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35 lines
948 B
Plaintext
35 lines
948 B
Plaintext
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In position space,
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⌠ ∞
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❬φₙ❙Ψ❭ ≐ ⎮ dx φₙ⃰(x) Ψ(x).
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⌡-∞
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But for just 3L/4 to L,
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⌠L
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⎮ dx φₙ⃰(x) Ψ(x).
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⌡3L/4
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Since this is a particle in an infinite square well,
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φₙ(x) = √⎛2͟⎞ sin⎛n͟π͟x͟⎞ and Ψ(x) = ∑ cₙ φₙ(x).
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⎝L⎠ ⎝ L ⎠ ⁿ
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So the probability to calculate is
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⌠L
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⎮ dx √⎛2͟⎞ sin⎛n͟π͟x͟⎞ ∑ cₙ φₙ(x).
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⌡3L/4 ⎝L⎠ ⎝ L ⎠ ⁿ
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The evaluation of the last piece of this expression is elucidated by the identity
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sin(u)sin(v) = 1/2 (cos(u-v) - cos(u+v)), i.e.
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sin(2nπ) sin(³/₂nπ) = ¹/₂(cos(1/2nπ) - cos(7/2nπ)).
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So when n is odd, this product disappears, and when n is even one of the sin² terms disappears. The other sin² will always return 0, since regardless of the integer n, its argument is an integer multiple of π. |