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The energies of the first four rotational levels for the molecule 79 Br 19 F are to be predicted. Concept introduction: For a diatomic molecule, Δ E in a rotational transition is the difference of energies of two adjacent states. The difference in energies is expressed by the difference between final and initial states. In the spectrum, each energy level is equally spaced by a difference of 2 B . The first four lines appearing at 2 B , 4 B , 6 B , and 8 B .

The energies of the first four rotational levels for the molecule 79 Br 19 F are to be predicted. Concept introduction: For a diatomic molecule, Δ E in a rotational transition is the difference of energies of two adjacent states. The difference in energies is expressed by the difference between final and initial states. In the spectrum, each energy level is equally spaced by a difference of 2 B . The first four lines appearing at 2 B , 4 B , 6 B , and 8 B .

Solution Summary: The author explains how the energies of the first four rotational levels for the molecule 79 Br

Physical Chemistry

Physical Chemistry

2nd Edition

ISBN: 9781133958437

Author: Ball, David W. (david Warren), BAER, Tomas

Publisher: Wadsworth Cengage Learning,

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Question

Chapter 14, Problem 14.11E

Interpretation Introduction

Interpretation:

The energies of the first four rotational levels for the molecule 79Br19F are to be predicted.

Concept introduction:

For a diatomic molecule, ΔE in a rotational transition is the difference of energies of two adjacent states. The difference in energies is expressed by the difference between final and initial states. In the spectrum, each energy level is equally spaced by a difference of 2B. The first four lines appearing at 2B,4B,6B, and 8B.

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Chapter 14, Problem 14.10E

Chapter 14, Problem 14.12E

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Chapter 14 Solutions

Physical Chemistry

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