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The imaginary macroscopic experiment that closely corresponds to the given outcome of electron diffraction is to be selected. Concept introduction: For the standing waves, the length of the string is considered n times half of the wavelength ( λ ) . L = n λ 2 Here, n is a positive integer starting from 1 . According to de Broglie, the circumference of the allowed orbital ( 2 π r ) and wavelength ( λ ) . The expression is as follows: 2 π r = n λ Here, n is a positive integer starting from 1 .

The imaginary macroscopic experiment that closely corresponds to the given outcome of electron diffraction is to be selected. Concept introduction: For the standing waves, the length of the string is considered n times half of the wavelength ( λ ) . L = n λ 2 Here, n is a positive integer starting from 1 . According to de Broglie, the circumference of the allowed orbital ( 2 π r ) and wavelength ( λ ) . The expression is as follows: 2 π r = n λ Here, n is a positive integer starting from 1 .

Solution Summary: The author explains that the imaginary macroscopic experiment that closely corresponds to the given outcome of electron diftion is to be selected.

Chemistry

4th Edition

ISBN: 9780078021527

Author: Julia Burdge

Publisher: McGraw-Hill Education

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Chapter 6.5, Problem 1PPC

Interpretation Introduction

Interpretation:

The imaginary macroscopic experiment that closely corresponds to the given outcome of electron diffraction is to be selected.

Concept introduction:

For the standing waves, the length of the string is considered n times half of the wavelength (λ).

L=nλ2

Here, n is a positive integer starting from 1.

According to de Broglie, the circumference of the allowed orbital (2πr) and wavelength (λ). The expression is as follows:

2πr=nλ

Here, n is a positive integer starting from 1.

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Chapter 6.5, Problem 1PPB

Chapter 6.5, Problem 1CP

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Chapter 6 Solutions

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