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AP Physics 2 : Other Optics Principles

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Example Questions

Example Question #1 : Other Optics Principles

Light rays encounter a mystery optical device, resulting in a new distribution of the light waves as shown. Assume the light travels from right to left.

Photo 2 1

What type of reflecting or refracting surface is depicted?

Possible Answers:

Diverging mirror

Plane (flat) mirror

Converging mirror

Diverging lens

Converging lens

Correct answer:

Converging lens

Explanation:

In a converging lens, the light waves pass through it and have their angles altered so that they point closer together than they did before they went through the lens. In the picture, the light waves are diverging from a point until they go into the lens, at which point they no longer diverge from each other. Therefore, this is a converging lens. Because the waves are travelling the same direction the whole time, it can't be the converging or diverging mirrors. If the lens were diverging, they'd be more separated. If it were a plane mirror, the waves would get polarized (they'd have the same phase angle).

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Example Question #2 : Other Optics Principles

If a person with near point distance of 20cm observes a fine detailed coin with magnifying glass with an angular magnification of 5, what is the focal length?

Possible Answers:

0.04m

0.4m

0.0025m

0.25m

Correct answer:

0.04m

Explanation:

Use the formula for focal length.

$M=\frac{\frac{h_0}{f}}{\frac{h_0}{N}}$

Solve for focal length by substituting known values.

$f=\frac{N}{M} = \frac{20 { {cm}}}{5}=4 { cm}=0.04{ m}$

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Example Question #93 : Optics

Malus' law:

$I=I_0cos^2(\theta)$

Where is the intensity of polarized light that has passed through the polarizer, I_0 is the intensity of polarized light before the polarizer, and $\theta$ is the angle between the polarized light and the polarizer. Malus law

Unpolarized light passes through a polarizer. It then passes through another at angle $25^{\circ}$ to the first. What percentage of the original intensity was the light coming out of the second polarizer?

Possible Answers:

$66.6\%$

$45.7\%$

$82.1\%$

$100\%$

$35.5\%$

Correct answer:

$82.1\%$

Explanation:

Malus law

Using Malus' law.

$I=I_0cos^2(\theta)$

Since the initial light is unpolarized, there will be no intensity lost.

$I=I_0cos^2(25^{\circ})$

I=I_0*.821

$82.1\%=.821$

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Example Question #1 : Other Optics Principles

Malus' law:

$I=I_0cos^2(\theta)$

Unpolarized light passes through a polarizer. It then passes through another polarizer at angle $35^{\circ}$ to the first, and then another at angle $25^{\circ}$ to the second. What percentage of the original intensity was the light coming out of the third polarizer?

Possible Answers:

$75.8\%$

None of these

$69.2\%$

$23.6\%$

$55.1\%$

Correct answer:

$55.1\%$

Explanation:

Malus law

Use Malus' law.

$I=I_0cos^2(\theta)$

The light's intensity is reduced by the final two polarizers. It is thus necessary to use Malus' law twice.

$I_1=I_0cos^2(\theta_1)$

$I_2=I_1cos^2(\theta_2)$

Where I_0 is the initial intensity after the first polarizer.

I_1 is the intensity after the second polarizer.

I_2 is the intensity after the third polarizer.

$\theta_1$ is the angle between the first and second polarizers.

$\theta_2$ is the angle between the second and third polarizers.

Combining equations:

$I_2=I_0cos^2(\theta_2)cos^2({\theta_1})$

Plug in values:

$I_2=I_0cos^2(25^\circ)cos^2(35^\circ)$

I_2=.551I_0

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Example Question #513 : Ap Physics 2

Malus' law:

$I=I_0cos^2(\theta)$

Unpolarized light passes through a polarizer. It then passes through another polarizer at angle $55^{\circ}$ to the first, and then another at angle $65^{\circ}$ to the second. What percentage of the original intensity was the light coming out of the third polarizer?

Possible Answers:

$15.99\%$

$65.2\%$

$5.88\%$

$4.21\%$

None of these

Correct answer:

$5.88\%$

Explanation:

Malus law

Use Malus' law.

$I=I_0cos^2(\theta)$

The light's intensity is reduced by the final two polarizers. We will need to use Malus' law twice.

$I_1=I_0cos^2(\theta_1)$

$I_2=I_1cos^2(\theta_2)$

Where I_0 is the initial intensity after the first polarizer.

I_1 is the intensity after the second polarizer.

I_2 is the intensity after the third polarizer.

$\theta_1$ is the angle between the first and second polarizers.

$\theta_2$ is the angle between the second and third polarizers.

Combining equations:

$I_2=I_0cos^2(\theta_2)cos^2({\theta_1})$

Plug in values:

$I_2=I_0cos^2(65^\circ)cos^2(55^\circ)$

I_2=.0588I_0

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Example Question #6 : Other Optics Principles

Malus' law:

$I=I_0cos^2(\theta)$

Unpolarized light passes through a polarizer. It then passes through another polarizer at angle $5^{\circ}$ to the first, and then another at angle $45^{\circ}$ to the second. What percentage of the original intensity was the light coming out of the third polarizer?

Possible Answers:

$79.7\%$

$59.7\%$

$49.6\%$

None of these

$89.2\%$

Correct answer:

$49.6\%$

Explanation:

Malus law

Use Malus' law.

$I=I_0cos^2(\theta)$

The light's intensity is reduced by the final two polarizers. We will need to use Malus' law twice.

$I_1=I_0cos^2(\theta_1)$

$I_2=I_1cos^2(\theta_2)$

Where I_0 is the initial intensity after the first polarizer.

I_1 is the intensity after the second polarizer.

I_2 is the intensity after the third polarizer.

$\theta_1$ is the angle between the first and second polarizers.

$\theta_2$ is the angle between the second and third polarizers.

Combine equations:

$I_2=I_0cos^2(\theta_2)cos^2({\theta_1})$

Plug in values:

$I_2=I_0cos^2(45^\circ)cos^2(5^\circ)$

I_2=.496I_0

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Example Question #101 : Optics

Malus' law:

$I=I_0cos^2(\theta)$

Unpolarized light passes through a polarizer. It then passes through another polarizer at angle $40^{\circ}$ to the first, and then another at angle $15^{\circ}$ to the second. What percentage of the original intensity was the light coming out of the second polarizer?

Possible Answers:

None of these

$84.4\%$

$54.8\%$

$65.2\%$

$19.8\%$

Correct answer:

$54.8\%$

Explanation:

Malus law

Use Malus' law.

$I=I_0cos^2(\theta)$

The light's intensity is reduced by the final two polarizers. We will need to use Malus' law twice.

$I_1=I_0cos^2(\theta_1)$

$I_2=I_1cos^2(\theta_2)$

Where I_0 is the initial intensity after the first polarizer.

I_1 is the intensity after the second polarizer.

I_2 is the intensity after the third polarizer.

$\theta_1$ is the angle between the first and second polarizers.

$\theta_2$ is the angle between the second and third polarizers.

Combine equations:

$I_2=I_0cos^2(\theta_2)cos^2({\theta_1})$

Plug in values:

$I_2=I_0cos^2(15^\circ)cos^2({40^\circ})$

I_2=.548I_0

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Example Question #2 : Other Optics Principles

Malus' law:

$I=I_0cos^2(\theta)$

Unpolarized light passes through a polarizer. It then passes through another polarizer at angle $30^{\circ}$ to the first, and then another at angle $50^{\circ}$ to the second. What percentage of the original intensity was the light coming out of the third polarizer?

Possible Answers:

$31.0\%$

$71.6\%$

$25.5\%$

$11.6\%$

None of these

Correct answer:

$31.0\%$

Explanation:

Malus law

Use Malus' law.

$I=I_0cos^2(\theta)$

The light's intensity is reduced by the final two polarizers. We will need to use Malus law twice.

$I_1=I_0cos^2(\theta_1)$

$I_2=I_1cos^2(\theta_2)$

Where I_0 is the initial intensity after the first polarizer.

I_1 is the intensity after the second polarizer.

I_2 is the intensity after the third polarizer.

$\theta_1$ is the angle between the first and second polarizers.

$\theta_2$ is the angle between the second and third polarizers.

Combine equations:

$I_2=I_0cos^2(\theta_2)cos^2({\theta_1})$

Plug in values:

$I_2=I_0cos^2(30^\circ)cos^2(50^\circ)$

I_2=.310I_0

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Example Question #3 : Other Optics Principles

You are passing a ray of light through clear alcohol to determine properties. You shine the light ray exactly 45^o to the surface of alcohol.

Suppose that the alcohol surface will completely reflect the incoming light beam like a mirror. At what angle will the angle of reflectance be to the normal of the surface of the alcohol?

Possible Answers:

0^o

45^o

60^o

22.5^o

Correct answer:

45^o

Explanation:

Assuming the alcohol works like a perfect mirror, the angle of reflectance will equal the angle of incidence. Therefore, the angle of reflectance will be 45^o

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Example Question #4 : Other Optics Principles

The diffraction of waves refers to the

Possible Answers:

slowing down of one wave in the presence of another

change in wavelength that occurs when two waves cross one another

resultant disturbance of two or more waves at every point

phase change of 180 degrees that occurs on reflection of a wave at a fixed end

spreading of waves from their initial line of travel

Correct answer:

spreading of waves from their initial line of travel

Explanation:

Diffraction is the bending of light around an object. It is seen in the Double Slit experiment in which waves are spread out from their initial line of travel.

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AP Physics 2 : Other Optics Principles

Study concepts, example questions & explanations for AP Physics 2

All AP Physics 2 Resources

Example Questions

Example Question #1 : Other Optics Principles

Example Question #2 : Other Optics Principles

Example Question #93 : Optics

Example Question #1 : Other Optics Principles

Example Question #513 : Ap Physics 2

Example Question #6 : Other Optics Principles

Example Question #101 : Optics

Example Question #2 : Other Optics Principles

Example Question #3 : Other Optics Principles

Example Question #4 : Other Optics Principles

All AP Physics 2 Resources

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