.04 1 F DAF 300.00 389.52 3868 (NE III) 1 A DAF _4L*Û0_ 70.35 1 I DAF 360.00 467.42 3969 HI 2 A DAF 15.00 21.53 1 B DUF 118.00 153.21 3969 (NE III) 2 A DAF 15.00 21.53 3835 1 E DAF 23.00 29.07 17.94 4101 HI 1 A DAF 35.00 . ßflt.OQ 47,48 47.48 1 B DUF 5.40 14.20 6.82 17.94 4340 H I 1 A DAF 38.00 38.00 46.80 46.80 (NE III) l AB DAF 28.00 28.94 35.08 36.26 4861 H I 1 A DAF 100.00 100.00 100.00 100.00 1 CD....D4F, . ■29,94 47 « 61, ?6t 26 -4991 _ < o i.m i -A, .Q.A_F_ 270,00 -270,09.. . 2 5-9-,AO 2 §.9,4.0 - l E DAF 55.00 28.94 68.90 36.26 1 F DAF 11.00 28.94 13.78 36.26 REGION KEY (REGIÜN,REFERENCEtEXPLANATI ON) 1. . P DUF. -L2jJL0 . ¿.9.t94 . 1 36.26 A. DAF . NGC 1829 3889 H I ? B DUF 12.70 15.82 3889 HE I 1 B DUF 12.70 12.70 15.82 END 23 (LHC 3969 H I_ 2 AB....DAF,. 12-t.cm. .14,69. 2 CD DAF 14.00 17.13 2 E DAF 11.00 13.46 _2 E—DAF_ .00 . 7,34- BEGIN N. 30 (LHC C = 0.21 1HYDRQGEN LINES) 2 B DUF 14.50 17.74 (NE III) 2 AB DAF 12.00 14.68 WAVE IDENT N RG REF OBS I CORR I 2 CD DAF 14. QQ 17.13, . 3727 (D II ) 1 B DAF 100.00 115.52 2 E DAF 11.00 13.46 3868 (NE III) 1 B DAF 16.00 16.00 18.12 18.12 2 F DAF 6.00 7.34 3969 HI 2 B DAF 6.00 .71 _2 6—DUF - 14,5.0 -17.14- 3969 (NE III) 2 B DAF 6.00 6.71 AB DAF 15.00 27.02 17.79 32.05 4101 B DAF 49.00 49.00 53.84 53.84 1 CD DAF 20.00 27.02 23.72 32.05 4340 1 B DAF 44.00 44.00 46.92 46.92 _1 E DAF 49. QQ 27.02 53.10 32.05 4471 H£. -I_ _J B DAF ¿5-^00- -25 ..00- 26.26 26.26- 2 F DAF 28.00 33.20 4861 I 1 B DAF 100.00 100.00 100.00 100.00 1 B DUF 24. 10 27.02 28.58 32.05 4991 III) 1 B DAF 80.00 80.00 78.92 78.92 .4340 1 . AB .DAF .41,00 ...43, 96 . ■ ■46, 06- 49.27 1 CD DAF 40.00 43.86 44.94 49.27 1 E DAF 53.00 43. 86 59.54 49.27 _2 F—DAF- 3,a,.op -42..6.9- 1 I DAF 44.00 43.86 49.43 49.27 1 B DUF 41.30 43.8o 46.40 49.27 C = 0.11 (HYDROGEN LINES) —LD 111.). J B Dll F . L.5Q ■ -1, 5Q, 1.68 1 AB DAF 7.00 8.65 7.65 9.45 WAVE IDENT N RG REF OBS I CORR I AVE C 1 CD DAF 6.00 8.65 6.56 9.45 3727 (0 II ) 1 B OAF 190.00 204.92 _J E DAF 17.00 . 8,65 18.58, 9. .4 5 _1 f. AC KB 190.^00 204.92 F DAF 2.00 2.19 C DAF 213.00 229.72 B DUF 4.60 8.65 5.03 9.45 D DAF 370.00 399.05 -1FE LIU . L . B—DJF . -0,10 0.70 0.73 Q.,73 -F.DAF . 34Q.-QQ 864.70 4712 HE I 2 B DUF 0.40 0.41 1 B DUF 136.00 146.6Ô 4712 (AR IV ) 2 B DUF 0.40 0.41 3771 H I l B DUF 2.20 2.20 2.37 2.37 4861 __ü_ AB—DAF 100.00 100.00 100.QO 8798 H L_ _J B DUF 3.80 ,4.QB DAF . . 100,110. 100.00 100.00 100.00 100.00 C DAF 3j-8Q. 11.00 7.27 11.77 7.78 C DAF 100.00 100.00 100.00 100.00 D DAF 6.00 7.27 6.42 7.78 CD DAF 100.00 100.00 100.00 100.00 B DUF 4.80 7.27 5.14 7.78 E DAF 100.00 100.00 100.00 100.00 B DAF 16.00 32.83 17.08 35.05 F DAF 100.00 100.00 C AC KB 66.00 32.83 70.45 35.05 J—DA£_ 100,00 . 1-QQ-, 00- -100,0.0.- l.QQt.QQ _J C .DA F , ,4-L,QP... _3L«-fl2— +3,76 3.5,05. 1 B DUF 100.00 100.00 100.00 100.00 D DAF 12.00 32.83 12.81 35.05 4922 HE I 1 B DUF 1.30 1.30 1.29 1.29 F DAF 14.00 32.83 14.94 35.05 4959 _LQ LLU 1 B DAF 115.00 -LQ4.,. 3-3„ 112,89 l.Q.2_«_+2.. -B PUF 48.00 32.83 51.24 35.05 1 C DAF 86.00 104.33 84.42 102.42 3889 H I DUF 13.10 13.96 l B DUF 112.00 104.33 109.95 102.42 3889 HE I DUF 13.10 13.96 4991 _LQ LLLL 1. AB..PAF- 400.00 378.75 390.30 369.56 3969 _H I— _2 6 PAE ,QQ 9-,-Bfl 1 CD DAF 450.00 378.75 439.09 369.56 C DAF 13.00 13.78 I E DAF 400.00 378.75 390.30 369.56 D DAF 18.00 19.08 ? . F_. QAF_ 210.00 204.91 2 F DAF 15. *00 15.90 1 I DAF 265.00 378.75 256.57 369.56 DUF 16.70 17.71 l B DAF 320f00 332.67 311.23 323.55 DAF 8.00 8.48 U C—D A.E— 320.00 332. 67 -Jl 1,2.3- ..322«-55.. 2 C DAF 13.00 13.78 l B DUF 358.00 332.67 348. 19 323.55 D OAF 18.00 19.08 5199 (N I 1 B DUF 0.60 0.60 0.56 0.56 F DAF 15.00 15.90 5876 HE I _1 B-PUF , 13.80 -1.3-, 90- 11.44 11.44 16.70 17.71 6312 (S III) 1 B DUF 2.40 1.86 4026 HE I C AC KB 2.10 2.10 2.22 2.22 6548 ( N II) l B DUF 3.00 2.25 A 4101 H I B DAF 24.00 22.40 25.21 23.53 6563 u_ i B DUF 327.00 -3-21,. 00.- .2* + , 76 2++,76 21.00 22.40 22.06 23.53 6583 (N II) 1 B DUF 11.30 11.30 .43 8.43 D DAF 28.00 22.40 29.42 23.53 6678 HE I 1 B DUF 3.80 3.80 2.80 2.80 F DAF 14.00 22.40 14.71 23.53 ..6X16 _LS ID. 1 R DUF 13.00 .13,00 9.54 9:54 DUF _?Jt«.o,Q— 22.40 26,26 23.53 6731 ( S II ) l B DUF 9.20 9.20 6.74 6.74 B DAF 25.00 44.52 25.86 +6.0+ 7065 HE I l 8 DUF 4.50 4.50 3.17 3.17 C DAF 50.00 44.52 51.71 46.0+ 7136 (AR 11!) 1 B DUF 13.00 ..L3-.Q.Q.. -3U0 -J P DAE,, 50,00. . ++,52 5L, 71 _+6 ,.Q-+— F DAF 50.00 44.52 51.71 46.04 REGION KEY (REGI ON,REFERENCE,EXPLANATI ON) DUF 43.10 44.52 44.58 46.04 B. DAF . IC 2115 + NGC 1763 _1 A WB. +9. «00 -++,52 . 5Q.,.6fl ..+6,0+.- C, DAF , NGC 1769 4363 (0 III) DUF 6.47 6.68 E, DAF , NGC 1773 4471 HE I C ACKB 5.00 5.13 F. DAF . NGC 176Q -,C -DAF—. 5.00 ,. 5.13 5.13 5.27 IC 2115 + NGC 1763 1 D DAF .00 5.13 8.21 5.27 1 B DUF 2.40 5.13 2.46 5.27 END 4658 (FE 111) 1 B DUF . .fl-. QQ . . 5.QQ 5.07 5.07 4686 HE II 1 C ACKB 7.60 7. 4712 HE I 2 B DUF 2.20 2.22 -+712.. (AR IV ) _2 B DUF 2.20 2.22 BEGIN N 17 (LHC ) C = 1.36 (HYDROGEN LINES) 4740 (AP IV ) l C ACKB 2.00 2.02 4861 H I 1 B DAF 100.00 100.00 100.00 100.00 HAVE IDENT . N..P.G-PEF DBS I AVE Q CORR I AVÈ C _J C ACKB IDO.QQ 100.00 100.00 100.00 3727 IT ) 1 DAF 350.00 891. 14 C DAF 100.00 100.00 100.00 100.00 4101 I l DAF 14.00 25.76 D DAF 100.00 100.00 100.00 100.00 (LHC 660 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. TABLE 8—Continued _4á LLHC_ 55 (LHC WAVE IOENT N RG REF OBS AVE 0 CORR I AVE C WAVE IOENT N RG REF OBS I AVE 0 CORR I AVÉ C -45.61 H I 1 F PAF IQQtQ.Q. 100.00 100.00 100.00 —1136. (AR III) .1 A DUF 6.50 6.50 5.51 —5.91 i B DUF 100.00 100.00 100.00 100.00 1 A WB 100.00 100.00 100.00 100.00 4922 HE I 1 B OUF 1.20 1.20- 289.00 1.20 1.20 4959 (0 III) 1 B OUF 289.00 287.46 287.46 4991 (0 III) 1 B OAF 160.00 277.50 158.87 275.53 1 Ç PAF. 630.00 ¿77 ? 5Q . 625.54 275.53 57 (LHC 0.20 (HYDROGEN LINES) 1 D OAF 130.00 277.50 129.08 275.53 1 F DAF 190.00 277.50 188.65 275.53 WAVE IDENT N RG REF OBS I CORR I (0 III) 1 C AC KB 631.00 698.33 625.95 692.74 3727 (O 11)1 A DAF 510.00 585. 14 1 B DUF 789.00 698.33 782.68 692.74 3969 l A DAF 41.00 41.00 45.60 45.60 1 A WB 675.00 698.33 669.59 692.74 4101 1 A DAF 45.00 45.00 49.22 49.22 1 C ACKB 20.40 15.95 19.32 15.11 4340 1 A DAF 44.00 44.00 46.78 46.78 1 B DUF 11.50 15.95 10.89 15.11 4471 HE I 1 A DAF 11.00 11.00 11.53 11. 53 6300 (0 I ) 1 C ACKB 9.10 9. 10 8.45 8.45 4861 HI 1 A DAF 100.00 100.00 100.00 100.00 6312 (S III) 1 Ç açkb 3.00 2. 10 2.79 1.95 4991 (0 III) 1 A DAF 160,00 160.00 157.95 157.95 1 B DUF 1.20 2.10 1.11 6548 (N ll ) 1 B DUF 2.00 1.84 .656? ti- X _BLLL_ 299.00 299.00 274.95 (N II ) 1 C ACKB 14.50 10.85 13.32 9.97 1 B DUF 7.20 10.85 6.62 9.97 6678 -HE I _L e PUF. 2.60 2.60 2.38 2.38 BEGIN N 59 (LHC . o«?7 (hyprogen LINE?) 6716 (S II ) 1 B DUF 10.80 10.80 9.88 9.88 6730 (AR lit) 1 C ACKB 17.80 17.80 16.27 16.27 WAVE IDENT N RG REF OBS I CORR I 6731 -LS LI ) J B DUF . 7..6Q- .60 6.95 6.95 3727 _LQ LL_L 1 à_P-A£_ -IMtOQ 1671 64- 7065 HE I B DUF 3.00 3.00 2.71 2.71 DAF 320.00 412.64 7136 (AR III) B DUF 16.70 16.70 15.06 15.06 1 A DUF 126.00 162.48 —3J5Q.. 1 A PDF ?tlQ . 2tlQ 2,69 .?,69_ REGION KEY {REGI ON,REFERENCE,EXPLANATION) 3771 I A DUF 2.20 2.20 2.81 2.81 B, DAF » NGC 1935 = IC 2126 3798 I A DUF 2.60 2.60 3.30 3.30 Ci QA£_ , NGC 1936 = IC 2127 -.3835 _t! L_ A DUF -3.50 _3.5Q- 4-, 40 -4.40- DAF , PART OF IC 2128 (NE III) 1 DAF 28.00 26.73 34.87 33.29 DAF , NGC 1929 1 DAF 27.00 26.73 33.63 33.29 DUF . NGC 1935 = IC 2126 L_ A DUF 25.20 26.73 3L« 38 -IX. 2 9 3889 H I 2 A DUF 13.00 16. 10 44 (LHC 3889 HE I 2 A DUF 13.00 16.10 -3-969 _ _ü I_ -2 A DAF 15.0.QQ 182.59 2 B DAF 9.00 10.96 2 A DUF 18.30 22.28 BEGIN N (LHC 0.80 (HYDROGEN LINES) INE III) -Z A DAJ 150.QQ B DAF 9.00 10.96 WAVE IDE NT N RG REF OBS I CORR I A DUF 18.30 22.28 3727 LD II ) 1 A DAF - 350.00 60K.4R HF I _J A. DU£ C DAF 370.00 641.14 4069 II ) A DUF 1.30 1.30 1.55 1.55 1 D DAF 210.00 363.89 4101 I A DAF 20.00 22.40 23.61 26.44 3868 INE III) 1 C DAF 25.QQ 4f). 1 fl _3 DAE 28. QQ 22.40 33.05 26.44 3969 HI 2 C DAF 15.00 22.95 A DUF 19.20 22.40 22.66 26.44 3969 INE III) 2 C DAF 15.00 22.95 A DAF 38.00 28.43 42.56 31.84 -41Q1 H I 1 A.. DAF 17. QQ 24.34 -B DAf 5.00 28.43 5.60 - 31.84 - 1 C DAF 31.00 24.00 44.38 34.36 A DUF 42.30 28.43 47.38 31.84 1 A DAF 38.00 38.00 48.55 48.55 436 3 (0 III) A DUF 2.99 2.99 3.33 3.33 1 C DAF 38. QQ 38.00 48.55 48.55 4471 HE.—I -A PAJE. 7.00 4471 HE I 1 C DAF 5.00 5.00 6.03 6.03 B DAF 12.00 7.43 13.09 8.11 4861 1 A DAF 100.00 l00.00 100.00 100.00 A DUF 3.30 7.43 3.60 8. 11 _1 C—DAF . 100.00 LQQ..Q.Q 100.00 1QQ.QQ A DUF 0- 30 0.31 D DAF 100.00 100.00 100.00 100.00 4712 (AR IV ) DUF 0.30 0.31 III) l A DAF 120.00 132.33 113.96 125.67 4861 H l DAF 100.00 100.00 100.00 100.00 1 C DAF 97.00 132.33 92.11 125.67 DAF 100.00 100.00 100.00 100.00 1 D DAF 180.00 132.33 170.93 125.67 DUF 100.00 100.00 103.00 100.00 4922 HE I DUF 0.80 0.80 0. 79 0.79 £ND.. _51 LLHC 4959 (0 III) DUF 188.00 188.00 184.64 184.64 1 A DAF 640.00 480.00 624.88 468.66 1 B DAF 320.00 480.00 312.44 468.66 _50-07 . _LQ III) 1 A DUF 547.00 5^7.00 532.40 532,40 55 (LHC C * C.12 (HYDROGEN LINES) 5518 (CL III) DUF 0.30 0.30 0.26 0.26 5538 (CL III) DUF 0.30 0.30 0.26 0.26 WAVE IDENT N RG REF AVE O CORR I AVE C 5876 -HE_L. DUF -IX-.-0.0 14.00 11,66 -IL, 66 . 3727 (0 II ) 1 DAF 320.00 347.51 6312 (S III) DUF 1.60 1.60 1.25 1.25 1 A DUF 173.00 187.87 6548 (N II ) DUF 3.00 3.00 2.27 2.27 3835 _L 1 A DUF 2.80 3.01 6563 H I DUF 348.00 348.00 262.47 262.47 3868 (NE III) 1 DAF 16.00 11.90 17. 18 12.78 6583 (N II } DUF 11.70 11.70 8. 80 1 A DUF 7.81 11.90 8.39 12.78 6678 HE I DUF 2.80 2.80 2.08 2.08 3889 _L 2 A DUF 10.10 10.83 6716 _LS il ) DUF . U-».2Q Uf2Q g,-2 9 8.29 3889 HE I 2 A DUF 10.10 10.83 6731 (S II) DUF 7.90 .90 5.84 5.84 3969 H I 2 DAF 15.00 15.99 7065 HE I DUF 2.50 2. 50 1.78 1.78 2 A OUF 11.40 12.15 7136 (AR III) DUF 14.60 14.60 10.31 10.31 (NE III) DAF 15.00 15.99 DUF 11.40 12.15 REGION KEY (REGI ON,REFERENCE,EXPLANATION) DAF 22.50 ¿3_,95 23.74- 25^7 A, DAF , NGC 2032 * NGC 2035 A DUF 25.40 23.95 26.80 25.27 B, DAF , NGC 2040 DAF 39.00 40.75 40.46 42.28 A, DUF , NGC 2032 + NGC 2035 A DUF »2,50 40.75 44.09 »2^28 4363 (0 III) 1 A DUF 1.49 1.49 1.54 1 .54 4471 HE I 1 DAF 2.00 2.45 2.06 2.52 J A DUF ¿..90 .2,45 2.52 DAF 100.00 100.00 100.00 100.00 DUF 100.00 100.00 100.00 100.00 C = 0.68 (HYDROGEN LINES) 4922 HE I . _1 A DUF ,70 0,70 Q.7Q (L..70 4959 III) DUF 91.50 91.50 90.97 90.97 WAVF IDENT N RG REF OBS I CORR I AVE C 4991 III) DAF 200.00 200.00 198.46 198.46 3727 (O II ) 1 l DAF 310.00 494.65 5HQ.7. -LQ III) 1 K DUF. 277.00 277.QQ -XJ.4.&B- 274.58 3868 (NE III) 1 1 DAF... 28.QQ -28.QQ 41.91 5199 (N I ) DUF 0.50 0.50 û . 49 0.49 3969 I 2 1 DAF 30.00 43.06 5518 (CL III) DUF 0.40 0.40 0.38 0.38 3969 III) 2 1 DAF 30.00 43.06 5538 (CL III) A .DUF... «XQ- «XQ. Q.48 Q-.48 4101 —H I— -l 1 DAF— 56.QQ . 56.QQ 75.96 5876 HE I A DUF 12.50 12.50 11.78 .78 4340 I 1 DAF 38.00 38.00 46.80 46.80 6312 (S III) A DUF 0.80 0.80 0.74 .74 4471 HE I l DAF 10.00 10.00 11.73 11.73 654fl _LN IL.) A DUF 3 .QQ 2.74 A 4R61 1 DAF— 1QQ.QQ 100.00 IQQ^QQ 1QQ.QQ 6563 H I 1 A DUF 304.00 304.00 277.42 277.42 4991 (0 III) 1 1 DAF 6583 (N II ) 1 A DUF 11.50 11.50 10.49 10.49 6678 HE I A A DUF 1.50 1.36 L.36 REGION KFY (REGI ON.REFFRENCE.FXPLANATIQN) 6716 (S II ) A DUF 9.40 9.40 8.53 8.53 6731 ( S II ) A DUF 6.20 6.20 5.62 5.62 (LHC 661 American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued BEGIN N _f>S LLM£_ C = 0.16 (C = 0.1Q»CSC B > -23. ( L^C WAVE IDENT N RG REF OBS I AVE 0 CORR I WAVE IDENT N RG REF OBS I AVE □ CORR I AVE C 3727 (0 II > I B DAF 419.00 457.65 5199 .IN I 1_J E_ PJF .80 0.80 0.75 3868 (NE III) I B DAF 11.00 12. 10 1 A1 PTP2 13.00 13.60 10.93 11.44 3969 HI 2 B DAF 15.00 16.33 1 A2 PTP2 13.00 13.60 10.93 11.44 3969 (NE III) 2 B DAF 15,00 16.33 _1 E_ DUF 14.80 13.60 12.45 11.44 4101 DAF 28.00 28.00 30.08 30.08 6548 (N II ) 1 E DUF 7.00 5.37 4340 1 B DAF 69.00 69.00 72.47 72.47 6563 I 1 A1 PTP2 360.00 337.00 275.69 258.08 4861 1 B DAF 100.00 100.00 100.00 100.00 PTP2 340.00 ??7tOQ 1 A2 DUF -258»09 4991 (0 III) 1 B DAF 311.00 337.00 238.17 258.08 II I 1 A1 PTP2 28.00 28.20 21.39 21.54 END N 68 (LMC L_ 1 A2 PTP2 34.00 28,20 25,97 21.54 1 E DUF 22.60 28.20 17.26 21.54 1 A1 PTP2 3.40 3.98 2.57 3.01 1 A2 PTP2 —3_i_55 3.98 2.68 3.01 BEGIN N 69 (LMC ) C = 0.28 (HYDRUGEN LINES) DUF 5.00 3.98 3.78 3.01 6716 ( S II ) 1 A1 PTP2 15.00 19.77 11.28 14.87 WAVE IDENT K RG REF OBS I AVE O CORR I AVE C 1 A2 PTP2 ?4.0.Q_ 19.77 18.05 14.87 3727 (O II ) 1 DAF 430.00 521.23 DUF 20.30 19.77 15.27 14.87 3368 (NE III) 1 DAF 21.00 21.00 24.79 ) l A1 PTP2 17.00 16.57 12.77 12.44 3969 H I 2 DAF 21.00 24.37 1 -P-LP.2. 19 j.Q.Q_ L6.57 14.27 12.44 3969 (NE III) 2 DAF 21.00 24.37 l E DUF 13.70 16.57 10.29 12.44 4101 H I 1 DAF 42.00 42.00 47.62 47.62 1 A1 PTP2 5.45 4.82 3.95 3.49 4340 HI 1 DAF DAF 43.00 43.00 46.85 46,95 1 A2 PTP2 4,19 ,92 3.04 ?,49 4861 H I l 100.00 100.00 100.00 100.00 A1 PTP2 IS . 00 12.33 10.80 8.88 4991 (0 III) 1 DAF 140.00 140.00 137.49 137.49 1 A2 PTP2 13.00 12.33 9.36 8.88 _1 L. -OJIE- 9.QQ 12.33 6.48 8.88 7320 II ) 2 Ai PTP2 8.02 5.67 2 A2 PTP2 8.55 6.04 7330 _LQ_ II ) 2 Al PTP2 8.02... 5,66 C = 0.28 (HYDRUGEN LINES) REGION KEY (REGIQN,REFERENCE,EXPLANATION) WAVE IDFNT N RG REF OBS I AVE O CORR I AVE C PTP , BRIGHTEST H ALPHA REGION. SAME AS IC 2111 3727 (O II ) 1 DAF 405.00 490.93 PTP , 5 ARCSEC N OF REGION l. SAME AS IC 2111 4101 38.OQ 38.00 43.08 43.Q8 4340 H II 11 DAF DAF 43.00 43.00 46.85 46.85 ( LMC 4961 H I l DAF 100.00 100.00 100.00 100.00 4991 (0 III) 1 DAF IñQ.Q.Q 1BQ.QQ 176.77 176.77 0.48 (HYDROGEN LINES) WAVE IDENT N RG REF OBS I CORR I 3727 (0 II ) 1 1 DAF 220.00 305.97 C = 0.16 IC = Q.1Q»CSC B) 1 1 DAF 8.06 3868 (NE III) 1 1 DAF 19.00 25.26 25.26 WAVE IDFNT N RG REF OBS I AVE Ü CORR I AVE C 3969 H I 2 1 DAF 11.00 14.20 3727 _L0 LI ) 1 DAF 37.QQ 4J-.30 (NE III) 2 1 DAF 14.20 4861 I 1 DAF 4101 1 l DAF 21.00 21.00 26.04 26.04 4340 1 1 DAF 40.00 40.00 46.33 46.33 END _LZ (I MC L_ 4471 -J 1 DAF 7.00 7.00 7.83 7. 83 4861 H I 1 1 DAF 100.00 100.00 100.00 100.00 4991 (0 II I ) 1 1 DAF 410.00 410.00 397.48 397.48 C = 0.35 (HYDROGEN LINES) REGION KEY (REGION,REFERENCE,EXPLANATION) 1, DAF , NGC 1745 + NGC 1737 IDENT N RG REF OBS I ...AVE Q CURR .1. .AVE. C (0 I I ) l DAF 230.00 292.60 1 N DAF 350.00 445.27 2 Al PTP2 180.00 228.99 2 A2 PTP2 250.00 318.05 1 E DUF 197.00 250.62 BEGIN N 0.13 (HYDROGEN LINES) 372° (O II ) 2 A1 PTP2 180.00 228.84 A2 PTP2 250.00 317.83 WAVE IDENT N RG REF OBS I CORR I (NE III) 1 DAF 12.00 11.70 14. 77 14.40 3727 (O II ) 1 1 DAF 310.00 338.97 L N DAF 8.00 11.70 9.85 14.40 _1 A DUF 208.00 22T..±4.. A1 PTP2 18.00 11.70 22.15 14.40 3 83 5 HI 11 DAF 19.00 19.00 20. 58 20.58 A2 PTP2 8.80 11.70 10.83 14.40 3868 (NE III) 1 1 DAF 32.00 19.80 34.57 21.39 E DUF 10.40 12.73 1 A DUF 7.60 19.80 -ß-j-2_L _2_L_»_3_9 3889 HE I E DUF 10.40 12.73 3969 H I 21 DAF 14.00 15.00 3969 H I DAF 6.00 7.23 3969 (NE III) 2 1 DAF 14.00 15.00 N DAF 15.00 18.07 -A10.L- HI 1 1 DAF 28.00 29.68 E DUF 11.20 13.49 I 1 1 DAF 40.00 42.20 41.62 43.91 (NE III) 2 DAF 6,00 7.23 1 A DUF 44.40 42.20 46.20 43.91 2_ N DAF 15.00 18.07 III) 1 A DUF 0.98 0.98 1.02 1.02 E DUF 11.20 13.49 4471 1 1 DAF 7.00 7.00 7.22 7.22 DAF 25.00 20.34 29.25 23. 80 4861 1 1 DAF 100.00 100.00 100.00 100.00 N DAF 14.00 20.34 16,38 23.80 1 A DUF 100.00 100.00 100.00 100.00 Ai PTP2 24.00 20.34 28.08 23.80 4991 (0 III) 1 l DAF 220.00 220.00 218.16 218.16 A2 PTP2 22.00 20.34 25. 74 23. 80 5007 (0 III) 1 A DUF 266.00 266.00 263.48 263.48 E DUF 16.70 2C.34 19.54 23. 80 5976, HE I 1 A DUF 14.90 14.90 13.97 13,^7 DAF 38.00 36. 38 42.30 40.50 N DAF 19.00 36.38 21.15 40.50 A1 PTP2 43.00 36.38 47.87 40.50 REGION KEY (REGION,REFERENCE,EXPLANATION) A2 PTP2 42.00 36.38 46.75 40.50 DAF , NGC 1770 E DUF 39.90 36.38 44.41 40.50 DUF , IC 2117 11II L Al PTP2 1.94 1.60 2.15 1.78 A2 PTP2 1.27 1.60 1.41 1.78 N DAF 5.00 4.11 5.43 4.46 Al PTP2 4.931 4.11 5.35 4.46 A2 PTP2 3.90 4.11 4.23 4.46 E DUF 2.60 4.11 2.82 4.46 C = 0.13 (HYDROGEN LINES) DAE 1QQ.0Q 100.QQ 100.00 100.00 N DAF 100.00 100.00 100.00 100.00 WAVE IDENT N RG REF OBS I CORR I AVE C Ai PTP2 100.00 100.00 100.00 100.00 3727 (O II ) 1 DAF 190.00 207.75 A2 PTP2 100.00 100.00 100.00 100.00 3869 (NE III) 1 DAF 40.00 40.00 43.21 43.21 1 E DUF 100.00 100.00 100.00 100.00 3969 H I 2 DAF 20.00 21.43 4922 HE I 1 E DUF 0.70 0.70 0.69 0.69 3969 (NE III) 2 DAF 20.00 21.43 4959 _LQ III) 1 E DUF 41.30 41.30 4Q.6Q 40.60 4101 _H I_ DAF 42.QQ 42. QQ 44.52 44.52. (0 III ) 1 DAF 390.00 270.00 381.28 263.96 4340 I 1 DAF 45.00 45.00 46.83 46.83 1 N DAF 150.00 270.00 146.65 263.96 4861 H I I DAF 100.00 100.00 100.00 100.00 _LQ III) 1 Al PTP2 400.00 -251. QQ 389.89 244.66 4991 (n ITT) 1 DAF 22Q-..QQ 22Q.QQ -2.18. 16 218.16 A2 PTP2 220.00 251.00 214.44 244.66 E DUF 133.00 251.00 129.64 244.66 (LMC 662 © American Astronomical Society • Provided by the NASA Astrophysics Data System TABLE 8—Continued 197 6ApJS. . .31. BEGIN N 1Q3 (LHC 0.06 (HYDROGEN LINES» BE6IN N I2Q t LMC... 0.26 (HYDROGEN LINES) WAVE IDENT RG REE OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I CORR I 4349 _I PAF 46.00 46.00 46.85 46.85 3727 _LQ LL_ I DAF 330.00 ..394. 4861 H I I OAF 3969 1 DAF 27.00 27.00 31.00 31.00 4101 1 DAF 24.00 24.00 26.97 26.97 _1NC N L03 LLM£ L_ 4340 _! l PAF, 43.00 46.56 46.56 4471 I DAF 3.50 3.50 3.72 3.72 4861 I DAF 100.00 100.00 100.00 100.00 4991 im DAF 120.00 120.00 118.00 118.00 105 (LHC C = 0.32 (HYDROGEN LINES) AVE O CORR I AVE C 3727 (0 II ) 1 A DAF 280.00 348.87 1 A DU F 312.00 388.74 3835 H_ J 1 A OUF 4.30 5.24 C = 0.85 (HYDROGEN LINES) 3868 (NE III) 1 A DAF 16.00 19.34 3889 H I 2 A DUF 10.60 12.76 WAVE IDENT N RG REF OBS I CORK I aVe c 3889 HE I 2 A DUF 10.60 12.76 3727 (O II ) 1 1 DAF 230.00 412.48 2 A DAF 15.00 17.78 3868 (NE I II) 1 1 DAF 54.00 89.40 2 A DUF 11.00 13.04 3969 (NE III) 2 1 DAF 20.00 31.42 3969 CNE III) 2 A DAF 19,0.0. ■L7.T.78. _L9fr9 .. HI 21 DAF 20,00 31.»2 2 A DUF 11.00 13.04 4101 H I 1 DAF 29.50 29.50 43.19 43. 19 4069 (S II ) 1 A DUF 3.10 3.10 3.60 3.60 4340 H I 1 DAF 36.00 36.00 46.70 46.70 AIQ.1. H I 1 A OAF 21.00 21.60 24.24 24.93 .4.471 HE I 1 DAF 3.50 3,90 ^,27 4.27 1 A DUF 22.20 21.60 25.63 24.93 4861 1 DAF 100.00 100.00 100.00 100.00 4340 1 A DAF 35.00 38.40 38.60 42.35 4991 (0 III ) 1 1 DAF 490.00 490.00 4o3.82 463.82 1 A DUF 41.80 38.40 . 44,10... -42,39 4363 (0 III) l A DUF 1.58 1.58 1.74 1.74 REGION KEY (REGI ON,REFERENCE,EXPLANATION) 4471 HE I 1 A DAF 3.50 3.95 3.77 4.26 1, DAF , INCLUDES NGC 1962, 1965, AND 1970 1 A PUF 4,40 3,99 4.74 4,24 1 A DAF 100.00 100.00 100.00 100.00 l A DUF 100.00 100.00 100.00 100.00 4922 HE I _1 A DUF 0.70 Q.7Q_ -.0^69. . Q,69 4959 (0 III) l A DUF 96.10 96. 10 94.61, 94.61 4991 (0 III) 1 A DAF 290.00 290.00 284.07 284.07 C = 0.13 (HYDROGEN LINES) 5007 _LQ III) 1 A DUF 289.0.0- 289.00 282.32 282.32 5199 (N I ) 1 A DUF 0.80 0.80 0.76 0.76 WAVE IDENT N RG REF OBS I AVE O CORR I AVE C 5518 (CL III) 1 A DUF 0.60 C.60 0.54 0.54 3727 (0 11)1 C DAF 280.00 306.16 5538 (Cl HD J A-DUf.- 0.60 0.60 0.54 0.54 ,4101 ti I 1 C DAF 53.00 5-3.. 0.0 56.18 56J^L8_. 5876 HE I 1 A DUF 15.50 15.50 13.23 13.23 4340 HI 1C DAF 45.00 45.00 4o.83 46.83 6312 (S III) l A OUF 2.70 2.70 2. 18 2.18 4861 HI 1C DAF 100.00 100.00 100.00 100.00 6548 _U( II ) J A DUF 12.QQ 9.42 4991 ( 0 Till 1 C DA F 210.QQ ¿10. QQ 208.24 208.24 6563 l 1 A DUF 360.00 360.00 282'. 07 282.07 6583 (N II 1 A DUF 38.90 38.90 30.41 30.41 6618 HE I 1 A DUF 3.60 3.60 2_. 79 2.79 6716 (S II ) 1 A DUF 30.60 3C.60 23.59 23.59 6731 < S II) 1 A DUF 22.80 22.80 17.55 17.55 7065 HF I J A DUF 3.IQ— 3.10 2.31 2.31 BEGIN N 154 (LHC 1.00 (HYDROGEN LINES) 7136 (AR III) 1 A DUF 15.20 15. 11.25 WAVE IDENT N RG REF OBS I AVE O CORR I REGION KEY ( R FGI QN , REFER FNf.F , EXPL ANAT IQN) 3727 _L0 II 1.1 A DAF 210.00 417.50 DAF NGC 1858 3868 (NE I II) 1 A DAF 13.00 13.00 23.53 DUF NGC 1858 3969 (NE III) 2 A DAF 14.00 23.82 3969 H I 2 A DAF 14.00 23.82 4101 H I 1 A DAF 17.00 17.00 26.62 26.62 4340 H I 1 A DAF 34.00 34.00 46.18 46.18 4471 HF I _J A DAF 9.50 9.50 12.01 12.01 4861 H I 1 A DAF 100.00 100.00 100.00 100.00 C = 1.44 (HYDROGEN LINES) 4991 (0 III) 1 A DAF 190.00 190.00 178.11 178.11 WAVE IDENT N RG REF OBS I AVE O CORR I AVE C (LHC 3727 (O II ) 1 1 DAF 290.00 780.10 1 2 PA.F-, *40, QP 11B3,6Q 3835 DAF 10.00 1C.00 24. 28 24.28 3868 (NE III) l DAF 21.00 21.00 49. 34 49.34 0.09 (RELATED STARS) 3969 _±L 1 PA.F- 9.00 JL3^ 3969 (NE III) 1 DAF .00 19. 34 WAVE IDENT N RG REF OBS I AVE ü CORR I 4101 H I 1 1 DAF 14.00 14.00 26, 70 26.70 3727 (O II ) i C OAF 255.00 271.27 4340 _H L J 1 PAF 30.00 65.00 46. 63 101.03 3835 HI I C DAF 14.00 14.00 lAi 14.80 1 2 DAF 100.00 65.00 155, 42 101.03 3868 (NE III) l C DAF 27.00 27.00 28.48 28.48 1 1 DAF 100.00 100.00 100. 00 100.00 3969 HI 2 C DAF 14.00 14.69 1 2 DAF 100.00 100.00 100. 00 100.00 3969 (NE III) 2 C DAF 14.00 14.69 (0 III) 1 1 DAF 190.00 265.00 173. 12 241.46 4101 C DAF 34.00 34.00 35.40 35.40 1 2 DAF 340.00 265.00 309. 80 241.46 4340 C DAF 48.00 48.00 49.34 49.34 4471 C DAF 8.00 8.00 8. 17 8. 17 REGION KEY (REGI ON,REFERENCE,EXPLANATI ON) 4861 I C DAF 100.00 100.00 100.00 100.00 1, DAF , COVERS N 113 A, B, E, D. INCL. NGC 1874 £ NGC 1877 4991 (0 III) C DAF 280.00 280.00 278.38 278.38 2. DAF , PROBABLY ENTIRE REGION. INCL. NGC 1874. 1876 £ 1877 END 0.31 (HYDROGEN LINES) BEGIN N 119 (LHC C, 19 (HYDROGEN LINES) WAVE IDENT N RG PE F OBS I CORR I WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 3726 (O II ) l DAF 315.00 389.86 3727 LQ II ) 1 DAF 270.00 ¿99,_3¿ I A DAF 2flP-t 00 371.30 1 DUF 224.00 248.32 1 C DAF 160.00 198.03 III) 1 DAF 32.00 18. 76 34.98 20.51 1 DF DAF 300.00 371.30 DUF 5.53 -Lâ-tJA- 6,0^ _2P_t 51 2 A PTP2 120.00 1*8.52 3969 H I 2 DAF 14.00 15.16 3729 (O II ) 2 PTP2 120.00 148.43 3969 ( NE III) 2 DAF 14.00 15.16 3835 H I 1 DAF .00 .00 9.68 9.68 *101 ü I_ DAF 21.00- 21.00 ¿¿«-*6 22.46 3868 ine un i DAF 35.00 _2_*i»frQ *2.07 29.57 1 DAF 38.00 39.65 39.79 41.51 A DAF 32.00 24.60 38.46 29.57 1 DUF 41.30 39.65 43.24 41.51 C DAF 14.00 24.60 16.83 29.57 *363 10 HD 1 DUF 0.48 0.*8 -Q-.-5Q 0.50 DF DAF 16.00 2*,60 19.23 29.57 4471 HE I 1 DAF 2.00 2.00 2.07 2.07 1 A PT P 2 26.00 31.25 4861 H 1 DAF 100.00 100.00 100.00 100.00 3969 (NE III) 2 DF DAF 11.0.0 12.97 DUF 1QQ.QQ 1QQ.QQ 1QQ.QQ IQfl-iQQ 3969 H I 2 DAF 12.00 14.15 4991 ( 0 III) 1 DAF 190.00 190.00 188.17 188.17 2 A DAF 16.00 18.86 5007 ( 0 III) 1 DUF 144.00 144.00 142.43 142.43 2 C DAF 9.00 10.61 5876 HE I 1 DUF 10.70 10.70 9.9* 9.94 2 DF DAF 11.00 12.97 (NE III) 2 DAF 12.00 14. 15 2 A DAF 16.00 13.86 663 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued -133. (LHC _16Q LL.HC WAVE IDENT N RG REF □BS I CORR I WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 3969 (N^ HI). 2 C OAF 9.00 10.61 5876 HE l 1 A PDF .Ut9Q Ut8Q 12»*? _L2-»¿5_ I DAF 31.00 26.80 35.62 30.80 6300 ( O I ) 1 A DUF 2.00 2.00 1.58 1.58 1 A DAF 39.00 26.80 82 30.80 6312 ( S III) 1 A DUF 2.20 2.20 1.74 1.74 1 C DAF 17.00 26.80 19.54 30. 80 6548 ( N II ) 1 A DUF 6.00 4.60 A 1 DF DAF 25.00 26.80 28.73 30.80 6563 1 A DUF 371.00 371.00 284.12 284.12 l A PTP2 22.00 26.80 25.28 30.80 6583 ( N II ) l A DUF 17.70 17.70 13.52 13.52 4340 1 DAF 31.00 39.80 34.09 43.76 6678 HE I 1 A DUF 4.30 4.30 3.25 3.25 1 A DAF 43.00 39.80 47.28 43.76 6716 ( S II ) 1 A DUF 10.80 10.80 8.12 8.12 l C DAF 41.00 39.80 45.08 43.76 6731 ( S II ) l A DUF 9.10 9.10 6.83 6.83 1 DF DAF 43.00 39.80 47.28 43.76 7065 HE I 1 A DUF 5.50 5.50 3.99 3.99 1 A PTP2 41.00 39.80 45.08 43.76 7136 ( AR III) 1 A DUF 20.80 20.80 14.97 14. 97 4363 (0 III) 1 A PTP2 2.72 2.72 2.98 2.98 7320 ( O II ) 1 A DUF 8.40 8.40 5.94 5.94 4471 HE I 1 DAF 6,00 5.02 6.45 5.40 7330 ( O II ) 1 A DUF 7.60 7,60 5.36 5.36 1 A DAF 8.00 5.02 8.60 5.40 1 C DAF 5.00 5.02 5.38 5.40 REGION KEY (REGI ON,REFERENCE,EXPLANATION) 1 DF DAF 2.00 5.02 2.15 5.40 A. DAF , NGC 2080 l A PTP2 4.12 5.02 4.43 5.40 AD, DAF , NGC 2080 NGC 2077 1 DAF 100.00 100.00 100.00 100.00 BC, DAF , NGC 2085 NGC 2086 1 A DAF 100.00 100.00 100.00 100.00 A, DUF , NGC 2080 i C DAF 100.00 100.00 100.00 100.00 1 DF DAF 100.00 100.00 100.00 100.00 (LHC 1 A PTP2 100.00 100.00 100.00 100.00 1 DAF 250.00 335.00 245.04 328.36 1 A DAF 580.00 335.00 568.50 328.36 _1 C DAF 320.00 335*00 328.36 ..BEG-IN. H... -163 ILMC- 0.54 (HYDROGEN LINE$) 1 DF DAF 190.00 335.00 186.23 328.36 5007 (0 III) 1 A PTP2 430.00 430.00 420.36 420.36 WAVE IDENT N RG REF OBS I AVE O CORR I AVE C . 5876 - H£. I _1 A,,PT,P2. H.QQ 14.00 12.Q1 12.01 3727 _LQ II 1 1 DAE,. -25Q..Q.Q.- 362.32 6563 1 A PTP2 400.00 400.00 315.81 315.81 3868 (NE III) 1 OAF 22.00 30.31 30.31 6584 (N II ) 1 A PTP2 21.00 21 .00 16.54 16,54 3969 H I 2 DAF 8.00 10.66 6678 _H£_ A A PTP2 4.22 4.22 3.29 3.29 -3969 INE III) 2 DAE 8.00 10.66 6717 ( S II ) 1 A PTP2 18.00 18.00 13.99 13.99 4101 H I l DAF 20.00 20.00 25.48 25.48 6731 (S II ) 1 A PTP2 13.50 13.50 10.4 10.48 4340 H I 1 DAF 41.00 41.00 48.37 48.37 _7Q65 HE I 1 A PTP2 -_4..49 4.49 3.38 ■ 4861 H I 1 DAE 100.0-0 100 ..00 100.. 00 100.00 7136 (AP III) 1 A PTP2 18.00 13.45 4991 (0 III) l 193.14 193.14 7320 (0 II ) 2 A PTP2 10.20 7.50 7330 _i_Q LI L _2 A PTP2 10.20 7.49 END 163 (LHC REGION KEY ( REGI ON,PEFERENCE,EXPLANATI ON) C. DAF . NGC. 2 084 DF, DAF , NGC- 2083 + NGC 2078 BEGIN N 164 (LHC 0.21 (HYDROGEN LINES) A, PTP2, NGC 2079 HAVE IDENT N RG REF DBS I AVE 0 CORR 1 AVE C 3727 (O II ) 1 DAF 280.00 323.47 3969 H I 1 DAF 12.00 12.00 13.42 13.42 4101 Ü I 1 DAF 62.00 62.00 68.12 68.12 4340 H I 1 DAF 44.00 44.00 46.92 46.92 C = 0.35 (HYDROGEN LINES) 4471 HE I 1 DAF 3.50 3.50 3.68 3.68 4861 H I 1 DAF 1QQ.Q.Q LQQ.QQ LQQ.QQ 10Q.QQ... WAVE IDENT N PG REF DBS I CORR I 4991 (0 III) 1 DAF 180.00 177.57 3727 (0 II ) 1 DAF 140.00 178.07 1 AD DAF 160.00 ¿03.50 END N 164 (LHC 1_ l BC DAF 270.00 343.41 1 A DUF 103.00 131.01 _J A DUF .2.50 -2.SQ 3. 16 3.16 3771 A DUF 3.20 3.20 4.03 4.03 C = 0.16 (C = 0.10*CSC B) 3798 A DUF 3.70 3.70 4.63 4.63 3835 DAF 8.00 6.20 9.92 7.69 WAVE IDENT N PG REF OBS I AVE □ CORR I AVE C DUF 4.40 6.20 5.46 7.69 3727 (O II ) 1 DAF 310.00 346.03 DAF 28.00 21.25 34.46 26.15 3868 (NE III) l DAF 32.00 32.00 35.19 35.19 AD DAF 24.00 -.21.25. ¿9., 54. 26.15 _J363_ _t! L_ DAF 18.00 . 1-9...60— 1 BC DAF 16.00 21.25 19.69 26.15 3969 (NE III) 2 DAF 18.00 19.60 1 A DUF 17.00 21.25 20.92 26.15 4101 H I 1 DAF 60.00 60.00 64.46 64.46 1389_ H I_ _2 A DUF 12.10 . 1.4t.8¿ . . .4.3.4-Q— DAF 63.00 63.00 66.16 3889 HE I 2 A DUF 12.50 15.31 4471 HE I 1 DAF 9.50 9.50 9.86 9.86 3969 H I 2 DAF 15.00 18.07 4861 H I 1 DAF 100.00 100.00 100.00 100.00 2 AD DAF 20.00 24.09 . 4991 LQ y.LL-1 OAF 240,00 24O,.0_O 237,53 237,?3 2 BC DAF 11.00 13.25 2 A DUF 18.20 21.92 (NE III) 2 DAF 15.00 18.07 2 AD DAF 20.00 24.09 2 BC DAF 11.00 13.25 2 A DUF 18.20 21.92 .P.EQIN „N _L9fl LLM£_ 0.12 (HYDROGEN LINES) 4069 (S II ) 1 A DUF 2.60 2.60 3.06 3.06 4101 H I l DAF 18.00 25.25 21.06 29.54 WAVE IDENT N RG REF OBS I AVE D CORR I AVE C 1 AD DAF 24.00 25.25 28.08 29.54 3727 (0 11)1 1 DUF 305.00 331.22 1 BC DAF 35.00 25.25 40.95 29. 54 4340 I 1 DUF 44.60 44.60 46.27 46.27 1 A DUF 24.00 25.25 28.08 29.54 4363 III) 1 DUF 1.10 1.10 1.14 1.14 _H L_ Jl DAF _?JL._00. 39,72 42.30 44.22 486.1. . _J 1 DUF 100.00 100.00 100.00 100.00 1 AD DAF 36.00 39.72 40.07 44.22 5007 (0 III) l l DUF 105.00 105.00 104.08 104.08 1 BC DAF 46.00 39.72 51.20 44.22 5876 HE I 1 1 DUF 9.90 9.90 9.33 9.33 1 A PUF 38«9Q 39.72 43.30 44.22 6563 H I L_ 1 DUF . 309«-Q.Q_ -3-Q5U.QQ. 29.U9? ¿JU.t.?9 - 4363 (0 III) 1 A DUF 1.97 1.97 2.18 4471 HE I 1 DAF 8.00 10.47 11.36 REGION KEY (REGI ON,REFERENCE,EXPLANATI ON) 1 BC DAF .19.QQ 1C.47 20.62 11.36 1. DUF . NGC 1833 1 A DUF 4.40 10.47 .78 11.36 1 DAF 100.00 100.00 100.00 100.00 END N 190 (LHC _1 A DAF 100.00 1QQ.QQ ■■i.aa^Q.Q 100.00 1 AD DAF 100.00 100.00 100.00 100.00 1 BC DAF 100.00 100.00 100.00 100.00 _J A DUF 100.00 1QQ.QQ 1QQ.QQ 100.00 BEGIN N 214 (LHC Q.38 (HYDRQG&N LINES) 4922 HE I 1 A DUF 1.30 1.30 1.29 1.29 4959 (0 III) 1 A DAF 106.00 130.00 104.21 127.80 AVE 0 CÛRR I AVE C -1 A DJF 154.QQ -L3Q« QQ 151.4Q -12..7.« 80 3727 (Q II ) C DUF ¿6Q.QQ . 337.58 1 DAF 435.00 416.67 425.27 407.35 3835 HI l C DUF 3.00 3.00 3.79 3.79 1 AD DAF 435.00 416.67 425.27 407.35 3869 (NE III) 1 C DUF 10.90 10.90 13.65 13.65 1 BC DAF 3BQ.Q0 416.67 371.50 407.35 3889 d I I C DUF ll.QQ ll.QQ 13.71 13.71 5007 (0 III) 1 A DAF 300.00 381.00 292.42 371.37 3889 HE 1 C DUF 11.00 11.00 13.71 13.71 1 A DUF 462.00 381.00 450.33 371.37 3969 H 1 C DUF 12.50 12.50 15.30 15.30 .5518 (Cl III) 1 A DUF Q.6Q Q.6Q -XL. 5.3 0.53 3969 (NE I) 1 C DUF 12.50 12.50 15.30 15.30 5538 (CL III) A DUF 0.40 .40 0.35 0.35 4069 (S III) 1 C DUF 2.70 2.70 3.23 3.23 5755 (N II ) A DUF 0.50 0.50 0.43 0.43 4102 HI 1C DUF 16.90 16.90 20.03 20.03 664 © American Astronomical Society • Provided by the NASA Astrophysics Data System TABLE 8—Continued 197 6ApJS. . .31. 2-1* LLÜC— (SMC WAVE IDENT N RG REF DBS AVE 0 CORK I AVE C WAVE IDENT N RG REF OBS I CQRR I AVE C *3*0 _L_ .1 C Pll^. 39.90 39.9Q ***-9-2_ 41.82 3889 HE I l 1 PAF -20.00 20.00 *363 (0 III) 1 C DUF 1.90 1.90 2. 12 2.12 2 A DUF 12.60 12.60 *471 HE I l C DUF 3.40 3.40 3.72 3.72 2 l DAF 36.00 36.00 -.*9*1- _L C PU.E- 100.00 100.00 100.00 100.00 2 A DUF 23.50 23.50 4922 HE I l C DUF 0.80 0.80 0.79 0.79 3969 (NE III) 2 1 DAF 36.00 36.00 4959 (0 III) 1 C DUF 95.90 95.90 94.14 94.14 2 A DUF 23.50 23.50 SQQ7 _LQ LULL 1 C PUF 297.00 297.00 288.86 288.86 *101 H I 1 1 DAF 35.00 35.00 5199 (N I ) 1 C DUF 0.40 0.40 0.37 0.37 1 A DUF 26.00 30.50 26.00 30.50 5518 (CL III) 1 C DUF 0.40 0.40 0.35 0.35 1 l DAF 50.00 48.90 50.00 48.90 5538 (CL III) 1 C DUF 0.30 0.30 0.26 0.26 1 A DUF 47.80 *8.90 47.80 *8.90 5755 (N II 1 C OUF 0.40 0.40 0.3* 0.3* 4363 (0 HI) 1 1 DAF 6.00 6.38 6.00 6.38 5876 HE I 1 C DUF 11.80 11.80 9.7* 9.78 1 A DUF 6.76 6.38 6.76 6.38 -9-3U-2- ($ HD 1 C DUF 1.40 1.40 1.08 4471 he 1 1 DAF 3.60 3.35 3.60 3.35 6548 II ) 1 C DJF 7.00 5.2$ A 1 A DUF 3.10 3.35 3.10 3.35 6563 H I 1 C DUF 295.00 295.00 220.81' 220.81 4861 1 1 DAF 100.00 100.00 100.00 100.00 6583 (N II 1 C DUF 18.30 18.30 13.66 13.66 1 A DUF 100.00 100.00 100.00 100.00 6678 HE I 1 C DUF 2.00 2.00 1.48 1.48 4959 l 1 DAF 155.00 166.00 155.00 166.00 6716 (S II ) l C DUF 18.30 18.30 13.43 13.43 1 A DUF 177.00 166.00 177.00 166.00 $731 ■30 1.30 REGION KEY (REGI ON,REFERENCEtEXPLANATION) 6548 1 A DUF 1.00 1.00 C, DUF , NGC 2103 6563 1 A DUF 281.00 281.00 281.00 281 6SR3 _LN III J A.. DU F 3.4Q 3.*g.- 3.40 U 6678 HE I DUF 1.70 1.70 1.70 1.70 6716 (S II ) DUF 5.90 5.90 5.90 5.90 6731 ( S IT) -DUF 4.00 4.QQ -4,00 4.00 7065 HE I A DUF .40 2.40 2.40 2.40 C ^ 0.21 (C = 0.10*CSC 8» 7136 (AR III) A DUF .00 8.00 8.00 .00 WAVE IDENT N RG REF OBS I CORR I REGION KEY (REGI ON,REFERENCE,EXPLANATION) 3727 (O II ) l A DAF 210.00 242.60 1, OAF , NGC 346 _1 B DAF 260.00 300,36 - 3868 (NE III) 1 B DAF 79.00 79.00 89.48 89.48 (SMC 3969 HI 1 A DAF 18.00 18.00 20.12 20.12 *101- ti I 1 A DAF. 35.00 5*.QQ- 38.46 . .59.33 B DAF 73.00 54.00 80.21 59.33 A DAF 58.00 78.50 61.85 83.71 C = 0.35 (HYDROGEN LINES) _1 8 PAF 99.00 78.5Q 93.71 1 A DAF 100.00 100.00 100.00 100.00 WAVE IDENT N RG REF OBS I AVE O CORR I l B DAF 100.00 100.00 100.00 100.00 3727 (O II ) 1 WB 80.00 101.75 *991 1 B DAF 630.00 630.OP 621.51 621.51 - 43.4Q ti I 1 Wfi —42.00 42.00 46.75 III) l A DAF 4861 I 1 100.00 100.00 100.00 100.00 5007 (0 III) 1 282.00 282.00 274.88 274.88 REGION KEY (REGI ON.REFERENCE.EXPLANATION) DAF NGC 261 ( SMC DAF NGC 249 (SMC C = 0.21 (C = 0.10*CSC B) WAVE IDENT N RG REF OBS I AVE O CORR I AVE C BEGIN NS C = 0.21 (HYDROGEN LINES) 3727 (O II ) 1 DAF 180.00 207.94 3868 (NE III) 1 DAF. -127 ..QQ 127.QQ 143.85 143.85 WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 3969 I 2 DAF 43.00 48.08 3727 (0 II ) l DAF 485.00 560.29 3969 (NE III) 2 DAF 43.00 48. 08 4101 I 1 DAF 37.00 37.00 40.65 40.65 4101 H I 1 DAF 67.00 67.00 73.62 73.62 4340 I 1 DAF 44.00 44.00 *6.92 46.92 4340 DAF 60.00 60.00 63.99 63.99 4861 I 1 DAF 100.00 100.00 100.00 100.00 4861 I 1 DAF 100.00 100.00 100.00 100.00 4991 _LQ_ III) 1 DAF 210,9.9- 210,.99. 207.17 207.17 4991 _L£L III) 1 OAF 760.00 760.00 749.76 749.76 END 19 END BEGIN NS -16 LSMC.. C.= 0.21 (C Q.1Q»CSC B) BEGIN NS C = 0.21 (C = 0.10*CSC B) WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDFNT N RG REF OBS I AVE 0 CORR I AVE C 3727 (O II ) 1 DAF 260.00 39.Q-f.36_ 4861 1 1 DAF 100.00 100.00 100.00 100.00 4101 1 DAF 39.00 39.00 42.85 42.85 (O 111 ) 1 1 DAF 4340 1 DAF 89.00 89.00 94.91 94.91 *861 _1 DAF 100,00 IQQtQQ 1.00...00 1Q0.00 REGION KEY (REGI ON.REFERENCE.EXPLANATION) 4991 (0 III) 1 DAF DAF NGC 3 95 _EN£ NS 3* LSM£ L_ BEGIN NS 37 (SMC ) C = 0.21 (C = 0.10*CSC B) BEGIN NS 80 (SMC ) C = 0.21 (C = 0.10*CSC WAVE IDENT N RG REF AVE O CORR I WAVE IDENT N RG REF OBS I AVE 0 CORR 1 3727 (O II ) 1 DAF 280.00 323.47 4861 H I l DAF 100.00 100.00 100.00 100.00 4101 H I 1 DAF 53.00 53.00 58.23 58.23 4991 (0 III) 1 DAF 270.00 270.00 266.36 266.36 4340 H I 1 DAF 88.00 88.00 93.85 9-U.-85- 4861 H I 1 DAF 100.00 100.00 100.00 100.00 4991 (0 III) 1 DAF 310.00 310.00 305.82 305.82 37 C• 18 (HYDROGEN LINES) WAVE IDENT N RG REF OBS I CORR I BEGIN NS (SMC 0.0 (HYDROGEN LINES) 3727 (O II ) 1 DAF 250.00 282.92 _1 A DUE 173.00 195.78 WAVE IDENT N RG REF OBS I AVE O CORR I (NE III) 1 DAF 35.00 24.65 38.94 27.43 3727 (0 11)1 1 DAF 140.00 140.00 1 A DUF 14.30 24.65 15.91 27.43 1 A DUF 69.30.- 69-. 30 3889 _I 2 A DUF 12.50 13.87 3835 HI 1 A DUF 3.70 3.70 3.70 3.70 3889 HE I 2 A DUF 12.50 13.87 3865 (NE III) 1 1 DAF 60.00 60.00 60.00 60.00 3969 H I 2 DAF 18.00 19.81 3869 (NF III) 1 A DUF 31.20 31.20 3.1.20 31.2Q _2 A DUF -15.20 2 1 DAF 20.00 20.00 (NE III) 2 DAF 18.00 19.81 2 A DUF 12.60 12.60 2 A DUF 15.20 16.73 665 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued N5_ 83 (SMÇ NGC 595 (M 33 WAVE IDENT N RG REF OBS I AVE 0 CQRR AVE C IDENT N RG REF OBS I AVE O CORR I AVE C fr-LOl H I _J DAF 38,QQ 28.95 _il»19_ 31.38 -LU. III J L_ Mil 13Q.Ü9 UO.flfl 128.17 UÆ*17 l A DUF 19.90 28.95 21.57 31.38 6563 I l 49 CM 100.00* 84.56* 1 DAF 63.00 52.90 66.57 55.90 6584 (N II } 1 49 CM 7.40* 6.25* l A DUF »2-80 52.90 45.23 55.90 ,6717 (S II 1 1 V? ÇM 1-6Q» l.t.14» 4363 (0 III 1 A DUF 3.65 3.65 3.85 3.85 6731 ( S II I 1 49 CM 1.10* 4471 HE I 1 A DUF 3.70 3.70 3.86 3.86 4861 _H I 1 OAF 100.00 100.00 100.00 100.00 REGION KEY (REGI ON»REFERENCEtEXPLANATI0N1 1 DUF 100.00 100.00 100.00 100.00 49» CM SAME AS CC 49 4959 10 II I) 1 DUF 121.00 121.00 119.94 119.94 4991 (0 II I) 1 OAF 330.00 330.00 326. 18 326.18 5007 to III DUF 366.00 366.00 361.22 361.22 5876 HE I DUF 12.80 12.80 11.71 11.71 6548 IN II DUF 3.00 2.62 A 6563 H I DUF 306.00 3C6.00 266.76 BEGIN NGC 604 tM 33 C = 0.22 (HYDROGEN LINESI 6583 (N II DUF 10.20 10.20 8.88 6678 HE I DUF 3.00 3.00 2.60 -MAVE- IDENT N RG REF OBS AVE O CÚRR I AVE C 6716 ( S II ) l A DUF 21.30 21.30 18.40 18.40 3686 H 1 ACM 1.20 1.20 1.40 1.40 6731 t S II > l A DUF 14.40 14.40 12.43 12.43 3691 1 AC W 1.40 1.40 1.64 1.64 . 7_L3_& (AR II I) 1 A DUF 10.40 IQ.t.iO 8.78 8.78 3697 _J ACM i t IQ _1 » 7 Q_ 1^9 1.99 3704 AC W 2.50 2.92 REGION KEY (REGION,REFERENCE,EXPLANATI ON) 3704 HE I ACM 2.50 2.92 A» DUF » NGC 456 3712 _d I_ _1 ACW 2.00 2.00 2 » 3.3 2.» 3 3 3721 H I 2 ACW 6.10 7.10 3721 IS III) 2 ACW 6.10 7.10 3726 _LQ LL ) 1 173*30 -201*23- ACW 66.00 76.78 P70 263.00 305.97 BEGIN NS t SMC 0*21 tC = QtlQ»£SC B) 1 PS 234.00 -272t23 1 SR 71 210.00 244.31 WAVE IDFNT N RG REF OBS I CORR I 3728 (0 II ) I ACW 94.00 109.31 3727 _LQ II > 1 HAF 340.00 623.83 3734 _.JU_ _L _J LLM 2m-lQ 2.7Q 3.14 3.14 3868 (NE III) 1 DAF 87.00 98.54 3750 H I 1 ACW 2.90 2.90 .36 3.36 3969 H I 2 DAF 24.00 26.83 3770 H I 1 ACW 3.60 3.60 4. 16 4.16 3969 (NE III) 2 DAF 24.00 ¿6.83 3797 _J A£M_ 5l*¿Q- 5.60 - 6.45 6.45 4101 DAF 44.00 44.00 48.34 48.34 3819 HE I 1 ACW 1.40 1.40 1.61 1.61 4340 DAF 73.00 73.00 77.85 77.85 3835 H I 1 ACP 6.55 6.62 7.50 7.59 486-1 DAF 100.00 100.QQ LQQ.QQ 10Q.QQ _1 ACW 6.IQ 6.62 7.67 7.59_ (0 III) l 490.00 490.00 483.40 483.40 3868 (NE III) 1 ACP 7.55 8.77 8.60 10.00 1 ACW 10.00 8.77 11.39 10.00 3888 H 2 15.00 17.Q.4 2 ACW 17.00 19.31 2 ACP 15.00 17.04 2 ACW 17.00 19.31 C = 0.18 (HYDROGEN LINES) (NE III) 2 ACP 21.50 24. 17 1 ACW 3.20 3.60 IDENT N RG REF - OBS I •AVE Q CORR I AVE X -39 70 . ti I 2 71.50 24.16 3727 (0 II 1 DAF 200.00 226.33 1 ACW 15.00 15.00 16.86 16.86 1 1 DUF 167.00 188.99 4026 HE I 1 ACW 2.10 2.10 2.34 2.34 3868 (NE III _1 1 DAF 32.00 35.61 28.37 4068 _JLS II ) A ACM 1.^8 Q -L. 7.00 l DUF 19.00 21.14 4072 (S II ) l ACP 12.40 12.40 13.74 13.74 3969 1 DAF 10.00 11.00 4076 (S II I 1 ACW 1.00 1.00 l.ll l.ll 3969 (NE III) 2 1 DAF 1Q.QQ 11.00 4097 N III 2 24^0 26*50. 4101 l l DAF 17.00 17.00 18.43 18.43 2 ACP 24.00 26.49 4340 1 i AF 62 41.00 38.40 43.32 40.58 l ACW 24.00 26.47 26.49 29.21 -J 1 DAF 31.00 38.40 32.76 40.58 1 PE HA 62 30.90 26.47 34.10 29.21 1 DUF 43.20 38.40 45.65 40.58 l PG MA62 38.70X 42.71X (Q III) 1 1 AF 62 6.30 5.74 6.64 6.05 1 PS 24.50 26.47 27.04 29.21 1 1 DUF 5.18 5.74 5.46 6.05 4267 II 1 ACW 0.20 0.20 0.22 0.22 4471 HE I 1 1 AF 62 3.80 3.80 3.96 3.96 4340 I 2 ACP 37.10 39.69 4861 H I 1 1 AF 62 100.00 100.00 100.00 100.00 1 ACW 44.00 47.70 47.07 51.02 1 DAF 100.00 100.00 100.00 100.00 l PB MA62 50.00 47.70 53.48 51.02 1 l DUF 100.00 100.00 100.00 100.00 1 PG MA 62 60.50X 64.72X 4959 (0 II) l 1 AF 62 164.00 164.00 162.57 162.57 1 P70 49.00 47.70 52.42 51.02 499j (0 II) 1 1 DAF 720.00 720.00 711.68 711.68 -J Pi- 47.80 47.70 51.13 51.02 5007 1 1 AF62 465.00 421.00 458.92 415.50 (0 III) 2 ACP 37. 10 39.57 1 l DUF 377.00 421.00 372.07 415.50 1 P70 1.07 1.07 1.14 1.14 -5876. 1 1 DJF 11.80 11.80 -IQ.ap 10. 80 HE I I AC.W_ 0.60 0.60 0.64 0.64 6563 4471 HE I 1 ACW 6.00 6.00 6.32 6.32 4861 I l ACP 100.00 100.00 100.00 100.00 REGION KEY (REGI ON » PEFERFNCE»EXPLANATI ON) 1 ACW ICKUQQ 100.00 100.00 100.00 AF 62 » NGC 346 1 PE MA 62 100.00 100.00 DAF , NGC 346 1 PG MA 62 100.OOX 100.OOX 1» DUF » NGC 346 1 P 70 IQQt-QQ . 100.00 100.00 100.00 100.00 1 PS 100.00 100.00 100.00 1 SR 71 100.00 100.00 100.00 100.00 1 ACW 2.60 2.60 2.58 2.58 (0 III) 1 ACP 64.70 64.85 64.01 64.16 1 ACW 65.00 64.85 64.31 64.16 0.22 (ESTIMATE) -i?91 (0 III) i $*71 280.00 280.00 276.05 276.05 (0 III) 1 ACP 187.00 197.00 184.02 193.86 WAVE IDFNT N RG REF OBS I AVE Ú CORR I AVE C 1 ACW 198.00 197.00 194.85 193.86 4861 H I 1 SR 71 100.00 100.00 100.00 100.00 1 P70 208.00 197.00 204.69 193.86 4991 (0 III) 1 SR 71 l PS 195.00 197.00 191.89 193.86 5015 HE I 1 ACW 6.00 6.00 5.90 5.90 END NGC 588 (M 33 ) .-5S76 HE I 1 PE MA62 20.00 17.40 17.94 1 PG MA 62 20.OOX 17.94X 1 PS 14.80 17.40 13.27 15.61 6524 _i_N LL ) 1 SR 71 77.00 .77*00— 6?.32 65t?2 BEGIN NGC 592 0.22 (ESTIMATE) 1 BOP IOO.00* 84.56* l PE MA62 354.00 333.33 299.34 281.86 WAVE N RG REF AVE Q CûflR I AVE C -I Ei- 346.QQ 333.33 292.38 281.86 4861 SR 71 100.00 100.00 100.00 100.00 1 SR 71 300.00 2 53.68 4991 (0 III) l SR 71 250.00 250.00 246.47 246.47 (N II ) 1 BOP 14.00* 11.82* A Ei 4.I*3Q_ ,47.80 40.35 40.35 NGC 592 6717 ( S II ) BOP 10.00* 8.36* 6731 f S II ) BOP 8.00* .68* REGION KEY (REGI ON,REFERENCE»EXPLANATION) BEGT N NGC 595 (M 33 0.22 (ESTIMATE) PE, MA62, PHOTOELECTRIC OBSERVATIONS PG. MA62. PHOTOGRAPHIC OBSERVATIONS WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 4861 H I 1 SR 71 100.00 100.00 100.00 100.00 NGC 604 666 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued © American Astronomical Society • Provided by the NASA Astrophysics Data System TABLE 8—Continued 197 6ApJS. . .31. 669 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued BEGIN SR3 15 (M 33 0,07 {HYDROGEN LINES) BEGIN M 51 (M 51 Q.QB iESTIHATE1 WAVE IDENT N RG REF OBS I AVE 0 CORR I WAVE IDENT N RG REF OBS I AVE 0 CORR I 3727 (0 II ) 1 SR 71 140.00 146.90 3727 (0 II ) 1 1 P68 2.60» 2.75» 4861 H I 1 SR 7 1 100.00 100.00 100.00 100.00 1 2 P68 1.90» 2.01» 4991 (0 HU 1 SR71 490.00 490.00 487.79 487.79 1 1 WAR .34.00» 35.92* 6524 (N II ) 1 SR7 1 75.00 75.00 71.17 71.17 10 III ) 1 1 WAR. 4.00» 4. 09* 6563 H I 1 SR 71 300.00 300.00 284.41 284.41 5007 I IT ) 1 1 P68 3.20* 3.18* 1 2 P68 l. 10* 1.09* END SR 3 15 (M 33 ) _1 I WAR 61.Q0» 60.64* 1 2 WAR 40.00* 39.77* I I 1 1 P68 0.52* 0.49* .69* 0.65* BEGIN SP3 C = 0.22 (ESTIMATE) 6548 (N II ) -11 12 P68P68 3.10* 2.92* 1 2 P68 1.50* 1.41* ...WAVE IDENT N RG REF QBS I AVE O CORR I AVE C 6563 to nn.i 2_ WAR 100.00* 94.08* 4861 I 1 SR 7 1 100.00 100.00 100.00 100.00 l 3 WAR 100.00* 94.08* 4991 (0 III) l SR7 1 250.00 250.00 246.47 246.47 l 4 WAR 100.00* 94.08* 6563 -J L P68 3.LQt_ ?.97* P68 3.10* 2.92* WAR 100.00* 94.08* 6584 _LN II ) l 1 Pfr9 7.80* 7.33* 1 2 P68 4.30* 4.04* BEGIN Sp3 21 (M 33 C = 0.22 (ESTIMATE) l l WAR 410.00* 385.50* -J 2 WAR 260.00* 244.47* IDENT N RG REF □ BS I AVE 0 CORR I AVE C 1 WAR 132.00* 124.11* 4861 H I l SR71 100.00 100.00 100.00 100.00 1 4 WAR 40.00* 37.61* (0 III ) 1 S-R71- 400-00 4QQ.QQ 394.35 394.35 IT)? 1 P 7 1 o.,3at_ 0. 36* 2 1 WAR 44.00* 41.23* 2 2 WAR 32.00* 29.98* _1 ÍL. WAR 29.00*-- (S II ) 2 1 P 71 0.38* 0.36* 2 l WAR 44.00* 41.21* ..BEGIN Sp3 22 33 C = 0.22 (ESTIMATE) 2 2_ WAR 37.nn* 79.97* WAVE IDFNT N RG REF OBS I AVE 0 CORR I AVE C 4861 H I 1 SR 7 1 100.00 100.00 1QQ.QQ 1QQ.QQ REGION KFV (REGTON.RFFERENCF.FXPLANATION) 4991 (G III) l SR 71 310.00 310.00 305.63 305.63 1, P68 , 0-3.5 ARCSEC AROUND CENTER 2, P68 , 0-10 ARCSEC ARCUNC CENTER END SR3 22 (M 33 ) 1. P71 . SAME NOTE AS P68 WAR , NUCLEUS. 2.5 ARCSEC CIRCULAR APERTURE WAR , NUCLEUS. 6.0 ARCSEC CIRCULAR APERTURE WAR . Nllf.l F1IS. 30 ARCSEC APER-Ul&f BEGIN SR3 23 (M 33 ) C = 0.22 (ESTIMATE) 4, WAR , 30 ARCSEC OFF NUCLEUS. 2.5 ARCSEC CIRC. APERTURE WAVE IDENT N RG REF QB.S_ I AVE Q CORR I AVE C END M 5J (M 51 ) 4861 H I 1 SR 71 100.00 100.00 100.00 100.00 4991 (0 III) l SR 71 250.00 250.00 246.47 246.47 BEGIN SR5 0.20 (ESTIMATE) N RO REF AVF n CORR I AVE-C- 4861 H I l SR71 100.00 100.00 100.00 100.00 C = 0.22 (ESTIMATE) 4991 (0 III) 1 SR 71 16.00 16.00 15.79 15.79 WAVE IDENT N RG REF OBS I AVE O CORR I AVE C 4861 H I 1 SR71 100.00 100.00 100.00 100.00 4991 IG TIT) 1 SR 7 1 700.00 700.00 197.18 197.18 = 0.27 (HYDROGEN LINES) WAVE IDENT N RG REF OBS I AVE O CORR I AVE C 4861 H I l SR 71 100.00 ICO.00 100.00 100.00 -PEGIN Sg3 76 (M 33 C = 0.22 (ESTIMATE) 4991 (0 UI? 1 £RI1 20tQQ . 20.00 19.55 19.65 6524 (N ) l SR71 190.00 190.00 155.26 155.26 WAVE IDENT N RG REF OBS I AVE 0 CORR l AVE C 6563 H l SR 7 l 350.00 350.00 284.89 284.89 4861 H I 1 SR 71 100.00 1QQ-QQ. 1QQ.QQ 1QQ.QQ 4991 (0 III) 1 SR71 -END SP_3 26 (M 3-3 fc_ BEGIN SR5 C = 0.20 (ESTIMATE) BEGIN SR3 27 (M 33 ) C = 0.22 (ESTIMATE) WAVE IDENT N RG REF GBS I AVE O CORR I AVE C 4861 H I I SR71 100.00 100.00 100.00 100.00 WAVE IDENT N RG REF OBS I AVE O CORR I AVE C 4991 (0 III) 1 SR71 51.00 51.00 50.35 50.35 4861 H I l SR71 100.00 100.00 100.00 100.00 4991 (0 III) 1 SR71 790.00 790.00 778.85 778.85 BEGIN SR5 51 C = 0.11 (HYDROGEN LINES) 0.22 (ESTIMATE) WAVE IDENT N RG REE OBS I AVE 0 CORR I AVE C 3727 (O II ) 1 SR71 49.00 52.85 WAVE IDENT N RG REF ORS I AVE O CORR I AVE C 4861 H I 1 SR 71 100.00 ICO.00 100.00 100.00 4861 H I l SR 71 100.00 100.00 100.00 100.00 4991 (0 111)1 SR71 27.00 27.00 26.81 26.81 4991 (0 III) 1 SR 71 250.00 250.00 246.47 246.47 6584 (N II ? 1 SR71 170.00 170.00 156. 19 156.19 6563 H I 1 SR 71 310.00 310.00 285.06 285.06 END 4 (M 51 L BEGIN SR 3 30 C = 0.22 (ESTIMATE) C = 0.0 (HYDROGEN LINES) WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 4861 H I 1 SR 71 100.00 100.00 100.00 100.00 WAVE IDENT N RG REE QBS-L- CORR I AVE. C 4991 (0 III) l SR71 I 1 1 WAR 100.00* 100.00* l 2 WAR 100.00* 100.00* END . SR 3 30 (M 33 ) _1 3 WAR 100.00» IQQtQQ* 11)1 l WAR 229.00* 229.00* l 2 WAR 92.00* 92.00* _1 3 WAR 92.QQ* 92.00* 6717 (S 11)1 3 WAR 54.00* 54.00* 6731 (S II ) 1 3 WAR 48.00* 48.00* 670 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued 64 REGION KEY (REG ION,REFERENCE,EXPLANAT ION I BEGIN NGC 5461 (M 101 0-10 (HYDROGEN LINES) 1, WAR , NUCLEUS. 2.5 ARCSEC CIRCULAR APERTURE WAR NUCLEUS. 6.0 ARCSEC CIRCULAR APERTURE WAVE IDENT N RG REF OBS I CORR I AVE C- WAR NUCLEUS. 30 ARCSEC APERTURE 3727 (O II ) 1 PS 166.00 177.81 4102 H 251. QQ 251.QQ 262.49 ? 62.49 (M 64 4340 1 PS 44.70 44.70 46.09 46.09 4861 1 PS 100.00 100,00 100.00 100.00 _1 SR71 IQQt QQ l.q.Q«.Q.Q_ 100.00 100.00 4991 (0 III) 1 SR 71 430.00 430.00 427.23 427.23 2_4 6563 LN II ) H I 1 I SR 7 1 160.00 SR 71 160.00 137.77 13Í.77 6584 (N I I ) 1 PS70 740.00 740.00 186.46 186.46 6724 ( S II ) 1 PS70 250.00 250.00 58.03 58.03 END SRI 2 (M IQl ) 10938 H I PS70 240.00 240.00 12.62 12.62 BEGIN SP1 3 (M 101 ) C = 0.20 (ESTIMATE) WAVE IDENT N RG REF AVF n CDRR I —AVE C 4861 H I l SR 71 100.00 100.00 100.00 100.00 BEGIN NGC 5455 (M 101 0.07 (HYDROGEN L INES) 4991 (0 III) 1 S R 71 13.00 13.00 12.83 12.83 WAVE IDENT N RG REF OBS I AVE O CORR I AVE C 3727 (O II ) 1 SR 71 210.00 220. 35 3868 (NE 111)1 SS 17.00 17.00 17.72 17.72 4101 H I 1 SS 29. 00 29.00 29.92 29.92 4340 H I 1 SS 50. 00 50.00 51.08 51.08 BEGIN SRI C = 0.20 (ESTIMATE) 4363 (0 III) 1 _ü_ 1.80 1.80 1.84 1.84 4471 SS 3. 50 3.50 3.56 3.56 WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 4861 SR 7 1 100.00 100.00 100.00 100.00 4861 H I 1 SR 71 100.00 100.00 100.00 100.00 100.00 100.00 100.00 100.00 4991 (0 III) 1 SR 71 40.00 40.00 39.49 39.49 4991 (0 III) 1 SR 71 440.00 440.00 438.01 5876 HE I l SS 9.30 9.30 8.98 6524 (N II ) 1 SR71 56.00 56.00 53.14 53.14 6563 I 1 SR 71 300.00 300.00 284.41 284.41 6723 II ) l SS 55.00 55.00 51.95 51.95 NGC 5455 (M 101 671 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 8—Continued BEGIN SRI (M 101 C = 0.23 (HYDPQGEN LINES) WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C (NGC 68221 0.71 I HYDROGEN LINES) 3727 10 II ) l SR7I 130.00 152.26 4861 H I 1 SR71 100.00 ICO.00 100.00 100.00 WAVE IDENT N RG REF OBS I CORR I AVE C 4991 (O I I I ) 1 SR71 28.00 28.00 27.59 27.59 3726 (O II I 2 PS1 140.00 228.15 -J>524_ IN II ) 1 S371 22Q-.QQ 22Q.QQ 185.23 185.23 3729 LQ Li-.J 2 PSl I40.nn .227.84 6563 H I 1 SR 71 340.00 340.00 4102 H I 1 PSl 22.00 22.00 30.23 30.23 4340 H I 1 PSl 33.00 33.00 41.02 41.02 END SRI 5 (M 101 ) 4363 <0 III) 1 PSl 3.70 3.70 4.56 4861 HI 1 PSl 100.00 100.00 100.00 100.00 5007 (0 III) 1 PSl 560.00 560.00 531.67 531.67 6563 H I 1 PSl 480.00 480.00 279.37 279.37 C = 0.27 (HYDROGEN LINES) 6584 7.16 3 67.00 3D»F 5/2 5P4D5/2 AK2 0.09 3848.10 D I I 1 47.89 12 3P4D1/2 30401/2 AK2 0.09 3367.16 NF I I 3 67.20 3P2D5/2 30407/2 AK2 0.09 3856.06 SI II 4 56.02 l 3P2D5/2 4P2P3/2 AK2 0.09 3367.16 S III 3 67.18 3D3P0 3P3PI AK2 0.09 3856.06 AR I I » 56.16 55 3P4D3/2 3D2S1/2 AK2 0.09 3385.80 n III 2 84.95 3P5P3 30504 0. 10 3856.06 N I I 4 56.07 30 3P3P2 4S3-P1 AK2 0.09 3385.80 NP I I ? 86.2» 3P4D3/2 3D4D5/2 0.10 3856.06 0 I I 56.16 12 3P4D3/2 30401/2 AK2 0.09 3387.00 S III l 87.13 3D3P1 4P3P0 0.15 3857.58 0 I I l 57.18 13 3P4D5/2 3D2F5/2 AK2 0.04 3411.42 NF I I 1 11.38 3P2P3/2 3D2P3/2 AK2 0.15 3862.41 SI II l 62.59 1 3P2D3/2 4P2P1/2 AK2 0. 14 3439.92 n in 1 40.39 3P1D2 30303 AK2 0.0 3864.34 n 11 1 64.45 12 3P4D5/2 30405/2 AK2 0.14 3444.10 0 III 1 »4.10 3P3P2 303P2 AK2 0.11 3868.73 (NF III) l 68.76 1 2P3P2 2PID2 AK2 8 1.10 3447.00 HP I 1 47.59 21 SO 6lP1 AK2 0.26 3871.69 HE I l 71.82 60 2 1P1 9 102 A K2 0.23 3450.27 HF I 2 50.20 AK2 0.06 3884.20 C III 1 83.80 15 4 3D 1 5 3F2 0.05 3450.27 P III 2 50.9» 3P5D3 3D5F4 AK2 0.06 3888.89 H I ? 89.05 2 2 2P 8 20 AK2 18.10 3454.43 HF T 2 53.21 23P 203D AK2 0.05 3888.89 HP I 2 88.65 2 2 3S1 3 3P2<1 A K2 13.10 3454.43 G III ? 54.90 3P5D2 3D5F2 AK2 0.05 3896.30 0 I I 1 96.30 11 3P4D5/2 3D4P3/2 0.05 3456.87 HP I 56.80 AK2 0.08 3912.50 I I 2 12.09 17 3S2D3/2 3P2P3/2 0.05 3466.28 HF I 65.89 23P 1730 AK2 0.08 3912.50 I I 2 11.96 17 3S2D5/2 3P2P3/2 0.05 3466.28 G III 66.15 3P5D4 305F4 AK2 0.03 3918.91 I I 2 19.01 17 3P1P1 301 PI 0.04 3470.50 0 I I l 70.81 3P2D5/2 4S2P3/2 0.08 3918.91 C I I 2 18.98 3 2P1/2 4 2S1/2 AK2 0.04 3471.89 HE I 1 71.80 23P 1630 AK2 0.12 3920.68 C I I l 20.68 3 2P3/2 4 2SI/2 AK2 0.08 3479.06 HP I 1 78.97 23P 1530 AK2 0.14 3926.48 HE I 1 26.53 2 1P1 8 102 AK2 0.19 3481.95 NE I I 1 81.96 3S2P3/2 3P2S3/2 AK2 0.08 3935.90 HP I 1 35.91 57 2 IP1 8 ISO 0.04 3487.79 HE I l 87.72 23P 1430 AK2 0.14 3946.00 C I I 2 46.35 32 3D4F 4F4F 0.04 3498.69 HP I 1 98.64 23P 1330 AK2 0.17 3946.00 C I I 2 46.35 31 3D2F5/2 4F2F7/2 0.04 3503.50 NE II 1 3.61 3P2F 1/2 3D2PI/2 0.06 3947.90 1 47.60 31 3D4F5/2 4F 2F5/2 0.04 3512.51 HE I 1 12.51 23P 1230 AK2 0. 18 3954.50 1 54.37 6 3S2P1/2 3P2P1/2 0.06 3530.55 HF I 1 30.49 23P 1130 AK2 0.19 3963.00 1 63.13 43 3P2D5/2 4D2P3/2 0.06 3543.10 NF I I 1 42.90 3P4S3/2 304P5/2 KA 0.07 3964.74 HE I 1 64.73 5 2 ISO 4 1P1 AK2 1.35 3554.45 HF l l 54.39 23P 2 1030 AK2 0.23 3967.45 (NF III) l 67.47 1 2P3P1 2PID2 AK2 39.80 3563.00 HF I 1 62.95 ? 3P 103S 0.03 3970.03 H I 1 70.07 1 2 ?P AK2 39.80 3587.21 HE I 1 87.25 23P 2 930 0.34 3995.06 N T I 1 95.00 12 3S1P1 3P102 AK2 0.05 3599.80 HE I ? 99.44 2 3P0 9 3SI 0.08 4009.21 HF I 1 9.27 55 2 1P1 7 102 AK2 0.32 3599.80 HF I ? 99.30 2 3P 2< 1 9 3S1 0.08 4024.03 1 24.04 99 302F 4F2D AK2 0.02 3613.61 HF I 1 13.64 21 SO 51P1 0.45 4026.20 I 1 26.19 18 2 3P 5 30 AK2 2.96 3615.60 MG I I 2 15.64 4 2SI/2 5 2PI/2 0. 10 4041.60 I I 2 41.32 39 3D3F4 4F3G5 0.06 3615.60 N I I 1 5.38 3P3S 1 4S3P0 0.10 4041.60 I I 2 41.31 50 304F5/2 4F4F5/2 0.06 3628.30 NE II l 28.06 3P2P3/ 2 3D2P3/2 0.08 4056.40 C III 1 56.06 2» » 102 5 1F3 KA 0.05 3634.22 HE I 1 34.37 2 3P2 830 AK2 0.55 »060.23 (FE IV ) 1 60.22 i 2P3P2 2P 102 AK2 0.05 3658.70 H I 58.64 22P 3420 AK2 0.0 »068.52 ( S II) 1 68.60 1 3P4S3/2 3P2P3/2 AK2 1.35 3659.43 1 59.42 22P 3320 AK2 0.33 4069.90 69.6» 10 3P4D1/2 3D4F3/2 AK2 0.21 3660.33 1 60.-28 ??P 3220 AK2 0.36 »069.90 69.90 10 3P403/2 3D4F5/2 AK2 0.21 NGC 6572 (PK NG. NGC 6572 (PK NG. 678 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 9—Continued NGC 6572 CPK NO. 34»!1 I) NGC 6572 (PK NO. WAVE IDENT MT TRANSI TION REF OBS I WAVE IDENT MT TRANSITION REF OBS I »072.03 II 10 3P»D5/2 3D4F7/2 AK2 0.18 »609,87 _0 I 93 3D2D5/2 »F2F7/2 AK2 0.07 »072.03 AR I I 2 72.01 33 -»S205/2 »P2D5/2 AK2 0.18 »609.87 2 10.1» 92 3D2D3/2 »F»F5/2 AK2 0.07 »076.19 C I I 2 76.00 36 3D»D7/2 »F»F9/2 AK2 0.66 »621.60 2 21.39 5 3S3P1 3P3P0 AK2 0.07 »076.19 (S II ) 2 76.35 1 3P»S3/ 2 3P2P3/2 AK2 0.66 »621.60 2 21.28 92 3D2D5/2 »F»F5/2 AK2 0.07 »085.00 0 II 1 85.12 10 3P»D5/2 3D4F5/2 AK2 0.05 »630.50 2 30.52 »9 3D2F7/2 »F »G9/2 AK2 0.06 »087.20 N I I 2 87.35 37 3D3F3 »F1F3 KA 0.06 »630.50 2 30.5» 5 3S3P2 3P3P2 AK2 0.06 »089.17 0 T I 2 89.30 »8 3D»F 9/2 »F»G /2 AK2 0.1» »63».05 l 3».16 2 3 2P1/2 3 2D3/2 AK2 0.28 »089.17 SI IV 2 88.86 1 » 2S1/2 2P3/2 AK2 0.1» »638.58 l 38.85 1 3S»P 1/ 2 3P»D3/2 AK2 0.12 »093.20 0 I I l 92.9» 10 3P»D7/2 3D»F7/2 KA 0.06 »6»0.50 »0.6» 2 3 2P3/2 3 2D5/2 AK2 0.50 »097.31 N III 1 97.31 1 3 2S1/2 3 2P3/2 AK2 0.57 »6»1.8l »1.90 2 3 2P3/2 3 203/2 AK2 0.28 »101.70 1 1.7» l 2 2P 6 2D AK2 21.60 »6»l.81 0 I 2 »1.81 1 3S»P 3/2 3P»D5/2 AK2 0.28 »103.32 III 1 3.37 1 3 2S1/2 3 2PI/2 AK2 0.20 »6»7.20 C I 2 »7.»0 l 3 3S1 3 3P2 AK2 0.09 »10».70 I I 1 ».7» 20 3P»P 3/2 3D»D5/2 AK2 0.22 »6»7•20 NE I 2 »7.3» 72 »S»P 5/2 »F »F3/2 AK2 0.09 »116.50 SI IV 1 16.10 1 » 2S1/2 » 2PI/2 AK2 0.06 »6»9.01 0 I 1 »9.1» 1 3S»P5/2 3P»D7/2 AK2 0.29 »119.26 0 I I l 19.22 20 3P»P5/2 3D»D7/2 AK2 0.10 »650.73 0 I 1 50.8» 1 3S»P 1/2 3P»Dl/2 AK2 0.17 »120.79 HF I 1 20.81 16 2 3P 5 3S1 AK2 0.39 »653.70 _g i 1 5».23 18 3 5P1 8 50 KA 0.05 »128.75 AR II 1 28.65 AK2 0.06 »657.97 AR I 2 57.9» 15 »S2P3/2 »P2P1/2 AK2 0.17 »132.87 n 11 1 32.81 19 3P»P1/2 3D»P3/2 AK2 0.08 »657.97 (FE I 2 58.10 3 A 5D» A 3F» AK2 0.17 »1»3.63 HE I 1 »3.76 53 2 1P1 6 102 AK2 0.55 »661.58 0 I 1 61.6» 1 3S»P 3/2 3P»D3/2 AK2 0.15 »i»5.95 2 »5.90 106 3P6P7/2 3D6D7/2 AK2 0.0» »676.06 0 I l 76.23 1 3S»P5/2 3P»D5/2 AK? 0.12 »i»5.95 2 »6.09 106 3P6P7/2 3D6D9/2 AK2 0.0» »702.00 (FE I 3 1.50 2 A 5D3 A 3F3 KA 0.06 »153,27 1 53.30 19 3P»P 3/2 3D»P5/2 AK2 0.09 »702.00 0 I 3 1.23 58 3P2P3/2 3D2P3/2 KA 0.06 »163.25 (K V l 63.30 1 3P»S3/2 3P2D3/2 AK2 0.0» »702.00 n 3 1.76 58 3P2P3/2 3D2P1/2 KA 0.06 »169.0» HE I 3 68.97 52 2 1P1 6 ISO AK2 0.10 »711.21 (AR IV ) 1 11.3» l 3P »S 3/2 3P205/2 AK2 0.80 »169.0» 3 69.23 19 3P»P5/2 3D»P5/2 AK2 0.10 »713.02 HE I 1 13.1» 12 2 3P » 3S1 AK2 0,39 »169.0» 3 68.98 AK2 0.10 »7»0.07 (AR IV ) 1 »0.20 1 3P»S 3/ ? 3P2D3/2 AK2 1.6» »185.»7 1 85.»6 36 3P2F5/2 3D2G7/2 AK2 0.09 »861.21 H I 1 61.33 I 2 2P » 2D AK2 100.00 »186.98 1 87.05 18 » 1F3 5 1 G» AK2 0.0» »921.81 HE I 1 21.93 »8 2 1P1 1D2 AK2 0,0 »189.83 l 89.79 36 3P2F7/2 3D2G9/2 AK2 0.08 »931.19 I I I I 31.00 l 2P3P0 2PID2 AK2 0.0 »192.90 1 92.50 »2 3P2D5/2 3D2P3/2 KA 0.0» »959-. 9» im 58.92 1 2P3P1 2P1D2 AK2 368.00 »2»!.80 ? »1.79 »7 3D3D2 »F1F3 AK2 0.07 »2»!•80 2 »1.79 »8 3D3D3 »F3D3 AK2 0.07 NGC 6572 (PK NO. 3»+11 1) »253.60 I 11 1 53.59 » »S3P2 »P3D3 AK2 0.05 .»267.12 T I \ 67.27 6 3 Z05/¿ » ¿F7/2 -fl.63 »275.68 1 75.52 67 3D»D7/2 »F»F9/2 AK2 0.07 »276.55 2 76.71 5» 3D»P 3/2 »F»Dl/2 AK2 0.05 BEGIN NGC 7009 (PK NO. 37-3» 1) »276.55 2 76.71 67 3D»D5/2 »F»F7/2 AK2 0.05 »283.70 I I 1 83.75 67 3D»D3/2 »F»F3/2 KA 0.06 WAVE IDENT TRANSITION REF OBS I »288.00 I I I 1 88.21 AK2 0.08 3121. 71 0 III l 21.71 3P3SI 3D3PI AK I 0.8» »292.50 I I 1 92.23 78 3D2F5/2 »F»F5/2 AK2 -9.07 3132, 87 0 III J 32.,8_6_ 3PQS1 303P2 AK1 »295.30 2 96.11 »2 3D2D5/2 »F2D5/2 KA 0.06 3187. I l 87.7» 3 23 S »3P AK 1 1.50 »295.30 2 9».82 5» 3D»P3/2 »F»D5/2 KA 0.06 3203. I I 1 3. 10 l 32D 5 2P AK 1 3.00 »303.82 1 3.82 5» 3D»P5/2 »F »D7/2 AK2 -9.06 3218. I I 2 18.10 107 3P6P7/2 »S6S5/2 »313.60 C II 2 13.50 28 3P»P3/2 »S»P5/2 KA 0.0» 3218, TI ? 18.21 3P»D 7/2 3D»F9/2 0.05 »313.60 OH 2 13.»3 78 3D2F7/2 »F»F9/2 KA 0.0» 3260. 111 l 60.98 3P30 2 3D3F3 AK 1 0. 16 »317.50 O II 2 17.1» 2 3S»Pl/2 3P»P3/2 AK? -9. 10 3263 Ü 1 63.»3 3P»m/2 3D2D3/2 4K1 Q.-L5 »317.50 n 11 ? 17.65 3D»P3/2 »F2D5/2 AK2 0.10 3265. I I I 1 65.»6 3P3Ü3 3D3F» AK 1 0.L1 »319.»5 o 11 1 19.63 3$»P 3/2 3P»PS/2 AK2 0.09 3267. I I I 1 67.31 3P3D1 3D3F2 AK 1 0.06 ^322.00 c 11 1 21.95 3P»P3/2 »S»P3/2 AK2 0.07 3299. III 1 99.36 3S3P0 3P3S1 AK 1 Pt9-1 »325.90 II 25.88 3P »P 3/ 2 »S»Pl/2 AK2 0.0» 3305, 15 □ I l 1 5.15 3P»P 5/2 »8»P3/2 AK 1 0.05 »325.90 l I I 3 25.70 3 S IP 1 3PID2 AK2 0.0» 3306, 60 0 II l 6.60 3P»P 3/2 »S»Pl/2 AK1 0.06 »325.90 3 25.77 3S»Pl/2 3P»P1/2 AK2 0.0» 3312. bo n 111 1 12.30 3S3P1 3P3S1 AK 1 2.12 »3»0.38 1 »0.» 7 1 2 2P 5 2D AK2 3».80 3323. 1 23.75 3S2P3/2 3P2P3/2 0.08 »3»2•7 0 2 »2.83 103 3D2D3/2 »F2D3/2 AK2 0.22 3329. l 29.20 3R»D7/2 3D»D7/2 0.08 »3»2.70 2 »2.8» »3 »P»n3/2 5S»p5/2 AK2 3331. 1 31.32 3P3D2 »S3P1 0.09 »3»5.38 n T I l »5.56 »S»P 3/2 3P»Pl/2 AK2 0. 16 333». 87 NE I I l 3».87 3S»P 5/2 3P»D7/2 AK 1 0.28 »3»6.80 (FE I I ) 1 »6.85 A »F7/2 A »G /2 AK2 0.08 33»0. 7» P I I I l »0.7» 3S3P2 3P3S1 AK l 2.82 »3»8.2» N III l »8.36 3P»07/2 3D»D7/2 AK2 0.09 3 3»2, 50 (NE III) 1 »2.50 2P in 2 2P1S0 AK 1 0. 18 »3»9.»5 0 I I l »9.»3 3S»P 5/2 3P»P5/2 AK2 0. 15 335». 00 N I I I 1 5».29 3 S»P 3/2 3P»P5/2 KA 0.05 »363.10 (n 11 n l 63.21 2P 102 2P ISO AK2 8.10 335». 2 5».55 2 l SO 71 P1 AK 1 0.18 »366.78 n 11 l 66.90 3S»P 5/2 3P»P3/2 AK2 0.13 335». ? 55.05 3S »P 3/2 3P»D5/2 AK 1 0.18 »368.25 C I I 1 68.1» 3D»P »F»D AK2 0. 15 3367. 00 0 l 67.00 30»F 5/2 5P»DS/2 AKI 0. 10 »372.0» P I I 2 71.65 3D2F7/2 »F»G9/2 AK2 0.0» 3399. 80 (FF 1 0.30 3D5D2 3P3G3 AK 1 0.05 »372.0» AR T I 2 72.09 »P »S 3/2 5S2P1/2 AK2 0,0» 3»05. l 5.7» 3P3P0 303P1 AKI 0.1» »379.11 N III 1 79.09 5 2G AK2 0.06 3»08. 1 8.13 3P3P1 3P3P0 AKI 0.08 »387.8» HF I 1 87.93 2 IP1 5 ID2 AK2 0.55 3» 11 . 2 11.76 3 2P3/2 3 2D5/2 AKI 0.05 »390,30 MG I I 1 90.56 » 2P3/2 5 2D AK2 0,05 3» 11. 2 11.38 3P2P3/2 30 2P3/2 AKI 0.05 »391.78 S I I 2 91.8» »P»05/2 5S»P5/2 AK2 0.06 3»1», 80 NF IT 1». 82 3P 20 3/2 302F5/2 AKI 0.18 »391.78 NF II 2 91.9» 3D»F 7/2 »F»G9/2 AK2 0.06 3»1», I I I 2 15.29 3P3P1 3D3PI AKI 0.18 »»11.13 C I I 1 11.20 30 20 3/ 2 »F2F5/2 AK2 0.06 3»17. I I 1 17.71 3P2D5/2 3D2F7/2 AKI 0.07 »»I».8 l 1 l»•91 3S2P3/2 3P2D5/2 AK2 0.07 3»25. 57 (NF 2 25.87 2P3P2 2P1D2 AKI 0.05 »»16.9» P I I 2 16.98 3S2P 172 3P2D3/2 AK2 0.06 3»25, 57 P IV 2 25.57 3S»P 5/2 3P »D 3/2 AKI 0.05 »»16.9» NE I I 2 16.77 3D2D5/2 »F»03/2 AK2 0.06 3»21 70 I IT 1 28.67 3P3P 1 3D3P2 AKI 1.20 »»28.28 NF I I 2 28.5» 3D»F5/2 »F»G5/2 AK2 0.07 3»30. I I I 1 30.60 3P3P2 3D3P1 AK 1 0.21 »»28.28 NE I I 2 28.5» 3D 20 5/2 »F »D5/2 AK2 0.07 3»38, I I 2 38.97 3P2P 1/2 3D2P3/2 AKI 0.07 »»30.50 NE I I 1 30.90 3D»F 3/2 »F»F3/2 AK2 0.0» 3» 38. I I 2 38.1» »P»D5/2 »D2D3/2 AKI 0.07 »»32.93 1 32.7» 3D2P2 »F3D3 AK2 0.0» 3»»0, I I I l »0.39 3P1D2 3D3D3 AKI 0.03 »»37.»3 l 37.55 2 1P1 5 ISO AK2 0.16 3»»2. I I l »2.12 3P»S3/2 »S»P5/2 AKI 0.06 »»»6.90 1 »7.03 3P 1P1 3D1D2 KA 0,05 3»»», I I I 1 »».10 3P3P2 3P3P2 AKI 5.25 »»»8.90 I I l »8.21 3P2F7/2 3D2F7/2 KA 0.05 3»»7. 59 HE l »7.59 AKI 0.13 »»52.90 I I l 52.38 3S2P3/2 3P2P3/2 KA 0.05 3»53. 2 0 HF l 53.20 KA 0.03 »»65.16 I I 1 65.»0 3S6S5/2 3P6P7/2 AK2 0.03 3»56. 80 HE 1 56.80 KA 0.03 »»67.82 n 11 2 67.88 3S6S5/2 3P6P5/2 AK2 0.05 3»61, 00 HE l 61.00 KA 0.03 »»67.82 s in 2 67.83 30303 »P3D3 AK2 0.05 3»6». 21 AR l 6». 1» »P2D5/2 »D2F5/2 AKI 0.02 »»71.37 HF I 71.»8 3P 3P AK2 5.02 3»66. 0» HE 1 65.89 23P 1 73D AKI 0,05 »»80.9» MG I I 1 81.12 3 20 3/2 5 2P5/2 AK2 0.0» 3»72, I l 71.80 23P 163D AKI 0.03 »511.08 N III 2 10.92 3S»P 3/2 3P»D5/2 AK2 0.05 3»78. I l 78.97 23P 15 3D AKI 0.06 »511.08 (K IV ) 2 10.93 3P ID2 3P1S0 AK2 0.05 3»80, I I 1 80.75 3S2S1/2 3P2P1/2 AKI 0.0» »53».29 MG I I 1 3».26 9 2G AK2 0.05 3»87, l 87.72 23P 1»3D AKI 0.02 »562.72 NF I I l 62.05 3D»D 3/2 »F»03/2 AK2 0.06 3»95. l 95.»» 3D»D7/2 5P4P5/2 KA 0.0» »571.01 Mr, J 1 71.10 3 ISO 3 3P1 AK2 0.70 3»98, 1 98.6» 23P 1 33D AKI 0.07 »590.81 P 11 1 90.97 3S2D5/2 3P2F7/2 AK2 0.08 3512. 1 12.51 23P 12 3D AKI 0.06 »596.12 0 I I 1 96.17 3S203/2 3P2F5/2 AK2 0.06 3530. 1 30.»9 23P 11 3D AK l 0.1» »598.66 AR I I 1 98.77 3D¿03/ 2 »P2P3/2 AK2 0.05 35»2. 1 »2.28 3P2D5/2 3D2P3/2 0.03 »60».55 (FF I I A 609/2 A »H7/2 AK2 0.05 355». I 1 5».39 23P2 10 3D 0.17 »606.80 N I I 39 3P 0 3P3PI AK2 0.05 3558. I I 1 57.8» 352PI/2 3P2SI/2 0.03 (PK NO. 3»+ll 1) NGC 7009 (PK NO. 37-3» 1) 679 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. TABLE 9—Continued NGC 7009 (PK NO. 37-34 1) NGC 7009 (PK Nn. WAVE IDENT MT TRANSITION REF OBS I WAVE IDENT N R MT TRANSI T ION REF OBS I 3561.00 NE II I 61.23 31 3P4S3/2 3P4F5/2 KA 0.03 3864.60 0 I I 2 64.68 12 3P2D5/2 3D4D3/2 KA 0.04 3568.62 NE II 1 68.53 3S2D5/2 3P2F7/2 AK 1 0.12 3864.60 0 I I 2 64.45 12 3P2D5/2 3D4D5/2 KA 0.04 3574.29 NE II l 74.23 3S2D5/2 3P2F5/2 AK l 0.03 3868.63 (NE III) l 68.76 1 2P3P2 2P1D2 AKl 100.00 3587.36 HE I 1 87,25 31 23P2 93D AK 1 0.23 3871.73 HE I 1 71.82 60 2 1P1 9 102 AK1 0.08 3599.70 HE T 2 99.44 30 2 3P0 9 3S1 KA 0.04 3875.30 II 1 75.82 13 3P4D7/2 3D2F5/2 KA 0.03 3599.70 HE I 2 99.30 30 2 3P 2< I 9 3SI KA 0.04 3882.38 II 1 82.45 Il 3P4D3/2 3D4P3/2 AKl O.ll 3613.70 HE I 1 13.64 21 SO 51P 1 AKl 0.17 3888.79 I 2 89.05 2 2 2P 8 2D AKl 18.90 3634.35 1 34.24 28 23P2 8 3D AKl 0.40 3888.79 HE I 2 88.65 2 2 3S1 3 3P2<1 AKl 18.90 3648.90 0 III L 49.20 35 3P3P2 3D3D1 KA 0.03 3891.44 (FE V ) l 91.28 3 3D5D4 3D3F4 AKl 0.11 3657,59 2 57.27 7 22P 3620 AKl 0.24 3895.66 (FE V ) 1 91.28 3 3D5D4 3D3F4 AKl 0.09 3657.59 2 57.93 22P 352D AKl 0.24 3907.38 II 1 7.45 Il 3P4D5/2 3D4P5/2 AKl 0.03 3658.81 l 58.64 22P 342D AKl 0.23 3912.00 I I 2 12.09 17 3S2D3/2 3P2P3/2 KA 0.03 3659.28 1 59.42 22P 332D AKl 0.22 3912.00 II 11.96 17 3S2D5/2 3P2P3/2 KA 0.03 3660.22 1 60.28 6 22P 322D AKl 0.21 3918.91 I I 2 18.98 4 3 2P1/2 2S1/2 AKl 0.04 3661.25 1 61.22 6 22 P 31 2D AKl 0.21 3918.91 I I 2 19.01 17 3P1P1 3D 1 PI AKl 0.04 3662.29 1 62.26 6 22 P 302D AKl 0.24 3920.52 I I 1 20.68 4 3 2P3/2 2S1/2 AKl 0. 3663.40 1 63.41 22P 292D AKl 0.0 3923.51 HF II 1 23.48 4 4 2F 15 2S AKl .18 3664.48 H I 1 64.63 22P 282D AKl 0.27 3926.56 HE I 1 26.53 58 2 IP1 8 1D2 AKl 0.16 3665.93 1 66.10 22P 2 72 D AKl 0.27 3928.87 S III 2 28.62 8 3D3D3 4P3D2 AKl 0.02 3667.52 l 67.68 5 22P 262D AKl 0.32 3928.87 A» I I 2 28.62 10 4S4P1/2 4P4S3/2 AKl 3671.32 1 71.48 5 22P 242D AKl 0.38 3933.19 S I I 1 33.29 55 4P2D5/2 4D2F7/2 AKl 0.03 3673.61 1 73.76 5 22? 232D AKl 3944.87 n ii 1 45.05 6 3S2P1/2 3P2P3/2 AKl 0.03 3676.25 H Î 1 76.37 4 22P 222D AKl 3947.99 I I 1 48.15 32 3D4F7/2 4F4F7/2 AKl 0.05 3679.25 H I 1 79.36 4 22P 2120 AKl 0.49 3954.94 I I 1 54.37 6 3S2PI/2 3P2P1/2 AKl 0.04 3682.74 H I 1 82.81 4 22P 202D AKl 0.60 3955.90 II 1 55.85 6 3S3P1 3P1D2 KA 0.03 3686.86 1 86.83 4 22P 192D AKl 0.68 3964.79 HE I 1 64.73 5 2 ISO 4 1PI AKl 0.66 3691.49 1 91.56 4 22P 18 2D AKl 0.82 3967.40 (NE III) 2 67.47 1 2P3PI 2P1D2 AKl 47.50 3694.17 1 94.22 1 3S4P5/2 3P4P5/2 AKl 9*37 3970.00 2 70 Ql L 2 2P 7 29 AKl 47.50 3697.11 1 97.15 3 22 P 1720 AKl 0.99 3973.16 1 73.26 6 3S2P3/2 3P2P3/2 AKl 0.06 3698.90 l 98.70 21 3S5P2 3P5D3 KA 0.04 3976.77 1 77.10 10 3P4P5/2 3D4P3/2 AKl 0.01 3702.82 1 2.75 14 2P3P0 3D3D1 AKl 0.33 3982.96 1 82.72 6 3S2P3/2 3P2P1/2 AKl _0aJL2_ 3703.82 H I 3705.02 HP I 1 3.36 3 22 P 162D AKl 1.17 3986.19 S III 1 85.97 8 3D3D1 3P3D0 AKl 0.03 1 5.00 25 23P2 73D AKl 0.70 3995.04 N 11 1 95.00 12 3S1PI 3PID2 AKl 0.02 -3707.23 -D LLL _1 7.24 14 3P3P1 —3P302 AK1_ . Q«33 3997.15 j_F L-V L 1 97.37 1 2P3P1 2P1D2 AKl 0.02 3709.67 III 9.52 21 3S5P1 3P5D0 AKl 0.07 4003.62 III 1 3.64 20 5/ 2 2F7/2 AKl 0.07 3709.67 NE I I 3 9.64 l 3S4P3/2 3P4P1/2 AKl 0.07 4009.31 HE I l 9.27 2 IP1 7 1D2 AKl 0.22 _3709.67 _ AR I I 3 9.90 .67- 3P2Q3/2 AQ4F3/2 AKl 4026.15 HE I 1 26.19 2 3P 5 3D AKl 2.10 3710.50 ^ I II 1 10.42 l 3D3P2 4P3D2 KA 0.04 4035.08 O II 1 35.09 51 3D4E5/2 4F2F5/2 AKl 0.06 3711.92 H I 1 11.97 3 22P 152D AKl 1.27 4041.41 N II 2 41.32 39 3D3F4 4F3G5 AKl 0.11 -3713.04 1 13.00 5 3S2P3/2 l_P205/2 AKl 0.24 4041.41 Q U 2 41,31 50 3D4F5/2 4F4F5/2 AKl 0.11 3714.04 I I T 1 14.03 14 3P3P1 3D3DI AKl 0.22 4043.57 N I I 43.54 39 3D3F4 4F3G5 AKl 0.04 3715.15 I I I 1 15.08 14 3P3P2 3D3D2 AKl 0.30 4054.50 I I 1 54.55 98 3D2F5/2 4F2F5/2 KA 0.02 3717.80 -LU 4S3P 2 .4P 3S1 KA 0.04 4056.03 III 1 56.06 24 4 ID 2 5 1F3 AKl -0_aH2_ 3721.90 I l 21.94 3 22P 142D AKl 2.32 4060.80 (F IV ) 3 60.22 1 2P3P2 2PID2 AKl 0.04 3726.01 I I » 1 26. 15 1 2P4S3/2 2P2D3/2 AKl 8.48 4060.80 H II 3 60.58 97 3D2F7/2 4F2G9/2 AKl 0.04 3728.73 J_Q II ) l 28.80 1 2P4S3/2 2P2D5/2 AKl 5.61 4060.80 0 II 3 60.98 97 3D2F5/2 4F2G9/2 AKl 0,04 3730. HE I 1 30.80 AKl 0.02 4062.91 0 I I 62.90 50 3D4E9/2 4F4F9/2 AKl 0.05 3732.60 1 32.86 24 23P2 73S1 AKl 0.09 4062.91 NF II 2 62.90 53 3D4D5/2 4F4F5/2 AKl 0.05 3734.39 1 34.37 3 22P l?2P AKl 1,94 4068.37 (S II ) 1 68.60 1 3P4S3/2 3P2P3/2 AKl 0.67 3736.62 1 36.78 6 3P4D7/2 3D4F9/2 AKl 0.02 4069.96 II 2 69.64 10 3P4D1/2 3D4F3/2 AKl 0.53 3740.24 l 39.92 31 3P4S3/2 4S4P5/2 AKl 0.04 4069.96 I I 2 69.90 10 3P4D3/2 3D4F5/2 AKl 0.53 3745.83 -HE I I 46.90 . . A.K I 0.03 4072.16 0 I I 1 72.16 10 3P4D5/2 3D4F7/2 AKl 3750.14 T 1 50.15 22P 122D AKl 2. 4074.05 n III 1 73.90 23 3S3P1 3P3D2 AKl 0.06 3754.50 N I I Î 2 54.62 3S4P3/2 P 3P4S3/2 AKl 0.5 2 4075.94 O II 2 75.87 10 3P4D7/2 3D4F9/2 AKl 0.58 -3754.50 _Qc 111 J?4.67 —2..3S3 1 ¿P3Q2 AKl -0.52 4075.94 (S II ) 2 76.35 1 3P4S3/2 3P2P3/2 AKl 0.58 3755.90 H I l 56.10 66 2 1PI 141D2 KA 0.04 4080.90 TI I l 81.10 23 3S3P2 3P3D3 AKl 0.07 3757.33 0 III 1 57.21 2 3S3P0 3P3D1 AKl 0.33 4081.90 I I 1 82.28 38 3D3F3 4F3F4 AKl 0.03 3759.93 n m 1 59.87 2 3S3p2 3P3D3 AKl 1.54 4083.86 I I 1 83.91 49 3D4F5/2 4F2G7/2 AKl 0.14 3762.40 n 11 2 62.63 31 3P4S3/2 4S4P3/2 AKl 0. 10 4085.24 I I 1 85.12 10 3P4D5/2 3D4F5/2 AKl 0.14 3762.40 si iv 2 62.41 3 4 205/2 5 2P3/2 AKl 0. 10 4087.19 I I 1 87.16 48 3D4F3/2 4F4G5/2 AKl 0.14 3766.48 NF I I 1 66.29 3S4P3/2 3P4P5/2 AKl 0.06 4089.18 I I 2 89.30 48 3D4F9/2 4F4G /2 AKl 0.30 1 70.63 2 22P 11 2D AKl 3.38 4089.18 SI IV 2 88.86 1 4 2S1/2 2P3/2 AKl 0.30 1 73.13 3 4 203/2 5 2P1/2 AKl 0.07 4092.98 0 I I l 92.94 10 3P4D7/2 3D4F7/2 AKl 0.09 1 74.00 3S3P 1 3P3D1 AKl 0.20 4097.25 N III 3 97.31 1 3 2S1/2 2P3/2 AKl 1.94 1 77.16 1 3S4P1/2 3P4P3/2 0.07 4097.25 I I 3 97.26 20 3P4P1/2 3D4D3/2 AKl 1.94 1 79.23 11 3°4D 5/? 3D4P5/2 0’. 0 3 4097.25 I I 3 97.26 48 3D4F7/2 4F4G9/2 AKl 1.94 1 81.68 5 4 2F 212G 0.07 4101.67 1 1.74 1 2 2P 6 2D AKl 26.50 3783.80 ( FE V ) 1 83.60 3 3D502 3D3F3 KA 0.03 4103.41 2 3.37 1 3 2S1/2 2P1/2 AKl 0.97 3784.91 HE I 1 84.89 64 2lPl 1 2102 AKl 0.04 4103.41 2 3.02 20 3P4P1/2 3D4DI/2 AKl 0.97 3791.42 9 III 1 91.26 2 3S3P2 3P3D2 AKl 0.33 4104.90 1 4.74 20 3P4P3/2 3D4D5/2 AKl 0.10 3792.70 N T I I l 92.87 il 3P407/2 3D4P5/2 0.03 4107.01 I I l 7.07 47 3D4F5/2 4F4D7/2 AKl 0.06 3795.20 ( FE V ) 1 95.20 3 3D5D2 3D3F2 0.05 4110.63 î I 1 10.80 20 3P4P3/2 3D4DI/2 AKl 0.05 3796.36 HE I I 1 96.33 5 42F 202G 0.10 4112.55 I I 1 12.03 21 3P4P5/2 3D2F5/2 AKl 0.04 3797.93 1 97.90 2 2 2P 10 2D AKl 4.28 4115.88 SI IV l 16.10 l 4 2S1/2 2PI/2 AKl 0. 3805.96 l 5.77 63 2 IPl 11 ID2 AKl 0.05 4119.52 n 11 l 19.22 20 3P4P5/2 3D407/2 AKl 0.22 3811.08 1 10.96 2 3S3P2 3P3D1 AKl 0.03 4120.85 HE I l 20.81 16 2 3P 5 3S1 AKl 0.24 3813.59 HE II 1 13.50 4 4 2F 19 2G AKl O.ll 4123.55 (FE V ) 1 23.90 2 3D5D4 3D3H6 AKl 0.03 3319.66 HF I l 19.61 22 2 3P 6 3D 4125.30 S III 1 25.40 11 4S1P1 4P3P0 AKl 3826.93 AR T I 1 26.83 54 4P4D5/2 4D4D5/2 AKl AKl 1.12 0.02 4128.70 AR I I 1 28.65 AKl 0.03 0.05 3829.38 MG I 1 29.35 3 3 3P0 3 301 AKl 0.03 4130.90 (FE III) 30.80 A 5D2 A 3G4 KA 0.03 3831.74 S I I T 1 31.85 5 4S3P0 4P3P1 AKl 0.04 4132.66 0 I I 1 32.81 3P4P 1/2 3D4P3/2 AKl 0.10 3833.77 HE I 2 33.57 62 2 IPl 10 1D2 AKl 0.19 4143.81 HE I 1 43.76 2 IPl 6 1D2 AKl 0.36 3833.77 HF I I 2 33.80 4 4 2F AKl 0.19 4146.00 n 11 2 45.90 106 3P6P7/2 3D6D7/2 AKl 0.04 3835.43 H I 1 35.39 2 2 2P AKl 6.15 4146.00 o 11 2 46.09 106 3P6P7/2 3D6D9/2 AKl 0.04 3838.23 HF M I 2 38,09 61 2 IPl AKl 0.09 4150.56 NE I I 1 50.67 53 3D4D1/2 4F4F3/2 AKl 0.02 3838.23 G I 2 38.29 3 3 3P2 3 3D 0.09 4153.66 II l 53.30 3P4P3/2 3D4P5/2 AKl 0.16 3843.00 I I 1 42.82 12 3P4D1/2 3D4D3/2 0.02 4155.48 I I 1 56.54 3P4P5/2 3D4P3/2 AKl 0.11 3848.00 I I 1 47.89 12 3P4P1/2 30401/2 0.03 4163.12 1 63.30 3P4S3/2 3P2D3/2 AKl 0.03 3851.10 2 50.81 12 3P4D3/2 3D4D5/2 AKl 0.05 4169.14 I I 1 69.23 3P4P5/2 3D4P5/2 AKl 0.03 3851.10 2 51.04 12 3P4D3/2 3D4D3/2 AKl 0.05 4171.57 I I 1 71.61 3D 102 4F3F3 AKl 0.03 3852.90 1 53.09 30 3D2F5/2 4P2D3/2 AKl 0.03 4176.00 I I 1 76.16 3D1D2 4F1F3 AKl 0.03 3855.90 SI I I 1 56.02 4P2P3/2 AKl 0.10 4181.15 1 81.17 3D3D3 4F1G4 AKl 0.04 3858.04 HE I I l 58.07 17 2G AKl 0.14 4185.51 I I l 85.46 3P2F5/2 3D2G7/2 AKl 0.08 3858.04 HF II 1 58.07 17 2G AK 1 0.14 4186.94 I II 1 87.05 4 1E3 5 1G4 AKl 0.13 3860.60 S III 1 60.64 5 4S3P1 4P3P0 0.04 4189.78 l 89.79 3P2F7/2 3D2G9/2 AKl 0.11 3862.52 SI II l 62.59 1 3P2D3/2 4P2PI/2 0.12 4195.72 l 95.70 3S2P 1/2 3P2D3/2 AKl 0.08 NGC 7009 (PK NÜ. 37-34 1) NGC 7009 (PK NO. 37-34 1) 680 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 9—Continued NGC 7009 CPK NO. 37-34 1) KGC 7009 (PK NO, 37-34 1) WAVE IOENT N R Ml TRANSITION REF OBS I WAVE IDENT N R MT TRANSITION REF OBS I 4199.90 HE II 1 99.83 3 4 2F 11 2G AK1 0.49 4529.7C 0 III 1 29.70 32 3P5S2 3D5D3 AK1 0.05 42C2.0C AR II 2 1.99 8 4S4P1/2 4P2D3/2 AK 1 0.02 4530.32 Ñ TI 1 30.40 55 3D IF 3 4F1G4 ÄlO 0.07 42C2.00 AR II 2 1.99 12 4 3 0 20 3 / 2 4F203/2 AK I 0.02 4534.57 N III 1 34.57 3 3S4P5/2 3P405/2 AK 1 C.09 4215.80 III 1 15.69 6 3S2P3/2 3P2D3/2 AK 1 0.03 4541.55 HE II 1 41.59 2 4 2F 9 2G. AK1 0.Ó6 4217.2C ~0 Ï 2 17.09 33 4 3P 3 3P2 AK 1 0.03 4544.80 Tj—ITT 1 44.80 12 4 2P2/2 2S1/2 0.05 4217.20 NE II 2 17.15 52 30407/2 4F405/2 AK 1 0.03 4547.34 N III l 47.34 3 3S4P5/2 3P4D3/2 AK 1 0.05 4219.79 NE II 1 19.76 52 30407/2 TP 4F4D7/2 AK 1 - 0.08 4552.54 N II l 52.54 58 3D1F3 4P1D4 AK 1 0.07 "422:5.07 R II 1 25.67 T3Ü" SRI 0.03 4562.66 NE fl 1 62.05 64 304P3/2 4P 403/2 AK 1 Ú.Ú3 4231.61 NE II 1 31.60 52 30405/2 4F405/2 AK 1 0.03 4564.43 AR II l 64.43 85 4P4S3/2 5S4P1/2 AK1 0.04 4233.83 0 I 1 33.32 33 4 3P 3 3P2 AK 1 0.02 4571.IC MG I 1 71.10 3 1SC 3 3P1 AK1 0.13 4237.04 “ñ rr 2 36.93 48 30301 4F3F2 AK 1 0. 4590.97 "c rr l 90.97 15 3S2D5/2 3P2F7/2 AK 1 C.1C 4237.04 N II 2 37.05 48 30302 4F3F3 AK 1 0.06 4556.17 0 II 1 9 6.17 15 3S2D3/2 3P2F5/2 AK 1 0.08 4242.24 NE II 1 42.20 52 30401/2 4F401/2 AK 1 0.10 4602.10 0 II 1 2. 11 53 30203/2 4F 2F 5/2 AK 1 0.08 4250.53 NE II 1 50.68 52 30403/2 4F4D5/2 AK1 0.03 4608.30 (FE III) 1 7.10 3 A 504 A 3F3 KA 0.03 42 53.88 0 II 2 53.98 101 3D2G7/2 4F2H9/2 AK 1 0.09 4609.90 0 II 2 10.14 92 30203/2 4F4F5/2 AK1 0.17 4253. 0 II 2 5 3,74 101 302GS/2 4F2H9/2 AK 1 0.09 4609.90 0 II 2 9.42 93 30205/2 4F2F 7/2 AK 1 0. 17 4263.60 K II 1 63.40 0.05 4613.3C II l 13.11 93 30205/2 4F2F5/2 AK 1 0.03 4267.11 C II 1 67.27 6 3 205/2 4 2F7/2 AK 1 1.04 4621.07 TI 1 21.28 52 30205/2 4F4F5/2 AK 1 0.03 4272.88 0 II 1 73,17 68 30405/2 4F2F7/2 AK1 0.03 4631 .10 II 1 30.54 5 3S3P2 3P3P2 AK 1 0.10 4275.57 0 I I 1 75.52 67 30407/2 4F4F9/2 AK 1 C. 20 4634.16 N III 1 34.16 2 3 2P1/2 3 203/2 AK 1 1.56 4276.73 C I I 2 76.71 54 3D4P3/2 4F4D1/2 AK 1 0.11 4638.85 0 II l 38.85 1 3S4P1/2 3P 403/2 AK 1 0.05 4276.73 0 II 2 76.71 67 30405/2 4F4F7/2 AK 1 0.11 4640,64 N I II 1 40.64 2 3 2P3/2 3 205/2 AK 1 2.94 4277.74 C II 1 77.90 67 30407/2 4F4F7/2 AK 1 0.08 4641.5C N II 2 41.90 2 3 2P3/2 3 203/2 AK 1 0.91 4281.38 G II 1 81.40 54 3D4P5/2 4F405/2 AK1 0.03 4641.90 0 II 2 41.81 1 3S4P3/2 3P4D5/2 AK 1 0.91 4283.29 0 II 4 82.82 54 304P3/2 4F4D3/2 AK1 0.07 4647.40 C III 1 47.40 1 3 3S1 3 3P2 AK 1 0.32 42 83.29 G II 82.96 67 30403/2 4F4F5/2 AKl 0.07 4649.14 0 Ii 1 49.14 1 3S4P5/2 3P407/2 AKI 0.87 4283.29 0 II 83.75 67 30403/2 4F4F3/2 AKi 0.07 4651 .35 C I II 1 51.35 l 3 3S1 3 3PC AK 1 0.35 4283.29 0 II 83.13 67 30405/2 4F4F5/2 AK 1 0.07 4658.42 C I v 1 58.64 8 5 2F 6 2G AK 1 0.07 4285. 7C C II 1 85.70 78 3D2F5/2 4F2F7/2 AKI 0.08 4661.64 0 II 1 61.64 1 3S4P3/2 3P403/2 AKI 0.30 4288.80 0 II 1 88.83 54 3D4P1/2 4F401/2 AKI 0.04 4667.28 N I I l 67.28 11 3S1P1 3P3P 1 AK 1 0.06 *291.61 C II . 92,pQ *1 302P5/2 4F4D5/2 AKI Q,Q 1 26.05 1 2P4S3/2 2P2D3/2 ASA- 8.62 4253.79 AA3* 74 30209/2 4E¿H9/2 AS* 3728, 74 (0 l 28.80 l 2P4S3/2 2P2D5/2 ABW 3.00 4253.79 —ü LL 2 53.9E LOI 101 302G7/2 4F2H9/2 ABW 0*3 L 0.01 3734, 33 H 1 34.37 22P 1320 ABW 1.15 4267.06 1 67.27 205/2 2F 7/2 ABW 0.42 3736, JJ n_ 1 36.78 3P407/2 304F9/2 ABW 0.16 4275.48 1 75.52 67 30407/2 4F4F9/2 KACE 9*91 3740 30 ( FF V I ) 0 40.34 3D4F9/2 302H9/2 KACE 0.0 4276.55 0 t I 3 76.71 54 3D4P3/2 4F401/2 KACE 0.02 3745, 91 N III 1 45.83 3S4P1/2 3P4S3/2 A8W 0.03 4276.55 0 I I 3 76.71 67 30405/2 4F 4F 7/2 KACE 0.02 3750 08 H I 1 50.15 22P 1220 ABW 1.46 4276.55 0 I I 3 76.21 68 30405/2 4F2F5/2 KACE 0.02 3754 62 P III 1 54.67 3S3P1 3P302 ABW 0.50 4325.90 C III l 25.70 7 3S1P1 3P102 ABW 0.02 3757 26 n mi 1 57.21 3S3P0 3P3D1 ABW 0.11 4338.89 HF I 1 1 38.67 3 4 2F 10 2G ABW 0.72 3759 76 O III 1 59.87 3S3P2 3P3D3 ABW 2.17 4340.56 H I 1 40.47 1 2 2P 5 20 ABW 31.10 3770. 59 H I l 70.63 2 22P 1120 ABW 1.85 4349.48 I I 1 49.43 2 3S4P5/2 3P4P5/2 ABW 0.02 3773. 98 O III 1 74.00 2 3S3P1 3P3D1 ABW 0. 11 4363.21 I II ) 1 63.21 2 2P10 ? 2P1S0 ABW 18.30 3 7 73. 98 (FF VI ) 2 74.90 3 3D4F3/2 3D2P1/2 KACE 0.11 4368.48 1 68.30 5 3 3S1 4 3P ABW 0.03 3777. 07 (FF v ) 2 77.40 l 30 500 303P2 KACE 0.01 4379.17 N III 1 79.09 17 4 2F 5 2G ABW 0.08 3777. 0 7 NF I I l 77.16 1 3S4PI/2 3P4P3/2 ABW 0.0 1 4387.84 HE I l 87.93 51 2 1P1 5 102 ABW 0.33 3781. 62 HF n 1 81.68 5 42F 212G ABW 0.08 4391,95 NE I I 1 91.94 57 3D4F7/2 4F4G9/2 KACE 0.02 3783. 1 83.56 3 30502 30 3F 3 ABW 0.08 4414.81 n 11 1 14.91 5 3S2P3/2 3P2D5/2 ABW 0.02 3784. I 0 84.88 64 21 P 1 12102 KACE 0.0 4417.06 n 11 1 16.98 5 3S2P1/2 3P2D3/2 ABW 0.01 3791. I I I 1 91.26 2 3S3P2 3P3D2 ABW 0.13 4437.61 HE i 1 37.55 50 2 1P1 5 ISO ABW 0.04 3795, 23 (FF V ) 1 95.23 3 30502 3D3F2 ABW 0.03 4471.39 HF J 1 71.48• 14 2 3P 4 3P ABW 2.69 3796, 3 0 HE I I l 96.33 5 42F 202G ABW 0.10 4481.29 MG II 1 81.12 4 3 203/2 5 2P5/2 ABW 0.01 3797, 1 97.90 2 2 2P 10 20 ABW 2.46 4491.16 0 I I 1 91.25 86 3D2P3/2 4F205/2 0.01 3805. I 1 5.77 63 2 1P1 11 102 A8W 0.03 4510.94 I 11 2 10.92 3 3S4P1/2 3P4D3/2 KACE 0.05 3813. I I 1 13.50 4 4 2F 19 2G ABW 0.13 4510.94 N I I T 2 10.92 3 3S4P3/2 3P4D5/2 KACE 0.05 3819, 1 19.61 22 2 3P ABW 0.49 4510.94 (K IV) 1 10.93 2 3P102 3 P 1 SO ABW 0.05 3829. 93 N II 2 29.80 30 3P3P1 4S3P2 KACE 0.0 l 4514.58 I I I 1 14.89 3S4P5/2 3P4D7/2 ABW 0.02 3829. 1 29.77 39 3P2P3/2 30205/2 ABW 0.01 4516.77 ITT 1 16.93 9 4 3P2 5 3SI ABW 0.01 3833, 78 HF II 2 33.57 62 2 1P1 10 102 ABW 0.11 4518.02 I I I 1 18.18 3 3S4P1/2 3P4D1/2 ABW 0.01 3833, 2 33.80 0.11 4523.57 I I I 1 23.60 3 3S4P3/2 3P403/2 ABW 0.01 3835. l 35.39 2 2P ABW 3.50 4534.53 I I I 1 34.57 3 3S4P5/2 3P4D5/2 ABW 0.01 3839, 50 (FE V ) 1 39.52 30503 ABW 0.08 4541.43 1 41.59 2 4 2F 9 2G ABW 1.28 3843, oo n 1 43.58 13 3P403/2 30 2F 5/2 KACE 0.04 4546.59 N III l 46.36 13 3P4S3/2 3D4P5/2 ABW 0.01 3351, 20 (FE l 50.80 3 30503 30 3F 2 ABW 0.03 4552.00 SI III l 52.65 2 4 3S1 3P2 ABW 0.01 3853, 42 SI 1 53.66 1 3P2D3/2 4P2P3/2 ABW 0.01 4570.92 MG l 1 71.10 1 3 ISO 3P1 ABW 0.69 3856. I I t 56.02 3P205/2 4P2P3/2 ABW 0.0 3 4590.80 90.97 15 3S2D5/2 3P2F7/2 ABW 0.04 3858. I I 1 58.07 4 2F 17 2G ABW 0.19 4596.08 96.17 15 3S2D3/2 3P2F5/2 ABW 0.02 3862. I I 1 62.59 1 3P203/2 4P2P1/2 ABW 0.13 4603.80 1 3.20 1 3 2S1/2 3 2P3/2 ABW 0.02 3868. 75 (NE ITT) 1 68.76 1 2P3P2 2P 102 ABW 50.20 4606.55 1 7.13 504 A 3F 3 ABW 0. 3871. 59 HF I 1 71.82 2 1P1 9 102 ABW 0.07 4619.87 l 19.40 1 3 2 S 1 / 2 3 2P1/2 ABW 0.02 3887, 53 HF I I 1 87.44 16 2G ABW 8.80 4625.43 1 25.54 2 3P1D2 3P1S0 ABW 0.06 3888. 89 H 1 89.05 2 2 2P 8 20 ABW 8.80 4634.11 III 1 34.16 2 3 2PI/2 3 203/2 ABW 1.16 3891. 33 (FE 1 91.28 3 30504 3D3F4 ABW 0.10 4640.69 T I I 1 40.64 ? 3 2P3/2 205/2 ABW 2.35 3895. 48 (FE 1 91.28 3 30504 303F4 ABW 0.05 4642.01 I I I 1 41.90 2 3 2P3/2 203/2 ABW 0.29 3911, 86 (FE 1 11.86 30504 30 3F 3 ABW 0.01 4647.34 I I I l 47.40 1 3 3S1 3 3P2 ABW 0.37 3919. 21 C 1 18.98 3 2P1/2 4 2 SI / 2 ABW 0.01 4649.11 I I l 49.14 1 3S4P5/2 3P4D7/2 ABW 0.14 NGC 7027 (PK NO. 84-3 1) NGC 7027 (PK NO. 84 -3 1) 682 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 9—Continued NGC 7027 (PK NO. 84-3 1) NGC 7027 (PK NO. WAVE IDENT MT TRANSI TI ON REF OBS I WAVE IDENT N R MT TRANSI TI ON REF OBS I »650.35 C III 1 3 3SL 3 3P1 ABW 0.20 6560. HE II 1 60.10 2 » 2F 2G ABM 784.00 »651.5» C III 1 51.35 1 3 3SI 3 3P0 ABW 0.06 6562. 90 H I 1 62.82 l 2 2P 3 2D ABM 78».00 »65».»0 N II 1 5».57 il 3S1P1 3P3P2 KACE 0.0» 6583. 36 (N II ) 1 83.39 1 2P3P2 2PID2 ABM 279.00 »657.69 (FE III) 1 58.10 3 A 5D» A 3F» ABW 0.27 6598. 76 (FE VII ) 1 0.80 1 3D3F» 3D1D2 ABM 0.0 »658.38 C IV l 58.6» 8 5 2F 6 2G ABW 0.»2 6678. 16 HE 1 78.15 »6 2 1P1 1D2 ABM 9.»7 »661.58 0 II 1 61.6» 1 3S»P 3/2 3P4D3/2 ABW 0.05 6683. 00 HE 2 83.20 7 5 2G 13 2H KACE 9.»7 »663.56 C III 1 63.53 5 3S3P1 3P3P0 ABW 0.32 6716. 52 IS 1 16,»2 2 3P»S 3/ 2 3P2D5/2 ABM ».72 »665.61 C III 1 65.90 5 3S3P2 3P3P2 ABW 0.05 6730. 7» (S I I ) 1 30.78 2 3P»S3/2 3P2D3/2 ABM 10.60 »665.61 C IV 2 65.00 7 5 2F 6 2D KACE 0.05 6890. 80 HE I I I 90.88 7 5 2G 12 2H ABM 2.01 »669.20 (P II ) 1 69.50 23 P3P1 3P1S0 KACE 0.03 7005. 67 (AR V I 1 5.67 1 3P3P2 3P1D2 ABM 12.10 »673.»6 l 73.75 1 3S»P 3/ 2 3P»Dl/2 ABW 0.03 7065. 31 HE I 1 65.19 10 2 3P 3 3S1 ABM 23.50 »676.06 1 76.23 1 3S»P5/2 3P»D5/2 ABW 0.0» 7135. 78 (AR III ) l 35.80 1 3P3P2 3PID2 ABM 77.90 »678.17 1 77.93 63 3D IP 1 »F1D2 KACE 0.03 7170. 62 (AR IV ) 1 70.62 2 3P2D3/2 3P2P3/2 ABM ».20 »685.75 HE II 1 85.68 1 3 2D » 2F ABW »1.20 7177. 77 HE I I 1 77.50 6 5 2G Il 2H ABM ».20 »701.26 (FE I II » 1 1.62 3 A 5D3 A 3F3 ABM 0.05 7237. 26 (AR IV ) 1 37.26 2 3P2D5/2 3P2P3/2 ABM 2.»7 »711.»2 (AR IV I 1 11.3» 1 3P»S 3/2 3P2D5/2 ABM 7262. 77 (AR IV ) 1 62.76 2 3P2D3/2 3P2P1/2 ABM -1-39 »713.20 1 13.1» 12 2 3P » 3S1 ABM 0. »8 7281, 32 HE l 81.3» »5 2 1P1 3 ISO ABM 2.25 »715.7» (NE IV ) 1 15.61 l 2P2D5/2 2P2P3/2 ABM 0.69 7319. 92 (D I I ) 1 19.92 2 2P2D5/2 2P2P3/2 ABM 55.80 »715.7» (NE TV ) 1 15.61 1 2P2D5/2 2P2P3/2 KACE 0.22 7330. 19 (D I I ) 1 30.19 2 2P2D3/2 2P2P1/2 ABM »7.50 »725.67 (NE IV ) 1 25.62 1 2P2D3/2 2P2P1/2 ABM 0.97 7530. 5» (CL IV ) 1 30.5» 3PID2 ABM 2.03 »725.67 (NE IV ) 1 25.62 1 2P2D3/2 2P2P1/2 KACE 0.73 7592. 79 HE I I 1 92.7» 10 2H ABM 3.23 »733.68 (FE III) 1 33.93 3 A 5D2 3F2 ABM 0,78 7726. 51 (S I L 1 2 ».»0 3 3P1D2 3P1S0 ABM 1.08 »740.03 (AR IV ) 1 »0.20 1 3P4S3/2 3P2D3/2 ABM 6.42 7751. 0» (AR III) l 51.06 1 3P3PI 3P1D2 ABM 23.00 »754.90 (FE III) 1 54.83 3 A 5D3 A 3F» ABM 0.22 7876, 00 (P II » l 69.50 3 3P1D2 3P1S0 KACE 0.48 »859.32 HE II 1 59.32 2 » 2F 8 2G ABM 1.30 8045, 58 (CL TV ) 1 »5,63 1 3P3P2 3P1D2 ABM »861.30 l 61.33 1 2 2P » 2D ABM 98.20 8236, 6» HE I I 1 36.77 6 5 2G 9 2H ABM 6.10 »893.42 (FE VII ) l 93.40 2 3D3F2 3D3P1 ABM 0.12 8446, 00 (FE I I ) 1 »6.11 29 A »D3/2 A 2D5/2 KACE l.OOA »921.96 HE I 1 21.93 »8 2 1P1 » 102 ABM 0.89 8502, 50 H 1 2.49 10 3 2D 16 2F ABM 2.50 »930.97 (0 III) 1 31.00 1 2P3P0 2P1D2 ABM 0.33 8545, 53 H l »5.38 10 3 2D 15 2F ABM 3.30 »94».10 (FE VII) l »4.00 2 3D3F3 3D 3P2 ABM 0.0 8577, 00 (CL 1 79.50 1 3P3P2 3P1D2 KACE 1.40A »958.95 III ) 1 58.92 1 2P3P1 2P102 ABM 512.00 8598, 35 H 1 98.39 9 3 2D 1» 2F ABM 3.00 »972.12 (FE VI ) l 72.10 2 3D4F5/2 3D2G7/2 ABM 17 8665. 1 65.02 3 2D 13 2F ABM 3.90 5006.88 (0 III) 1 6.85 1 2P3P2 2P1D2 ABM 1553.00 8750, l 50.48 3 2D 12 2F ABM 0.0 5015.55 1 15.68 » 2 ISO 3 1P1 ABM 1.06 8862. 1 62.79 3 20 U 2F ABM 0.0 5041.31 SI II 1 »1.06 5 » 2P1/2 » 2D3/2 ABM 0.32 901», 90 H l 14.91 9 3 2D 10 2F ABM 0.0 5047.92 HE I I l »7.7» »7 2 1P1 » ISO ABM 0.25 9069. 00 (S III) l 69.00 1 3P3PI 3PID2 ABM 1.87 5056.45 SI II 1 56.35 5 » 2P3/2 » 205/2 ABM 0.08 9531. 80 (S III ) 1 31.80 1 3P3P1 3P1D2 ABM 1.87 5112.00 n vi 1 12.00 2P 2D ABM 0.03 5145.78 (FE VI ) 1 »6.80 »F7/2 2G7/2 ABM 0.36 NGC 7027 (PK NO. 8» -3 1) 5151.00 (FE III ) 1 51.90 1 A 5QJt 3P2 KACE 0*05 5158.9» (FE VII ) 1 58.98 2 3D3F3 3D3PI ABM 0.25 5176.42 (FE VI ) 1 76.43 2 3D4F9/2 3D2G9/2 ABM 0.29 5191.81 (Aft III) 91.82 3 3P1D2 3P1S0 ABM Q..2_8_ BEGIN NGC 7662 (PK NO. 106-17 1) 5197.95 (NI ) 1 97.51 1 2P4S3/2 2P2D3/2 ABM 0.43 5200.41 (NI ) 1 0.41 1 2P4S3/2 2P2D5/2 ABM 0.11 WAVE IDENT MT TRANSITION REF OBS 527Q.28 (PE III) 1 70.40 1 A 5D3 A 3P2 ABM... Q.23 ABM _3_IZ1, 11.34 1 3P4S3/2 3P2D5/2 AKB 8.80 3858.12 HF I I 1 58.07 4 4 2F 17 2G AKB 0.58 4712, 66 HE. 1_ I 13.14 12 2 3P 4 3S1 AKB Q,Q... 3862.4? S! II 1 62.59 1 3P2D3/2 4P2P1/2 AKB 0.06 4714. 11 (NE IV ) 1 14.25 1 2P2D5/2 2P2P3/2 AKB .75 3868.70 (NE III» 1 68.76 1 2P3P2 2PID? AKB 66.30 4715. 73 (NE IV ) 1 15.61 1 2P205/2 2P2PI/2 AKB 0.08 3875.50 Gc I I I 75.82 13 3P4D7/2 3D2F5/2 AKB 0.06 -4,72 51 51 i MP. »V > 1 25.62 1 2P2D3/2 2P2P1/2 AKB ,.A_1 3837.00 H I I 87.44 4 4 2F 16 2G AKB 14.10 4724. 08 (NE IV ) 1 24.15 1 2P203/2 2P2P3/2 AKB 0.73 3888.79 HF I 88.65 2 2 3S l 3 3P2< i AKB 14.10 4740. 22 (AR IV » l 40.20 1 3P4S3/2 3P2D3/2 AKB 8.40 3889.00 H I 89.05 .2 2 2P 8 2D AKB 14.10 .4861. m ü_ l 61.33 1 2-2 P 4 20 AKB... 100.00 3891.20 (TF V 1 91.23 3D5D4 3D3F4 AKB 0.09 4906, 60 11 l 6.8 28 3P4S3/2 3D4P3/2 AKB 0.16 3894.90 (FF V 1 91.28 3 3D5D4 3D3F4 AKB 0.04 4922. 0 0 HF I 1 21.93 48 2 1P1 1D2 AKB 2.50 3 9 l.8_t_fej3_ _£ LI_ 1 18.98 3 2P1/2 4 2S1/2 AKB... 0.04 -A931. PQ (P.... III) 1 31.QO 1 2P3PQ 2P1.P2 AKB . ■ Q.«.44_ 3920.79 C I I l 20.63 4 3 2P3/2 2S1/2 AKB 0.05 4959. 00 ( 0 III) l 58.92 2P3P1 2P102 AKB 335.00 3923.43 HF I I l 23.48 4 4 2P 15 2G AKB 0.94 5007. 00 (n III ) 1 6.85 1 2P3P2 2P1D2 AKB 990.00 3926.56 1 26.53 _5.9 2 -liLl- 9 ^-2- AKB 0.06 5015. 10 HE J 1 15.68 2. ISP ? IPI AKB 10*90 3965.04 HE I l 64.73 5 2 ISO IPI AK8 0.39 5047.00 HF I 1 47.74 47 2 IP l 3967.50 (NE III) 1 67.47 1 2P3PI 2P ID2 AKB 19.20 3968.00 HE I I 1 68.43 3 2 2F -14 2,Ç_ AKB 0.0 END NGC 7662 (PK ND. 106-17 1) 3970.09 1 70.07 20 AKB 14.60 3997.44 (F IV ) 1 97.31 1 2P3P1 2P1D2 AKB 0.04 4003.54 1 3.64 16 4 20 5/ 2 5 2F7/2 AKB 0.03 4008.10 (FFc III) l 8.40 4 A5D4 A3G4 AKB 0.03 BEGIN IC 4997 IPK NO. 58+10 1) 4009.27 H I 1 9.27 55 2 1P1 7 102 AKB 0.12 4026.04 HE I 1 26.19 18 2 3P _5_ AKB 2*37 WAVE N HT TRANSITION REF 4041.50 l 41.31 50 3D4F5/2 4F 4F5/2 AKB .03 3186.29 HF I l 87.74 3 23S 43P AK2 0.82 4047.80 1 48.22 50 3D4F7/2 4F4F7/2 AKB 0.3 3 3209.40 NE II 1 9.38 16 3P4D1/2 3D4P3/2 KA 0.05 4060.18 1 60.2? l 2P3P2 2P102 AKB 0.13 3216.80 0 I I 1 16.76 107 3P6P5/2 4S6S5/2 KA 0.35 4068.48 i C 8.60 1 3P4S3/2 3P2P3/2 AKB 0.78 3232.90 S III 1 31.10 3 3D3P0 4P3S1 KA 0.33 4069.90 ? b 9.64 10 3P4D1/2 3D4F3/2 AKB 0.3 3239.10 n ni 2 38.57 9 3P3D1 3D 102 KA 0.35 4069.90 ? 69.90 10 3P403/2 3D4F5/2 AKB 0.0 3239.10 (FE III) 2 39.70 6 A 5D4 A 3D3 KA 0.35 4070.26 I I I l 70.30 16 4 3F 4 5 3G5 AKB 0.32 3260.70 n ni 1 60.98 8 3P3D2 3D3F3 KA 0.02 4072.0« I I 1 72.16 10 3P4D5/2 3D4F7/2 AKB 0.19 3278.70 si in 2 79.25 12 30301 4P3P0 KA 0.34 _4 0 7 6 ._1_0__ I I ) 1 76.35 1 3P4S3/2 3P2P3/2 AKB 0.21 3278.70 K III 1.79 1 4S4P5/2 4P4P3/2 KA 0.34 "4078.67 U ? 78.86 10 4 S 2P1/2 AKB 0.03 3297.00 HF I 1 96.79 9 2 ISO 81P 1 AK2 0.37 4081.60 T I I ? 81.10 23 3S3P2 3P303 AKB 0.33 3301.47 n 11 1 1.56 23 3P4P1/2 4S4PI/2 AK2 0.04 4084.71 1 85. 12 10 3P4Ü5/2 3D4F5/2 AKB 0.35 3306.10 n t i 1 6.60 23 3P4P3/2 4S4P1/2 KA 0.34 4087.15 1 87.16 48 3D4F3/2 4F4G5/2 AKB 0.04 3335.02 NE II 1 34.87 2 3S4P5/2 3P4D7/2 AK2 0.03 4089.23 1 89.33 48 3D4F9/2 4F4G /2 AKB 0.1 l 3342.58 (NE III) 1 42.50 2 2PID2 2P1S0 AK2 0.43 6092.80 1 92.94 10 3P4D7/2 3D 4F7/2 AKB 0.03 3354.79 HC ! 1 54.55 8 21 SO 71 P1 AK2 0.09 4097.39 I I I l 97.31 1 3 ?S 1/2 3 ?P3/2 AKB 2.75 3387.19 1 I I l 87.13 2 3D3P1 4P3P0 A K2 0.04 4100.10 I I l 0.06 ? 6 ,2F 12 2G AK R 0.0 3443.20 I I I 1 44.10 15 3P3P2 3D3P2 AK2 0.33 6101.73 I 1 1.76 AKB 20.30 3447.54 HE I 1 47.59 7 21 SO 6 1P 1 AK2 0.12 4103.37 I I I 1 3.37 1 3 2 S 1 / 2 3 2PI/2 1.42 3451.09 0 III 2 50.94 3D5F4 A K2 0.02 4107.18 I I 1 7.07 47 3D4F5/2 4F 4D7/2 AKB 0.33 3451.09 HF I 2 50.20 AK2 0.32 4115.83 I V 1 16.13 1 4 2 S 1/2 4 2P1/2 AKB 0.32 3453.00 HF I 1 53.21 203D AK2 0.03 4119.16 n 11 1 19.22 20 3P4P5/2 3D4D7/2 AKB 0.08 3456.80 HE I 1 56.80 0.03 4120.86 HE I 1 20.81 16 2 3P 5 3S1 AKB 0.1 7 3465.92 HF I 2 65.89 23P 1730 AK2 0.05 4122.00 ( K V ) 1 22.63 AKB 0.34 3465.92 0 III 2 66,15 25 3P5D4 3D5F4 AK2 0.05 4143.76 1 43.76 2 1P1 6 102 AKB 0.27 3467.30 0 III 1 66.90 25 3P5D3 3D5F2 AK2 0.35 4146.06 2 45.90 106 3P6P7/2 3D607/2 AKB 0.33 34M.80 HE T l 71.80 44 23P 1630 AK2 0.03 4146.06 2 46.39 106 3P6P7/2 3D 609/2 AKB 0.33 3478.79 HF I 1 78.97 43 23P 1530 AK2 0.04 4153.31 2 52.43 21 3P3D1 3F2 AKB 0.04 3481.35 K III 2 81.U 3 4S2P3/2 4P405/2 AK2 0.33 4153.31 2 53.30 19 3P4P3/2 3D4P5/2 AKB 0.04 3481.35 NF I I 2 80.75 49 3S2S1/2 3P2P1/2 AK2 0.03 4156.45 ? 56.50 21 3P3P2 5 3F3 AKB 0.37 3487.55 HE I 1 87.72 42 23P 1430 AK2 0.08 4156.45 2 56.54 19 3P4P5/2 3D 4P 3/ 2 AKB 3488.30 0 I I l 88.18 7 3P2S1/2 3D4PI/2 AK2 0.02 4163.05 (K V l 63.30 1 3P4S3/2 3P2D3/2 AKB 0.16 3497.29 S III l 97.34 AK2 0.03 4169.1 3 HE 1 1 68.97 52 2 1P1 6 ISO AKB 0.11 3498.71 HE I 1 98.64 133D AK2 0.09 4181.57 ( FE V ) l 80.87 1 3D5D1 3D3P0 AKB 0.16 3512.53 HE I l 12.51 38 23P 12 3D AK2 0.39 4186.94 C III 1 87.05 18 4 1F 3 5 IG4 AKB 0.50 3517.54 HE I 1 17.33 37 23P 123S AK2 0.02 4189.93 n 11 1 89.79 36 3P2F7/2 3D2G9/2 AKB 0.05 3530.61 HE I 1 30.49 36 23P 113D AK2 0.12 4195.59 N III 1 95.70 6 3S2P1/2 3P2D3/2 AKB 0.33 3540.64 NE II 1 39.94 50 3P2D3/2 3D2P3/2 AK2 0.06 4199.87 HE I I 1 99.83 3 4 2F 11 2G AKB 1.94 3554.40 HE I 1 54.39 34 23P2 1030 AK2 0.14 4227.60 ( fc y ) 1 27.49 2 3D5D4 3D3H4 AKB 0.2 3 3561.19 NE I I 1 61.23 31 3P4S3/2 3D4F5/2 AK2 0.04 4267.11 1 67.27 6 3 2D5/2 4 2F7/2 AKB 0.71 3562.50 HF T l 62.95 33 2 3P 103S 0.34 4275.95 ? 75.5? 67 3D4D7/2 4F4F9/2 AKB 0.15 3568.59 NE I I 1 68.53 9 3S2D5/2 3P2F7/2 AK2 0.34 NGC 7662 (PK NO. 106-17 1) IC 4997 (PK NO. 58+10 1) 684 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 9—Continued IC 4997 (PK NO. 58»1Q L) IC 4997 (PK NO. WAVE IDENT N R MT TRANSI TION REF DBS I WAVE IDENT TRANS IT I ON REF OBS I 3587.30 HE I I 87.25 31 23P2 93D AK2 0.18 3961.39 S III 3D3D1 4P3PI AK2 0.35 3613.67 HE I 1 13.64 6 2ISO 5lPl AK2 0.20 3964.80 HE I 1 64.73 21S0 41P l AK2 0.80 3634.29 HE I 1 34.24 28 23P2 83D AK2 0.2 5 3967.41 (NE III) 2 67.47 2P3P1 2P1D2 AK2 33.00 3654.06 S II 1 54.51 4 3P2P1/2 4P2P3/2 AK2 0.0 3970.04 ? 70.07 2 2P 7 2D AK2 33.00 3659.30 l 59.42 22P 332D AK2 0.27 3972.94 I I 1 73.26 3S2P3/2 3P2P3/2 AK2 0.03 3660.22 1 60.28 22P 32 2D AK2 0.25 3983.25 I I 1 82.72 3S2P3/2 3P2P1/2 AK2 0.04 3661.23 1 61.22 22P 312D AK2 0.26 3985.48 I I 1 85,46 3P4P 1/2 3D2P3/2 AK2 0.05 3662.23 l 62.26 22P 3020 AK2 0.28 4008.50 (FE III) 1 8.40 A 5D4 A3G4 AK2 0.07 3663.44 1 63.41 22P 292D AK2 0.29 4009.26 HF I l 9.27 2 IP1 7 ID2 AK2 0.21 3664.69 1 64. 22P 2820 AK2 0.31 4023.81 HE I 1 23.99 2 1P1 7 ISO AK2 0.04 3666.07 l 66.10 5 22P 272D AK2 0.32 4026.14 1 26.19 2 3P 5 3D AK2 2.33 3667.68 1 67.68 5 22P 262D AK2 0.34 4041.36 2 41.32 3D3F4 4F3G5 AK2 0.02 3669.47 1 69,47 22P 252D AK2 0.38 4041.36 2 41.31 3D4F5/2 4F4F5/2 AK2 0.02 3671.48 1 71.48 5 22P 242D AK2 0.42 4056.51 C III 1 56.06 4 102 5 IF 3 AK2 0.03 3673.00 1 73.76 5 22P 232D AK2 0.45 4060.46 D II 2 60.98 3D2F7/2 4F2G9/2 AK2 0.03 3676.34 1 76.37 4 22P 222D AK2 0.49 4060.46 (FE IV ) 2 60.22 2P3P2 2P 1D2 AK2 0.03 3679.35 1 79.36 4 22P 212D AK2 0.53 4068.62 1 68.60 3P4S3/2 3P2P3/2 AK2 2.50 3682.79 1 82.81 4 22P 202D AK2 0.67 4069.84 2 69.64 3P4D1/2 3D4F3/2 AK2 0.17 3686.82 1 86.83 4 22P 192D AK2 0.70 4069.84 2 69.90 3P4D3/2 3D4F5/2 AK2 0.17 3691.58 91.56 4 22P 182D AK2 0.83 4072.09 I I 1 72.16 3P4D5/2 3D4F7/2 AK2 0. 10 3694.29 NE II 94.22 1 3S4P5/2 3P4P5/2 AK2 0.06 4073.90 I I I I 73.90 3S3P 1 3P3D2 AK2 0.01 3695.34 0 III 95.37 21 3S5P1 3P5P2 AK2 0.02 4076.31 I I ) 1 76.35 3P4S3/2 3P2P3/2 AK2 0.79 3697.17 I 1 97.15 172D AK2 1.08 4078.92 I I 1 78.86 3P4D3/2 3P4F3/2 AK2 0.04 3699.03 III 2 99.37 AK2 0.03 4081.40 I I I 1 81.10 3S3P2 3P3D3 AK2 0.03 3699.03 I I I 2 98.70 3P5D3 AK2 0.03 4083.69 I I 1 83.91 3D4F5/2 4F2G7/2 AK2 0.03 3703.83 l 3.86 3 22P 162D AK2 1.30 4084.88 0 I I ? 85.12 3P4D5/2 3D4F5/2 AK2 0.03 3705.02 1 5.00 25 23P2 73D AK2 0.52 4084.88 0 I I 2 84.66 3P4F5/2 3D2F7/2 AK2 0.03 3707.32 1 7.24 14 3P3P1 3D3D2 AK2 0.04 4086.77 NF I I 2 86.69 3D4D7/2 4F4G5/2 AK2 0.02 3709.24 3 9.64 1 3S4P3/2 3P4P1/2 AK2 0.04 4086.77 0 I I 2 87.16 3D4F3/2 4F4G5/2 AK2 0.02 3709.24 I I I 3 9.37 1 3D3P1 4P3D2 AK2 0.04 4088.92 0 I I 2 89.30 3D4F9/2 4F4G / 2 A K2 0.08 3709.24 I I I 3 9.52 21 3S5P1 3P5D0 AK2 0.04 4088.92 SI IV 2 88.86 4 2S1/2 4 2P3/2 AK2 0.08 3711.99 I l 11.97 3 22P 152D AK2 1.62 4092.97 92.94 3P4D7/2 3D4F7/2 AK2 0.03 3714.92 I I 1 1 15.08 14 3P3P2 3D3D2 AK2 0.05 4094.42 94.18 3P4D5/2 3D4F3/2 AK2 0.03 3718.14 1 18.21 131 4P2D3/2 4D2F5/2 AK2 0.04 4097.20 97.31 3 2S1/2 3 2P3/2 AK2 0.19 3721.86 3 21.94 3 22P 142D AK2 2.81 4097.20 II 97.26 3P4P 1/2 39403/2 AK2 0.19 3721.86 n in 3 21.95 21 3S5P2 3P5DI AK2 2.81 4097.20 II 97.26 3D4F7/2 4F4G9/2 AK2 0.19 3721.86 NE II 3 21.86 37 2P2P3/2 3D4F5/2 AK2 2.81 4101.70 1.74 2 ¿P 2D_ A* 2 22t»0 3726.11 (0 II) 1 26.05 1 2P4S3/2 2P2D3/2 AK2 14.70 4103.80 I I T 1 3.37 3 2S1/2 3 2P1/2 0.06 3728.35 (G II) 1 28.80 1 2P4S3/2 2P2D5/2 AK2 5.00 4104.85 I I 1 4.74 3P4P3/2 3D4D5/2 AK2 0.05 3730.64 HE I 1 30.80 AK2 0.04 4110.49 2 10.80 3P4P3/2 3D4D1/2 AK2 0.04 3732.69 1 32.86 24 23P2 73S1 AK2 0.03 4110.49 2 10.20 3P2F5/2 3D 203/2 AK2 0.04 3734.41 I l 34.37 3 22P i 32D AK2 2.06 4116.20 SI IV 1 16.10 4 2S1/2 4 2P1/2 KA 0.01 3739.55 I I 1 39.92 31 3P4S3/2 4S4P5/2 AK2 4119.11 o LL_ 1 3P4P5/2 3D407/2 AK2 0.06 3745.89 N III 2 45.83 4 3S4PI/2 3P4S3/2 AK2 0.03 4120.81 l 20.81 16 5 3SI AK2 0.29 3745.89 HE I 2 45.90 AK2 0.03 4132.79 32.81 19 3Pp 4Pp 1/2 3D4P3/2 AK2 0.04 3750.20 1 50.15 Z 22P 1.2.2.D ak¿_ _2i69_ 4142.30 41.96 106 3 6 3/2 3D6D3/2 KA Qt 95 3754.55 0 III 2 54.67 2 3S3P1 3P3D2 AK2 4142.30 0 I I 2 42.24 106 3P6P3/2 3D 605/2 KA 0.05 3754.55 N III 2 54.62 4 3S4P3/2 3P4S3/2 AK2 4143.77 HE I 3 43.76 53 2 IP l 6 102 AK2 0. 31 3755.99 HE I 1 56.19 66 ¿.IPl U1D2 A-K2 . ■ Q.Q5 4143.77 3 43.77 106 3P6P5/2 3D607/2 AK2 . -Q-»-3.1_- 3757.64 III 57.60 Il 3P4D1/2 3D4P3/2 AK2 0.04 4143.77 3 43.52 106 3p6P5/2 3D 605/2 AK2 0.31 3757.64 I I I 2 57.66 11 3P4D3/2 3D4P1/2 AK2 0.04 4145.64 I I 1 45.90 106 3P6P7/2 3D6D7/2 AK2 0.03 3766.58 NE II 1 66.29 1 3S4P3/2 3PAP5/2 AK2 0.03 4153.43 J \ I - 2 52.43 21 3Pp 3D 1 5 3F2 AK2 0.08 3768.89 68.81 65 21Pl 131D2 AK2 0.04 4153.43 I I 2 53.30 3 4P3/2 3D4P5/2 AK2 0.08 3770.56 I 1 70.63 2 22P 112D AK2 3.38 4156.40 I I I 2 56.50 3P3D2 5 3F3 AK2 0.04 3773.97 I I I 1 74.00 2 3S3P1 3P3D1 AK2 0.03 4156.40 TI 2 56.54 3P4P5/2 3D4P3/2 AK2 0.04 3777.24 NE II 1 77.16 1 3S4P1/2 3P4P3/2 AK2 0.0 3 4163.90 (K V ) 1 63.30 3P4S 3/2 3P2D3/2 AK2 0.02 3784.90 n 11 2 85.01 95 4P2P3/2 4D2D5/2 AK2 0.05 4166.82 MG I 2 67.26 3 lp l 7 1D2 AK 2 0.03 3784.90 HE I 2 84.89 64 21P 1 121D2 AK2 0.05 4166.82 MG I 2 67.27 3 I» 1 7 1D2 AK2 0.03 3791.58 SI III l 91.41 5 43P0 43D1 AK2 0.03 4169.21 HF I 1 68.97 2 IP1 6 ISO AK2 0.09 3797.86 H I 1 97.90 2 2 2P 10 2D AK2 3.73 4185.55 0 I I 1 85.46 3P2F5/2 3D2G7/2 AK2 0.07 3805.86 HE I 1 5.77 63 2 1P1 11 1D2 AK2 0.05 4186.83 C III 1 87.05 4 1F 3 5 1G4 AK2 0.04 3810.59 III 10.96 2 3S3P2 3P3D1 AK2 0.0 3 4189.73 n 11 l 39.79 3P2F7/2 3D2G9/2 AK2 0.06 3819.61 I 19.61 22 2 3P 6 3D AK 2 1.09 4231.59 NP I I 1 31.60 3D4D5/2 4F4D5/2 AK2 0.02 3829.76 29.80 30 3P3P1 4S3P2 AK2 0.02 4242.24 NF I I 1 42.20 304D 1/2 4P4D1/2 AK2 0.04 3829.76 NE II 29.77 39 3P2P3/2 3D2D5/2 A K2 0.02 4244.02 Ne I I 1 44.17 3D205/2 4F4F5/2 AK2 0.06 3829.76 MG I 29.35 3 3 3P0 3 3D1 AK2 0.02 4253.68 0 I I 2 53.74 3D2G9/2 4F2H9/2 AK2 0.04 3831.82 C I I 32.12 13 4 2P3/2 3P2D5/2 AK2 0.02 4253.68 S I I T 2 53.59 4S3P2 4P 303 AK2 0.04 3831.82 MG I 3 32.30 3 3 3P1 3 3D2 AK2 0.02 4257.70 MF I I 2 57. 82 30401/2 4F4D3/2 AK2 0.02 3831.82 S III 3 31.85 5 4S3P0 4P3P1 AK2 0.02 4257.70 S I I 2 57.42 4P 20 3/2 402F5/2 AK2 0.02 3833.62 HF I 2 33.57 62 2 1P1 10 1D2 AK2 0.07 4267.18 C T I l 67.27 3 2D 5/2 4 2F7/2 AK2 0.17 3833.62 2 33.80 4 4 2F 18 2G AK2 0.07 4275.56 I I 1 75.52 30407/2 4F4F9/2 AK2 0.04 3835.39 l 35.39 2 2 2P . 9 2D AK2 4.63 4276.88 I I 2 76.71 3D4P3/2 4P 401/2 AK2 0.05 3838.10 3 38.32 5 4S3P2 4P3P2 AK2 0.04 4276.88 I I 2 76.71 3D4D5/2 4F4F7/2 A K2 0. 05 3838.10 HF I 3 38.09 61 2 1P1 AK2 0.04 4282.99 2 82.82 3D4P3/2 4P 403/2 AK2 0.03 3838.10 MG I 3 38.29 3 3 3P2 AK2 0.04 4282.99 I I 2 82.96 3D4D3/2 4F4F5/2 AK2 0.03 3842.95 0 I I l 42.32 12 3P4D1/2 AK2 0.02 4285.09 I I I 1 84.99 4S3P 1 4P3D2 AK2 0.03 3853.88 SI II 1 53.66 1 3P2D3/2 4P2P3/2 AK2 0.02 4289.13 n 11 1 88.83 3D4P 1/2 4F4DI/2 AK 2 0.02 3856.06 n 11 2 56. 16 12 3P4D3/2 3D4D1/2 AK2 0. 10 4294.45 n 11 2 94.82 304P3/2 4F405/2 AK2 0.05 3856.06 SI II 2 56.02 1 3P2D5/2 4P2P3/2 AK2 0.10 4294.45 s 11 2 94.43 4P4P5/2 40407/2 AK2 0.05 3862.61 l 62.59 1 3° 20 3/ 2 4P2PI/2 AK2 0.11 4303.10 I I 3 3.82 3D4P5/2 4F4D7/2 AK2 0.01 3864.69 1 64.68 12 3P4D5/2 30 403/2 AK2 0.07 4303.10 II 3 3.06 3D2G7/2 4F2G7/2 AK2 0.01 3868.72 1 68.76 1 2P3P2 2P102 AK2 58.10 4303.10 3 2.81 3D2G9/2 4F2G9/2 AK2 0.01 3871.67 HE l 1 71.82 60 2 1PI 9 1D2 AK2 0.18 4317.11 l 17.14 3S 4P 1/2 3P4P3/2 AK2 0.07 3874.74 □ I I 1 74.10 Il 3P4D1/2 3D4P3/2 AK2 0.05 4319.69 1 19.63 3S4P3/2 3P4P5/2 AK2 0.06 3878.37 C I I 78.22 33 3D4F5/2 4F4G5/2 AK2 0.02 4325.76 1 25.77 3S4P 1/2 3P4P1/2 AK2 0.02 3881.50 n 11 1 82.20 12 3P4D7/2 3D4D7/2 KA 0.02 4328.58 I I l 28.62 3P2P 3/2 302S1/2 AK2 0.01 3888.93 H I 2 89.05 2 2P 2Dp AK2 14.60 4333.07 II 1 32.76 3D407/2 4F4G9/2 AK2 0.06 3888.93 HE I 2 88.65 2 3S1 3 20- 4649.10 I I l 49.14 1 3S4P5/2 3P4D7/2 AK2 0.34 3756.21 1 56.10 66 2 IP 1 14102 KAB 0.09 4650.45 I I 1 50.84 1 3S4° 1/2 3P4DI/2 AK 2 0.15 3770.61 1 70.63 2 22 P 1120 KAB 5.10 4658.09 AR I I 57.94 15 4S2P3/2 4P2P1/2 AK2 0.83 3777.05 1 77.16 1 3S4P1/2 3P4P3/2 KAB 4658.09 (FF III) ? 58.10 3 A 5D4 A 3F4 A K2 0. 33 3784.93 HE y l 84.89 64 21 P 1 12102 KAB 0.09 4661.48 n 11 1 61.64 1 3S4P3/2 3P4D3/2 AK2 0.12 3797.88 H I 1 97.90 2 2 2P 10 20 KAB 6.00 4676.30 1 76.23 1 354P5/2 3P4D5/2 AK2 Q.06 3805.73 HE I _i 5-77 63 Z 1P1_. 11 102 KAB 0.10 4695.80 1 95.91 68 3P5D1 3D 502 KA 0.04 3819.64 HE I 19.61 22 2 3P 6 30 KAB 1.8 4701.30 1 1.23 58 3P2P3/2 3D2P3/2 AK2 0.3? 3829.80 NE II 1 29.77 39 3P2P3/2 3D205/2 KAB 0.05 4711.34 1 11.34 1 3P4S3/2 3P2D5/2 AK2 0.23 3831.79 4712.55 1 13.14 12 2 3P 3SI AK2 1.36 3833.58 HF IIII -L2 31.35 33.57 5 4S3PQ- 4P3P1 10 102 KAB KAB 0.09 0.13 4733.32 1 33.00 11 3P3D? 3D 30? AK? 0.21 3833.58 HF II ? 33.80 18 2G KAB 0.13 4740.00 3 40.00 11 3P3D2 3 0 3 D1 AK2 0.S7 3835.36 _H L_ L 35.39 ¿ 2 2P 9 20 KAB 7.63 4740.00 mg I I 3 39.59 18 4 2D 8 2F AK2 0.67 3837.79 S III 1 37.80 5 4S3P1 4P3PI KAB 0.10 4740.00 IAR TV ) 3 40.20 1 3P4S3/2 3P2D3/2 AK2 0.67 3838.35 N II 2 38.39 30 3P3P2 4S3P2 KAB 0.13 4768.83 a 11 1 68.aB ■.0 4S3P 1 4P 302 A K2 0.17 3838.35 S III 2 38.32 5 4S3P2 4P3P2 KAB 0.13 4774.40 74.22 20 3P3D1 3D3D2 0.04 3853.88 SI II l 53.66 1 3P203/2 4P2P3/2 KAB 0.02 4783.10 ME I I 1 31.95 71 4S4P5/2 4F 403/2 0.06 3856.14 SI II l 56.02 1 3P2D5/2 4P2P3/2 KAB 0.34 4813.66 SI III 1 13.29 9 4 3F2 5 3G3 AK2 0.11 3862.70 SI II 1 62.59 1 3P2D3/2 4P2PI/2 KAB 0.19 4861.33 1 61.33 1 2 ?p 4 2D AK2 100.00 3867.73 HE I 1 67.48 20 2 3P 6 3S1 KAB 0.0 4880.68 (F=17 III) 1 81.11 2 A 504 A 3H4 AK2 0.52 3871.76 HF I 1 71.82 60 2 1P1 9 102 KAB 0.16 4921.00 H I 1 20.93 IP 1 4 1F 3 1.40 3882.49 0 II 1 82.20 12 3P4D7/2 3D4D7/2 KAB 0.0 4931.00 ( FI HI) I 31.00 2 2P3P0 0.0 3888.92 H T 2 89.05 2 2 2P 8 20 KAB 18.10 3838.92 HE I 2 88.65 2 2 3 S 1 3 3P2<1 KAB 18.10 IE. 499 7 ( PK NO. 58+10 1) 3918.94 r 11 1 18.98 4 3 2P1/2 4 2S1/2 KAB 0.13 3920.66 C II 1 20.68 4 3 2P3/2 4 2S1/2 KAB 0.26 3926.53 HF I 1 26.53 58 2 1P1 8 102 KAB 0.22 3928.53 S III 1 28.62 8 3D3D3 4P 302 KAB 0.06 BEGIN NGC. 1976 3964.80 HE I 1 64.73 5 2D ISO 4 1P1 KAB 1.35 3967.47 (NE III) 1 67.47 l 2 3P 1 2P1D2 KAB 24.40 transition 3969.97 H I I 70.07 1 2 2P 7 20 KAB 24.40 3187.74 HE I 1 87.74 23S 43P KAB 6.3 0 3983.72 S III l 83.77 8 30302 4P3PI KAB 0.07 3286.21 (FF MI) l 86.20 A5D3 A 3D3 KAB 0.0 3985.87 S III 1 85.97 8 3D 3D 1 3p3P0 KAB 0.07 3296.69 HF I 1 96.79 2 1 SO 81P1 KAB 0.25 4009.27 HE I 1 9.27 55 2 1P1 7 102 KAB 0.28 3323.98 S III 1 24.01 2 30 3° 1 4P3P2 KAB 0.0 4026.19 HE I 1 26.19 18 2 3P2<1 5 30 KAB 2.62 3324.96 S III 1 24.87 2 3D3P2 4p3P2 KAB 0.13 4068.69 S II) 1 68.60 1 3P4S3/2 3P2P3/2 KAB 1.49 J 3J4.87 NE II 2 34.37 2 3S4P5/2 3P 4P 7/2 KAB 0.17 4069.76 2 69.64 10 3P4D1/2 3D4F3/2 KAB 0.11 3 3 34.87 (FFc T IÏ ) 2 34.90 6 A5D2 A 3D2 KAR 0.17 4069.76 II 2 69.90 10 3P4D3/2 3D4F5/2 KAB 0.11 3342.92 (N MI) 2 42.50 2 ?P ID 2 2P1S0 KAB 0. 1 7 4072.11 II l 72.16 10 3P4D5/2 3D4F7/2 KAB 0.12 3342.92 (EL III) 2 42.90 1 3P4S3/2 3P2P3/2 KAB 0. 17 4075.82 1 75.87 10 3P4D7/2 3D4F9/2 KAB 0.0 3353.34 (CL HI) 1 53.33 2 3P4S3/2 3P2P1/2 KAB 0.08 4076.44 II ) 1 76.35 1 3P4S3/2 3P2P3/2 KAB 0.59 3354.60 HE I 1 54.55 8 2 1 SO 7 l Pl KAB 0.35 4087.12 II l 87.16 48 304F3/2 4F4G5/2 KAB 0.01 3356.69 (ff im 1 56.60 6 A5D1 A 3D2 KAB 0.0 4089.21 II 1 89.30 48 3D4F9/2 4F4G /2 KAB 0.03 3360.47 MF TI 1 60.63 2 3S4PI/2 3P4D3/2 KAB 0.0 4097.27 III 3 97.31 l 3 2S1/2 3 2P3/2 KAB 0.06 3370.39 S III l 70.38 2 3D3P2 4P 3PI KAB 0.0 4097.27 II 3 97.26 20 3P4P1/2 3D4D3/2 KAB 0.06 3387.01 S III 1 87.13 2 303P1 4P 3 PQ KAB 0.27 4097.27 II 3 97.26 48 3D4F7/2 4F4G9/2 KAB 0.06 3447.56 HE ’ 1 47.59 7 2 1 SO 61 PI KAB 0.51 4101.64 1.74 1 2 2P 20 KAB 25.00 3453.26 HE I 1 53.21 23P 2030 KAR 0.0 4104.96 4.74 20 3P4P3/2 3D 405/2 KAB 0.0 3465.89 HF I 1 65.89 23 P 1730 KAB 0.0 4104.96 5.00 20 3P4P3/2 3D4D3/2 KAB 0« Q 3471.86 HF T l 71.80 44 2 3P 1630 KAB O. 1 3 4110.69 n 11 1 10.80 20 3P4P3/2 3D401/2 KAB 0.05 3478.90 HF I 1 78.97 43 23P 1530 KAB 0. 1 3 4119.24 o 11 1 19.22 20 3P4P5/2 3D 407/2 KAB 0.06 3487.73 HF I 1 87.72 42 23P 1430 KAB 0.18 4120.82 HF I 1 20.81 16 2 3P 2<1 5 3S1 KAB 3497.33 c III l 97.34 KAB 0.06 4132.75 0 II 1 32.81 19 3P4P1/2 3D4P3/2 KAB 0.06 3498.62 HE I 1 98.64 40 23P 1330 KAB 0.22 4143.69 HF I 1 43.76 53 2 1P1 6 102 KAB 0.45 3512.60 HF I 12.51 3P 23P 1230 KAB 0.27 4153.27 1 53.30 19 3P4P3/2 3P4P5/2 KAB . o.O? 3530.47 HE I 1 30.49 36 2 3P 1130 KAB 0.3 4 4156.34 G II l 56.54 19 3P4P5/2 304P3/2 KAB 0.13 3554.49 HE I 2 54.39 34 2 3 P2 1030 KAB 0.4 L 4169.09 HE I l 68.97 52 2 1P1 6 ISO KAB 0.07 686 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K TABLE 9—Continued WAVE IDENT MT TRANS IT ION REF OBS I WAVE IDENT TRANSITION REF DBS I »185.^6 0 II 36 3P2F5/2 3D2G7/2 KA8 0.31 6371 50 SI II 2S 4 2P1/2 HQRG Q.»OA 6189.71 II 1 89.79 36 3P2F7/2 3D2G9/2 KAB 0.03 65684 60 (N II ) 1 48.10 MORG 0.0 A 6264.09 (FE IIIÍ 1 43.98 A 4F9/2 A 4G9/2 KAB 0.05 6563. 00 H I 1 62.80 MORG 0.0 A 4253.73 0 II 3 53.98 101 3D2G7/2 4F2H9/2 KAB 0.06 6583. 40 (N II ) 1 83.40 MORG 0.0 A 4253.73 II 3 53.74 101 3D2G9/2 4F2H9/2 KAB 0.06 6678. 20 H<= I 1 78.10 46 2 ID HORG 15.00A 4253.73 III 3 53.59 4 4S3P2 4P3D3 KAB 0.06 6716. 70 (S II ) 1 16.40 2 2D5/2 HQRG 10.00A 4267.13 II 1 67.27 6 3 205/2 4 2F7/2 KAB 0.35 6731. 10 CS II ) 1 30.80 2 203/2 MORG 10.00A 4276.95 (FE II ) 1 76.83 21 A 4F7/2 A 4G9/2 KAB 0.03 7001. 00 n i 1 2.20 21 3 3P 3D MORG 0.70A 4284.96 S III 1 84.99 4 4S3P1 4P3D2 KAB 0.0 3 7065. 00 HE I l 65.30 10 2 3P 3S MORG 10.00A 4287.53 (FE II ) 1 87.40 7 A 6D9/2 A 6S5/2 KAB 0.11 7135. 00 (AR III) 1 35.80 1 3P2 ID MORG 0.0 A 4303.77 0 II 1 3.82 54 3D4P5/2 4F4D7/2 KAB 0.03 7155. 00 (FE II ) 1 55.10 14 A 4F9/2 A 2G9/2 MORG O.&OA 4305.78 (FE II I 1 5.90 21 A 4F5/2 A 4G5/2 KAB 0.0 7231. 00 C II l 31.10 3 3 2P1/2 3 2D3/2 MORG 0.40 A 4317.05 0 II 1 17.14 2 3S4P1/2 3P4P3/2 KAB 0.06 7236, 60 C II 1 36,20 3 3 2P3/2 3 2D5/2 MORG 0.70A 4319.56 (FE II ) 2 19.62 21 A 4F5/2 4G7/2 KAB 0.03 7254, 00 0 I l 54.40 3P 5 MORG l.OOA 4319.56 0 11 2 19.63 2 3S4P3/2 3P4P5/2 KAB 0.03 7281. 20 HE I 1 81.30 45 2 IP 3 MORG 10.00A 4332.57 S III 1 32.71 4 4S3P0 4P3D1 KAB 0.03 7320. 10 (0 II ) 1 19.90 _2 2D5/2 MORG 0.0 A 4340.27 H I 1 40.47 1 2 2P 5 2D KAB 41.00 7330. 70 (O II ) 1 30.20 2 2D 3/2 2P MORG 0.0 A 4345.49 0 II 1 45.56 2 4S4P3/2 3P4PI/2 KAB 0.11 7387. 00 (FE II I 1 88.20 14 4F5/2 A 2G9/2 MORG 0.0 A 4346.75 (FE II ) 1 46.85 21 A 4F7/2 A 4G /2 KAB 0.03 7452. 00 (FE II ) 1 52.50 14 4F7/2 A 2G9/2 MORG 0.0 A 4347.50 0 II 1 47.43 16 3S2D3/2 3P2D3/2 KAB 0.03 7530. 70 (CL IV ) 1 30.90 3PI MORG 0.40A 4349.39 0 II l 49.43 2 3S4P5/2 3P4P5/2 KAB 0.08 7751. 30 (AR I I n l 51.00 3P1 MORG 5.00A 4351.32 0 II 1 51.27 16 3S2D5/2 3P2D5/2 KAB 0.01 7774. 50 O I 1 74.20 5S 3 MORG 0. 20 A 4359.45 ( FE I I I l 59.34 7 A 6D7/2 A 6S5/2 KAB 0.09 7816. 10 HE I 1 16.20 3S MORG 0.40A 4363.18 (0 III ) l 63.21 2 2PID2 2P1S0 KAB 1.65 8446. 00 0 I l 46.40 3S MORG 5.00A 4366.95 0 II ;1 6fri?0 3P4P3/2 KAB 0.06 4387.93 HE I 87.93 51 2 IP1 5 1D2 KAB 0.82 END NGC 1976 4413.91 (FE II 1 1 13.78 7 A 605/2 A 6S5/2 KAB 0.08 4414.98 0 II 1 14.91 5 3S2P3/2 3P205/2 KAB 0.06 4416.29 (FE II ) 1 16.27 6 A 6D9/2 B 4F9/2 KAB 0.06 4416.91 0 II 1 16.98 5 3S2P1/2 3P2D3/2 KAB 0.05 4437.66 HE I 1 37.55 50 2 1P1 5 ISO KAB -Qx-LQ 4446.87 N II 1 47.03 15 3P1P1 3D1D2 KAB 0.0 4452.30 n 11 2 52.38 5 3S2P3/2 3P2D3/2 KAB 0.06 4452.30 (FE II 2 52.11 7 A 6D3/2 A 6S5/-2. KAB 0^06 4458.12 (FE II Ï 57.95 6D7/2 B 4F7/2 KAB 0.05 4471.43 HE I 1 71.48 14 2 3P 4 3P KAB 5.04 4590.89 0 II 1 90.97 15 3S2D5/2 3P2F7/2 KAB 0.04 4607.06 N II 2 7.15 5 3S3P0 3P3PI KAB 0.06 4607.06 (FE I 11» 2 7.13 3 A 5D4 A 3F3 KAB 0.06 4621.41 N II 2 21.39 5 3S3P1 3P3P0 KAB 0.03 4621.41 (C I ) 2 21.50 2 2P3PI 2P ISO KAB 0.03 4630.60 N II 1 30.54 5 3S3P2 3P3P2 KAB 0.08 4634.01 N III I 34.16 2 3 2P1/2 3 203/2 KAB QtQ4 4638.81 1 38.85 1 3S4P1/2 3P4D3/2 KAB 0. 4640.73 N III 1 40.64 2 3 2P3/2 3 2D5/2 KAB 0.08 4641 <86. J 1 41.81 1 3 S 4P 3/2 3P4P5/2 KAB 0.15. 4649.15 n 11 1 49.14 1 3S4P5/2 3P4D7/2 KAB 0.25 4650.85 0 11 l 50.84 1 3S4P1/2 3P4D1/2 KAB 0.08 4658«19 (FE Hi) 1 58.10 3 A 504 A 3F4 KAB 0.82 4661.67 0 II 1 61.64 1 3S4P3/2 3P4D3/2 KAB 0.08 4676.11 0 II 1 76.23 l 3S4P5/2 3P4D5/2 KAB 0.06 4699.12 J3 LL_ 2 99.21 25 3P2D3/2 3D2F5/2. KAB 0.04 4699.12 II 2 99.21 40 3P2D5/2 3D2F7/2 KAB 0.04 4701.69 (FE III) l 1.62 3 A 5D3 3F3 KAB 0.24 4705.54 II 1 5 àâ 2JL 3P2D5/2 3D2F7/2 KAB 0.04 4711.48 (AR IV ) 1 11.34 1 3R4S3/2 3P2D5/2 KAB 0.17 4713.19 HE I 1 13.14 12 2 3P 4 3S1 KAB 1.05 4733.93 (FE III) 1 33.93 3 A 502 A 3F2 KAB 0.09 4740.28 (AR IV ) l 40.20 1 3P4S3/2 3P2D3/2 KAB 0.17 4754.87 (FE III) 1 54.83 3 A 5D3 A 3F4 KAB 0.11 4769.61 (FE III) 1 69.40 3 A 5D2 A 3F3 KAB 0.07 4774.42 (FE II ) l 74.74 20 A 4F9/2 B 4F7/2 KAB 0.0 4777.88 (FE I II » 1 77.70 3 A 5D1 A 3F2 KAB 0.05 4814.69 (FE II ) 1 14.55 20 A 4F9/2 B 4F9/2 KAB 0.10 4861.24 H I 1 61.33 1 2 2P 4 2D KAB 100.00 4881.14 (FE III) 1 81.00 2 A 5D4 A 3H4 KAB 0.31 4921.97 HE I 1 21.93 48 2 1P1 4 1D2 KAB 1.36 4931.05 (0 III ) 2 31.00 1 2P3P0 2P1D2 KAB 0.09 4931.05 (FE III) 2 30.70 1 A 5DI A 3P0 KAB 0.09 4958.90 (0 III ) 1 58.92 1 2P3P1 2P1D2 KAB 113.00 5007.00 (0 III I 1 6.85 1 2P3P2 2P1D2 KAB 342.00 5016.00 HE I 1 15.68 4 2 ISO 3 IP1 KAB 2.24 5041.90 SI II 1 41,10 5 4P2P1/2 4P 2D MORG 0.0 A 5047.30 HF I 1 47.70 2 IP 4 IS MORG 0. 40 A 5056.40 SI II l 56.10 5 4P2P3/2 4D2D MORG 0.40A 5191.40 (AR III) 1 91.40 3 10 IS MORG 0.20A 5198.30 (NI ) 1 98.50 1 4S 205/ 2 MORG 0.60A 5200.60 (NI ) 1 0.70 1 4S 2D3/2 MORG 0. 40 A 5270.80 FE III 1 70.30 1 A 5D3 A 3P2 MORG 1.20A 5321.80 (CL IV ) 1 22.20 3 ID IS MORG 0.0 A 5513.00 0 I l 12.70 25 3 3P 6 30 MORG 0.40A 5518.40 CL I 11 17.70 4S 205/2 MORG 10.00A 5538.20 CL III 1 37.60 l 4S 2D3/2 MORG 10.00A 5555.50 0 I 1 54.90 24 3 3P 7 3S MORG 0.0 A 5577.60 (0 1 ) 1 77.30 3 ID IS MORG 15.00A 5678.00 N II l 79.60 3 3S3P2 3P3D3 MORG 0. 40 A 5754.00 (N II) 1 54.60 3 ID IS MORG 15.00A 5876.00 HE I 1 75.60 11 2 3P 3 3D MORG 0.0 A 5958.00 SI II 2 57.60 4 4 2P1/2 5 2S MORG 0. 40 A 5958.00 0 I 2 58.50 23 3 3P 5 3D MORG 0. 40 A 5979.00 SI II 1 79.00 4 4 2P3/2 5 2S MORG 0.40A 6046.00 0 I 1 46.40 22 3 3P 6 3S MORG 0. 70 A 6300.60 (0 1 ) 1 0.30 l 3P2 ID MORG 10.00A 6312.40 ( S III) 1 12,10 3 in IS MORG 15.00 A 6347.30 SI II 1 47.10 2S 4 2P3/2 MORG 0.60A 6364.10 (0 I ) 1 63.80 3P1 ID MORG 1.20A 687 © American Astronomical Society • Provided by the NASA Astrophysics Data System 197 6ApJS. . .31. .517K 688 KALER REFERENCES Beëvàr, A. 1959, Atlas Coeli II (Prague: Czechoslovak Miller, J. H., and Mathews, W. G. 1972, Ap. J., 172, 593. Academy of Science). Moore, C. E. 1945, A Multiplet Table of Astrophysical Interest, Boulesteix, J., Courtès, G., Laval, A., and Monnet, G. 1974, Contr. Princeton Univ. Obs., No. 20 (RMT). Astr. and Ap., 37, 33. Perek, L. 1971, Bull. Astr. Inst. Czechoslovakia, 22, 103. Bowen, I. S. 1960, Ap. /., 132, 1. Perek, L., and Kohoutek, L. 1967, Catalog of Galactic Brocklehurst, M. 1971, M.N.R.A.S., 153, 471. Planetary Nebulae (Prague: Czechoslovak Academy of Cahn, J. H. 1976, Ap. J., in press. Science). Cahn, J. H., and Kaler, J. B. 1971, Ap. J. Suppl., 22, 319. Rodgers, A. W., Campbell, C. T., and Whiteoak, J. B. 1960, Cederblad, S. 1946, Lund Medd., Ser. 2, Vol. 12, no. 119. M.N.R.A.S., 121, 103. Courtès, G., and Cruvellier, P. 1965, Ann. d’Ap., 28, 683. Searle, L. 1971, Ap. J., 168, 327. Courtès, G., Louise, R., and Monnet, G., Astr. and Ap., 3, 222. Shao, C. Y., and Liller, W. 1975, private communication. Dorschner, J., and Gürtler, J. 1963, Astr. Nachr., 287, 257. Sharpless, S. 1959, Ap. J. Suppl., 4, 257. Dreyer, J. L. E. 1953, New General Catalog, Index Catalog, Struve, O., and Elvey, C. T. 1939, Ap. J., 89, 119, 517. Second Index Catalog, pub. in Mem. R.A.S. Sulentic, J. W., and Tifft, W. G. 1973, The Revised New Gum, C. S. 1955, Mem. R.A.S., 67, 155. General Catalog of Nonstellar Astronomical Objects Henize, K. G. 1956, Ap. J. Suppl, 2, 315. (Tucson: University of Arizona Press). . 1967, ibid., 14, 125. Vorontsov-Velyaminov, B. A., Kostjakova, E. B., Dokuchaeva, Higgs, L. A. 1971, Catalog of Radio Observations of Planetary O. D., and Arhipova, V. P. 1973, Mém. Soc. Roy. Sei. Nebulae and Related Optical Data (National Research Liège, ser. 6, 5, 79. Council of Canada, NRC 12129). Westerlund, B. E., and Smith, L. F. 1964, M.N.R.A.S., 127, Hubble, E. P. 1925, Ap. J., 62, 409. 449. Huggins, W. 1864, Proc. Roy. Soc. London, 13, 492. Whitford, A. E. 1958, A.J., 63, 201. Johnson, H. M. 1968, in Nebulae and Interstellar Matter, ed. Zwicky, F. 1971, Catalog of Selected Compact Galaxies and of B. Middlehurst and L. H. Aller (Chicago: University of Post-Eruptive Galaxies (privately published). Chicago Press). James B. Kaler: University of Illinois Observatory, Urbana, IL 61801 © American Astronomical Society • Provided by the NASA Astrophysics Data System