Principles of Physics: A Calculus-Based Text
Principles of Physics: A Calculus-Based Text
5th Edition
ISBN: 9781133104261
Author: Raymond A. Serway, John W. Jewett
Publisher: Cengage Learning
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Chapter 25, Problem 24P
To determine

The difference in angular dispersion.

Expert Solution & Answer
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Answer to Problem 24P

The difference in angular dispersion is Δθ4=sin1{nvsin[Φsin1(sinθnv)]}sin1{nRsin[Φsin1(sinθnR)]}_.

Explanation of Solution

Write the expression for Snell’s law of refraction at the air-silica flint glass interface.

    n1sinθ1=n2sinθ2        (I)

Here, n1 is the refractive index of the air medium, θ1 is the angle of incidence at the air-silica flint glass interface, n2 is the refractive index of the silica flint glass and θ2 is the angle of refraction at the air-silica flint glass interface.

Rearrange the above equation to find θ2.

  sinθ2=n1sinθ1n2θ2=sin1(n1sinθ1n2)        (II)

Given that the refractive index of the air is n1=1.0.

The above equation is written as

  θ2=sin1((1.00)sinθ1n2)        (III)

For the incoming violet ray the above equation is written as

    (θ2)violet=sin1(sinθnv)        (IV)

Here, (θ2)violet is the angle at violet ray enters the silica flint glass, θ is the angle of incidence, and nv is the refractive index of violet ray in the silica flint glass.

For the incoming red ray the equation (III) is written as

    (θ2)red=sin1(sinθnR)        (V)

Here, (θ2)red is the angle at red ray enters the silica flint glass, θ is the angle of incidence, and nR is the refractive index of red ray in the silica flint glass.

Write the expression for Snell’s law of refraction at the silica flint glass-air interface.

    n1sinθ4=n2sinθ3        (VI)

Here, n1 is the refractive index of the air medium, θ3 is the angle of incidence at the silica flint glass interface, n2 is the refractive index of the silica flint glass and θ4 is the angle of refraction at the silica flint glass-air interface.

Rearrange the above equation to find θ2.

  sinθ4=n2sinθ3n1θ4=sin1(n2sinθ3n1)        (VII)

For the outgoing violet ray the above equation is written as

    (θ4)violet=sin1(nvsinθ3)        (VIII)

Here, (θ4)violet is the angle at violet ray leaves the silica flint glass, θ is the angle of incidence, and nv is the refractive index of violet ray in the silica flint glass.

For the incoming red ray the equation (III) is written as

    (θ4)red=sin1(nRsinθ3)        (IX)

Here, (θ2)red is the angle at red ray enters the silica flint glass, θ is the angle of incidence, and nR is the refractive index of red ray in the silica flint glass

Write the expression for sum of all the angles in the Triangle for the outgoing rays in Figure P25.23.

    (90.0°θ2)+(90.0°θ3)+Φ=180°

Here, Φ is the apex angle of the prism.

Rearrange the above equation to find θ3.

    θ3=Φθ2        (X)

Use equation (X) in (VIII).

    (θ4)violet=sin1(nvsin(Φθ2))        (XI)

Use equation (IV) in (XI).

    (θ4)violet=sin1{nvsin[Φsin1(sinθnv)]}        (XII)

Use equation (VIII) in (IX).

    (θ4)red=sin1(nRsin(Φθ2))        (XIII)

Use equation (V) in (XIII).

    (θ4)red=sin1{nRsin[Φsin1(sinθnR)]}        (XIV)

Write the expression for difference in angular dispersion.

    Δθ4=(θ4)violet(θ4)red        (XV)

Use equation (XII) and (XIV) in equation (XV).

    Δθ4=sin1{nvsin[Φsin1(sinθnv)]}sin1{nRsin[Φsin1(sinθnR)]}

Conclusion:

Therefore, the difference in angular dispersion is Δθ4=sin1{nvsin[Φsin1(sinθnv)]}sin1{nRsin[Φsin1(sinθnR)]}_.

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Chapter 25 Solutions

Principles of Physics: A Calculus-Based Text

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