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The given statement that the second derivative of Ψ given by equation 11.8 gives equation 11.9 is to be verified. Concept introduction: The Schrödinger equation for one-dimensional harmonic oscillator is, [ − ℏ 2 2 m d 2 d x 2 + 2 π 2 v 2 m x 2 ] Ψ = E Ψ Where, • v is the frequency. • m is the mass of the body. • Ψ is the wavefunction of harmonic oscillator. • E is the energy of harmonic oscillator. • ℏ has the value h 2 π

The given statement that the second derivative of Ψ given by equation 11.8 gives equation 11.9 is to be verified. Concept introduction: The Schrödinger equation for one-dimensional harmonic oscillator is, [ − ℏ 2 2 m d 2 d x 2 + 2 π 2 v 2 m x 2 ] Ψ = E Ψ Where, • v is the frequency. • m is the mass of the body. • Ψ is the wavefunction of harmonic oscillator. • E is the energy of harmonic oscillator. • ℏ has the value h 2 π

Solution Summary: The author explains that the second derivative of Psi given by equation 11.8 is verified.

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 11, Problem 11.9E

Interpretation Introduction

Interpretation:

The given statement that the second derivative of Ψ given by equation 11.8 gives equation 11.9 is to be verified.

Concept introduction:

The Schrödinger equation for one-dimensional harmonic oscillator is,

[−ℏ22md2dx2+2π2v2mx2]Ψ=EΨ

Where,

• v is the frequency.

• m is the mass of the body.

• Ψ is the wavefunction of harmonic oscillator.

• E is the energy of harmonic oscillator.

• ℏ has the value h2π

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Chapter 11, Problem 11.8E

Chapter 11, Problem 11.10E

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