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Science Chemistry Bundle: Physical Chemistry, 2nd + Student Solutions Manual

The reason as to why the given wavefunction for the 1-D particle-in-a-box cannot be assumed to give zero value on integration is to be explained. Concept introduction: For the orthogonality of the two different wavefunctions, the product of the wavefunctions 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 wavefunctions. The essential condition for two wavefunctions to be orthogonal to each other is m ≠ n .

The reason as to why the given wavefunction for the 1-D particle-in-a-box cannot be assumed to give zero value on integration is to be explained. Concept introduction: For the orthogonality of the two different wavefunctions, the product of the wavefunctions 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 wavefunctions. The essential condition for two wavefunctions to be orthogonal to each other is m ≠ n .

Solution Summary: The author explains why the given wavefunction for the 1-D particle-in-a-box cannot be assumed to give zero value on integration.

Bundle: Physical Chemistry, 2nd + Student Solutions Manual

Bundle: Physical Chemistry, 2nd + Student Solutions Manual

2nd Edition

ISBN: 9781285257594

Author: David W. Ball

Publisher: Cengage Learning

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Techniques and applications of quantum theory

Quantum theory, often known as quantum physics, is the foundation of modern physics and encompasses the nature and behavior of matter and energy at the atomic and molecular levels. As the exact nature and behavior of atomic and subatomic particles are im…

Question

Chapter 10, Problem 10.86E

Interpretation Introduction

Interpretation:

The reason as to why the given wavefunction for the 1-D particle-in-a-box cannot be assumed to give zero value on integration is to be explained.

Concept introduction:

For the orthogonality of the two different wavefunctions, the product of the wavefunctions 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 wavefunctions. The essential condition for two wavefunctions to be orthogonal to each other is m≠n.

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Chapter 10, Problem 10.85E

Chapter 10, Problem 10.87E

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Chapter 10 Solutions

Bundle: Physical Chemistry, 2nd + Student Solutions Manual

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