Explanation Given Info: The wavelength of the photon is 1.68 cm . Write the expression for the difference in the energy of the rotational energy levels between adjacent levels. Δ E rot = 1 2 ( l + 1 ) ℏ 2 I Here, Δ E rot is the difference in the energy of the rotational energy levels l is the quantum number of the lower level ℏ is the reduced Planck’s constant I is the moment of inertia Write the expression for the wavelength of the photon required for transition. λ = h c Δ E rot Here, λ is the wavelength h is the Planck’s constant c is the speed of light Substitute 1 2 ( l + 1 ) ℏ 2 I for Δ E rot and re-write in terms of I . λ = h c 1 2 ( l + 1 ) ℏ 2 I = 4 π I c ( l + 1 ) ℏ I = ( l + 1 ) ℏ λ 4 π c Substitute 1 for l , 1

Essential University Physics (3rd Edition)

3rd Edition

ISBN: 9780134202709

Author: Richard Wolfson

Publisher: PEARSON

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Chapter 37, Problem 19E

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The rotational inertia of the gas molecule.

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Chapter 37, Problem 18E

Chapter 37, Problem 20E

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Chapter 37 Solutions

Essential University Physics (3rd Edition)

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The rotational inertia of the gas molecule.

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The rotational inertia of the gas molecule.

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Chapter 37 Solutions