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The reason as to why ( 1 / X ) ( d 2 / d x 2 ) X is defined as ( − 2 m E x / ℏ 2 ) and not simply as E is to be stated. Concept introduction: In quantum mechanics , the wavefunction is given by Ψ . The wavefunction contains all the information about the state of the system. The wavefunction is the function of the coordinates of particles and time. The time-independent Schrödinger equation for a particle in three dimensions is represented as, − ℏ 2 2 m ( ∂ 2 ∂ x 2 + ∂ 2 ∂ y 2 + ∂ 2 ∂ z 2 ) Ψ = E Ψ

The reason as to why ( 1 / X ) ( d 2 / d x 2 ) X is defined as ( − 2 m E x / ℏ 2 ) and not simply as E is to be stated. Concept introduction: In quantum mechanics , the wavefunction is given by Ψ . The wavefunction contains all the information about the state of the system. The wavefunction is the function of the coordinates of particles and time. The time-independent Schrödinger equation for a particle in three dimensions is represented as, − ℏ 2 2 m ( ∂ 2 ∂ x 2 + ∂ 2 ∂ y 2 + ∂ 2 ∂ z 2 ) Ψ = E Ψ

Solution Summary: The author explains that the wavefunction is given by Psi and the time-independent Schrödinger equation for a particle in three dimensions.

Physical Chemistry

Physical Chemistry

2nd Edition

ISBN: 9781133958437

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

Publisher: Wadsworth Cengage Learning,

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Spectroanalytical methods measure the wavelength and intensity of radiations that are either emitted or absorbed by a molecular or atomic species. These methods are useful for evaluating the electronic or atomic arrangement of the molecules of a given an…

Question

Chapter 10, Problem 10.72E

Interpretation Introduction

Interpretation:

The reason as to why (1/X)(d2/dx2)X is defined as (−2mEx/ℏ2) and not simply as E is to be stated.

Concept introduction:

In quantum mechanics, the wavefunction is given by Ψ. The wavefunction contains all the information about the state of the system. The wavefunction is the function of the coordinates of particles and time.

The time-independent Schrödinger equation for a particle in three dimensions is represented as,

−ℏ22m(∂2∂x2+∂2∂y2+∂2∂z2)Ψ=EΨ

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Chapter 10, Problem 10.71E

Chapter 10, Problem 10.73E

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Chapter 10 Solutions

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