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Science Chemistry EBK CHEMISTRY

The wavelength of the photon in a hydrogen atom from n=3 to n=1 is to be determined. Concept introduction: The property of a wave that is the distance between two identical points between successive waves is known as wavelength The wavelength of the photon is calculated by using the following relation: 1 λ = 2.18 × 10 − 18 J hc ( 1 n f 2 − 1 n i 2 ) Here, λ is the wavelength, h is Planck’s constant, c is the speed of light , n f is the final transition state, and n i is the initial transition state. The relationship between meters and nanometres can be expressed as 1 m =10 9 nm . To convert meters to nanometers, the conversion factor is 10 9 nm 1 m .

The wavelength of the photon in a hydrogen atom from n=3 to n=1 is to be determined. Concept introduction: The property of a wave that is the distance between two identical points between successive waves is known as wavelength The wavelength of the photon is calculated by using the following relation: 1 λ = 2.18 × 10 − 18 J hc ( 1 n f 2 − 1 n i 2 ) Here, λ is the wavelength, h is Planck’s constant, c is the speed of light , n f is the final transition state, and n i is the initial transition state. The relationship between meters and nanometres can be expressed as 1 m =10 9 nm . To convert meters to nanometers, the conversion factor is 10 9 nm 1 m .

Solution Summary: The author explains how the wavelength of the photon in a hydrogen atom is determined.

EBK CHEMISTRY

4th Edition

ISBN: 8220102797864

Author: Burdge

Publisher: YUZU

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Chapter 6.4, Problem 1PPA

Interpretation Introduction

Interpretation:

The wavelength of the photon in a hydrogen atom from n=3 to n=1 is to be determined.

Concept introduction:

The property of a wave that is the distance between two identical points between successive waves is known as wavelength

The wavelength of the photon is calculated by using the following relation:

1λ=2.18×10−18 Jhc(1nf2−1ni2)

Here, λ is the wavelength, h

is Planck’s constant, c is the speed of light, nf is the final transition state, and ni is the initial transition state.

The relationship between meters and nanometres can be expressed as 1 m =109 nm.

To convert meters to nanometers, the conversion factor is 109 nm1 m.

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Chapter 6.3, Problem 4CP

Chapter 6.4, Problem 1PPB

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