Explanation Write the expression for λ ″ − λ . λ ″ − λ = ( λ ″ − λ ′ ) + ( λ ′ − λ ) (I) Here, λ ″ is the wavelength of the third photon, λ is the wavelength of the originally incident photon and λ ′ is the wavelength of the second photon. The scattering angle at the point A is θ . Write the Compton shift equation for the scattering at the point A. λ ′ − λ = h m e c ( 1 − cos θ ) (II) Here, h is the Planck’s constant, m e s the mass of the electron, c is the speed of light and θ is the scattering angle at the point A . The scattering angle at the point B is ( 180 ° − θ ) . Write the Compton shift equation for the scattering at the point B. λ ″ − λ ′ = h m e c [ 1 − cos ( 180 ° − θ ) ] = h m e c [ 1 − ( − cos θ ) ] = h m e c [ 1 + cos θ ] (III) Put equations (II) and (III) in equation (I)

Physics For Scientists And Engineers With Modern Physics, 9th Edition, The Ohio State University

9th Edition

ISBN: 9781305372337

Author: Raymond A. Serway | John W. Jewett

Publisher: Cengage Learning

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Chapter 40, Problem 26P

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The value of Δλ=λ″−λ .

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Chapter 40, Problem 25P

Chapter 40, Problem 27P

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Physics For Scientists And Engineers With Modern Physics, 9th Edition, The Ohio State University

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The value of Δ λ = λ ″ − λ .

Solution Summary: The author explains the value of Deltalambda and the Compton shift equation for the scattering at the point A.

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The value of Δλ=λ″−λ .

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Chapter 40 Solutions