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The validation of the given statement that the given hydrogen wavefunctions are orthogonal to each other is to be shown. Concept introduction: For the orthogonality of the two different wave functions, the product of the wave functions is integrated over the entire limits. It is expressed by the equation as given below. ∫ 0 ∞ Ψ m Ψ n = 0 Where, Ψ m and Ψ n are two different wave functions. The essential condition for two wave functions to be orthogonal to each other is m ≠ n .

The validation of the given statement that the given hydrogen wavefunctions are orthogonal to each other is to be shown. Concept introduction: For the orthogonality of the two different wave functions, the product of the wave functions is integrated over the entire limits. It is expressed by the equation as given below. ∫ 0 ∞ Ψ m Ψ n = 0 Where, Ψ m and Ψ n are two different wave functions. The essential condition for two wave functions to be orthogonal to each other is m ≠ n .

Solution Summary: The author explains that the given hydrogen wavefunctions are orthogonal to each other. The product of the wave functions is integrated over the entire limits.

Physical Chemistry

Physical Chemistry

2nd Edition

ISBN: 9781133958437

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

Publisher: Wadsworth Cengage Learning,

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Chapter 11, Problem 11.83E

Interpretation Introduction

Interpretation:

The validation of the given statement that the given hydrogen wavefunctions are orthogonal to each other is to be shown.

Concept introduction:

For the orthogonality of the two different wave functions, the product of the wave functions is integrated over the entire limits. It is expressed by the equation as given below.

∫0∞Ψm Ψn=0

Where, Ψm and Ψn are two different wave functions. The essential condition for two wave functions to be orthogonal to each other is m≠n.

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Chapter 11, Problem 11.82E

Chapter 11, Problem 11.84E

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