College Physics
College Physics
10th Edition
ISBN: 9781285737027
Author: Raymond A. Serway, Chris Vuille
Publisher: Cengage Learning
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Chapter 22, Problem 48AP

(a)

To determine

The maximum value of angle for which the refracted ray will undergo total internal reflection at the left vertical face of the block.

(a)

Expert Solution
Check Mark

Answer to Problem 48AP

For any angle less than equal to 90° will occur the total internal reflection.

Explanation of Solution

The following ray diagram show path of the light.

College Physics, Chapter 22, Problem 48AP , additional homework tip  1

Formula to calculate the angle θ3 is,

θ3=sin1(nanp)

  • θ3 is the angle
  • naandnp are the refractive index of air and polystyrene

Substitute 1 for na . 1.49 for np to find θ3 .

θ3=sin1(11.49)=42.2°

Formula to calculate the angle θ2 is,

θ2=(90°θ3)

  • θ2 is the angle

Substitute 42.2° for θ3 to find θ2 .

θ2=(90°42.2°)=47.8°

Formula to calculate the angle θ1 is,

sinθ1=(npsinθ2na)

  • θ1andθ2 are the angle
  • naandnp are the refractive index of air and polystyrene

Substitute 1 for na . 1.49 for np , 47.8° for θ2 to find θ1 .

sinθ1=((1.49)sin(47.8)(1))=1.1

Thus, for any angle less than equal to 90° will occur the total internal reflection.

Conclusion:

Therefore, for any angle less than equal to 90° will occur the total internal reflection.

(b)

To determine

The maximum value of angle for which the refracted ray will undergo total internal reflection at the left vertical face of the block when surrounding is water.

(b)

Expert Solution
Check Mark

Answer to Problem 48AP

For any angle less than equal to 90° will occur the total internal reflection.

Explanation of Solution

The ray diagram is given below:

College Physics, Chapter 22, Problem 48AP , additional homework tip  2

Formula to calculate the angle θ3 is,

θ3=sin1(nwnp)

  • θ3 is the angle
  • nwandnp are the refractive index of water and polystyrene

Substitute 1.33 for na . 1.49 for np to find θ3 .

θ3=sin1(1.331.49)=63.5°

Formula to calculate the angle θ2 is,

θ2=(90°θ3)

  • θ2 is the angle

Substitute 63.5° for θ3 to find θ2 .

θ2=(90°63.5°)=26.5°

Formula to calculate the angle θ1 is,

θ1=sin1(npsinθ2nw)

  • θ1andθ2 are the angle
  • nwandnp are the refractive index of water and polystyrene

Substitute 1.33 for nw . 1.49 for np , 26.5° for θ2 to find θ1 .

θ1=sin1((1.49)sin(26.5)(1.33))=29.9°

Thus, for any angle less than equal to 90° will occur the total internal reflection.

Conclusion:

Therefore, for any angle less than equal to 90° will occur the total internal reflection.

(c)

To determine

what will happen when the polystyrene block will immerse in carbon disulfide.

(c)

Expert Solution
Check Mark

Answer to Problem 48AP

When the polystyrene block will immerse in carbon disulfide the total internal reflection will not occur.

Explanation of Solution

The total internal reflection will not occur when the polystyrene block will immerse in carbon disulfide as the refractive index of the polystyrene is less than that of the carbon disulfide.

Conclusion:

Therefore, when the polystyrene block will immerse in carbon disulfide the total internal reflection will not occur.

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Chapter 22 Solutions

College Physics

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