Glencoe Physics: Principles and Problems, Student Edition
Glencoe Physics: Principles and Problems, Student Edition
1st Edition
ISBN: 9780078807213
Author: Paul W. Zitzewitz
Publisher: Glencoe/McGraw-Hill
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Chapter 28, Problem 42A

a.

To determine

To calculate: The energy difference between the two states involved in the generation of each wavelength.

a.

Expert Solution
Check Mark

Answer to Problem 42A

Energy change for 632.8 nm is 1.96 eV_

Energy change for 543.4 nm is 2.28 eV_

Energy change for 1152.3 nm is 1.08 eV_

Explanation of Solution

Given:

Wavelengths of the laser = 632.8 nm,543.4 nm, 1152.3 nm .

Formula used:

Energy change is given by,

  ΔE=hcλ

Where h is Planck’s constant, c is speed of light and λ is wavelength.

Calculation:

For 632.8 nm , energy change is calculated as:

  ΔE=hcλ                   [hc=1240 eVnm]      =1240 eVnm632.8 nm     =1.96 eV

For 543.4 nm , energy change is calculated as:

  ΔE=hcλ                   [hc=1240 eVnm]      =1240 eVnm543.4 nm     =2.28 eV

For 1152.3 nm , energy change is calculated as:

  ΔE=hcλ                   [hc=1240 eVnm]      =1240 eVnm1152.3 nm     =1.08 eV

Conclusion:

Energy change for 632.8 nm is 1.96 eV_

Energy change for 543.4 nm is 2.28 eV_

Energy change for 1152.3 nm is 1.08 eV_

b.

To determine

To identify: The color corresponding to each wavelength.

b.

Expert Solution
Check Mark

Explanation of Solution

Introduction:

The portion of electromagnetic spectrum that is visible to human eye is called electromagnetic spectrum. A typical human eye can see 380 nm -740 nm . Infrared lights have wavelengths longer than those of visible light.

The colors according to their wavelength are:

  Glencoe Physics: Principles and Problems, Student Edition, Chapter 28, Problem 42A

Hence the wavelength 632.8 nm corresponds to red light, 543.4 nm corresponds to green light and 1152.3 nm corresponds to infrared light.

Conclusion:

The colors are Red, Green and Infrared respectively.

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