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Deck 17: Electromagnetic Waves

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Question
Consider: radio waves (r), visible light (v), infrared (i), x-rays (x), and ultraviolet (u). In order of increasing frequency, they are:

A) r, v, i, x, u
B) r, i, v, u, x
C) i, r, v, u, x
D) i, v, r, u, x
E) r, i, v, x, u
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Question
The order of increasing wavelength for blue (b), green (g), red (r), and yellow (y) light is:

A) r, y, g, b
B) r, g, y, b
C) g, y, b, r
D) b, g, y, r
E) b, y, g, r
Question
Of the following human eyes are most sensitive to:

A) red light
B) violet light
C) blue light
D) green light
E) none of these (they are equally sensitive to all colors)
Question
Maxwell's equations predict that the speed of electromagnetic waves in free space is given by:

A) <strong>Maxwell's equations predict that the speed of electromagnetic waves in free space is given by:</strong> A) B) C) D) E) <div style=padding-top: 35px>
B) <strong>Maxwell's equations predict that the speed of electromagnetic waves in free space is given by:</strong> A) B) C) D) E) <div style=padding-top: 35px>
C) <strong>Maxwell's equations predict that the speed of electromagnetic waves in free space is given by:</strong> A) B) C) D) E) <div style=padding-top: 35px>
D) <strong>Maxwell's equations predict that the speed of electromagnetic waves in free space is given by:</strong> A) B) C) D) E) <div style=padding-top: 35px>
E) <strong>Maxwell's equations predict that the speed of electromagnetic waves in free space is given by:</strong> A) B) C) D) E) <div style=padding-top: 35px>
Question
Radio waves differ from visible light waves in that radio waves:

A) travel slower
B) have a higher frequency
C) travel faster
D) have a lower frequency
E) require a material medium
Question
Radio waves of wavelength 3 cm have a frequency of:

A) 1 MHz
B) 9 MHz
C) 100 MHz
D) 10,000 MHz
E) 900 MHz
Question
An electromagnetic wave is generated by:

A) any moving charge
B) any accelerating charge
C) only a charge with changing acceleration
D) only a charge moving in a circle
E) only a charge moving in a straight line
Question
The electric field for a plane electromagnetic wave traveling in the +y direction is shown. Consider a point where <strong>The electric field for a plane electromagnetic wave traveling in the +y direction is shown. Consider a point where is in the +z direction. The field is: </strong> A) in the +x direction and in phase with the field B) in the -x direction and in phase with the field C) in the +x direction and 1/4 wave out of phase with the field D) in the +z direction and in phase with the field E) in the +z direction and 1/4 wave out of phase with the field <div style=padding-top: 35px> is in the +z direction. The <strong>The electric field for a plane electromagnetic wave traveling in the +y direction is shown. Consider a point where is in the +z direction. The field is: </strong> A) in the +x direction and in phase with the field B) in the -x direction and in phase with the field C) in the +x direction and 1/4 wave out of phase with the field D) in the +z direction and in phase with the field E) in the +z direction and 1/4 wave out of phase with the field <div style=padding-top: 35px> field is:
<strong>The electric field for a plane electromagnetic wave traveling in the +y direction is shown. Consider a point where is in the +z direction. The field is: </strong> A) in the +x direction and in phase with the field B) in the -x direction and in phase with the field C) in the +x direction and 1/4 wave out of phase with the field D) in the +z direction and in phase with the field E) in the +z direction and 1/4 wave out of phase with the field <div style=padding-top: 35px>

A) in the +x direction and in phase with the <strong>The electric field for a plane electromagnetic wave traveling in the +y direction is shown. Consider a point where is in the +z direction. The field is: </strong> A) in the +x direction and in phase with the field B) in the -x direction and in phase with the field C) in the +x direction and 1/4 wave out of phase with the field D) in the +z direction and in phase with the field E) in the +z direction and 1/4 wave out of phase with the field <div style=padding-top: 35px> field
B) in the -x direction and in phase with the <strong>The electric field for a plane electromagnetic wave traveling in the +y direction is shown. Consider a point where is in the +z direction. The field is: </strong> A) in the +x direction and in phase with the field B) in the -x direction and in phase with the field C) in the +x direction and 1/4 wave out of phase with the field D) in the +z direction and in phase with the field E) in the +z direction and 1/4 wave out of phase with the field <div style=padding-top: 35px> field
C) in the +x direction and 1/4 wave out of phase with the <strong>The electric field for a plane electromagnetic wave traveling in the +y direction is shown. Consider a point where is in the +z direction. The field is: </strong> A) in the +x direction and in phase with the field B) in the -x direction and in phase with the field C) in the +x direction and 1/4 wave out of phase with the field D) in the +z direction and in phase with the field E) in the +z direction and 1/4 wave out of phase with the field <div style=padding-top: 35px> field
D) in the +z direction and in phase with the <strong>The electric field for a plane electromagnetic wave traveling in the +y direction is shown. Consider a point where is in the +z direction. The field is: </strong> A) in the +x direction and in phase with the field B) in the -x direction and in phase with the field C) in the +x direction and 1/4 wave out of phase with the field D) in the +z direction and in phase with the field E) in the +z direction and 1/4 wave out of phase with the field <div style=padding-top: 35px> field
E) in the +z direction and 1/4 wave out of phase with the <strong>The electric field for a plane electromagnetic wave traveling in the +y direction is shown. Consider a point where is in the +z direction. The field is: </strong> A) in the +x direction and in phase with the field B) in the -x direction and in phase with the field C) in the +x direction and 1/4 wave out of phase with the field D) in the +z direction and in phase with the field E) in the +z direction and 1/4 wave out of phase with the field <div style=padding-top: 35px> field
Question
A point source emits electromagnetic energy at a rate of 100 W. The intensity 10 m from the source is:

A) 10 W/m2
B) 1.6 W/m2
C) 1 W/m2
D) 0.024W/m2
E) 0.080 W/m2
Question
The light intensity 10 m from a point source is 1000 W/m2. The intensity 100 m from the same source is:

A) 1000 W/m2
B) 100 W/m2
C) 10 W/m2
D) 1 W/m2
E) 0.1 W/m2
Question
When the distance between a point source of light and a light meter is reduced from 6.0 m to 2.0 m, the intensity of illumination at the meter will be the original value multiplied by:

A) 3
B) 9
C) 1/3
D) 1/9
E) 1
Question
Polarization experiments provide evidence that light is:

A) a longitudinal wave
B) a stream of particles
C) a transverse wave
D) some type of wave
E) nearly monochromatic
Question
A vertical automobile radio antenna is sensitive to electric fields that are polarized:

A) horizontally
B) in circles around the antenna
C) vertically
D) normal to the antenna in the forward direction
E) none of the above
Question
Light from any ordinary source (such as a flame) is usually:

A) unpolarized
B) plane polarized
C) circularly polarized
D) elliptically polarized
E) monochromatic
Question
The index of refraction of a substance is:

A) the speed of light in the substance
B) the angle of refraction
C) the angle of incidence
D) the speed of light in vacuum divided by the speed of light in the substance
E) measured in radians
Question
The units of index of refraction are:

A) m/s
B) s/m
C) radian
D) m/s2
E) none of these
Question
The diagram shows the passage of a ray of light from air into a substance X. The index of refraction of X is:
<strong>The diagram shows the passage of a ray of light from air into a substance X. The index of refraction of X is: </strong> A) 0.53 B) 0.88 C) 1.9 D) 2.2 E) 3.0 <div style=padding-top: 35px>

A) 0.53
B) 0.88
C) 1.9
D) 2.2
E) 3.0
Question
The index of refraction for diamond is 2.5. Which of the following is correct for the situation shown?
<strong>The index of refraction for diamond is 2.5. Which of the following is correct for the situation shown? </strong> A) (sin a)/(sin b) = 2.5 B) (sin b)/(sin d) = 2.5 C) (cos a)/(cos c) = 2.5 D) (sin a)/(sin c) = 1/(2.5) E) a/c = 2.5 <div style=padding-top: 35px>

A) (sin a)/(sin b) = 2.5
B) (sin b)/(sin d) = 2.5
C) (cos a)/(cos c) = 2.5
D) (sin a)/(sin c) = 1/(2.5)
E) a/c = 2.5
Question
When light passes from air to glass, it bends:

A) toward the normal without changing speed
B) toward the normal and slows down
C) toward the normal and speeds up
D) away from the normal and slows down
E) away from the normal and speeds up
Question
The index of refraction of a certain glass is 1.50. The sine of the critical angle for total internal reflection at a glass-air interface is:

A) 0.50
B) 0.67
C) 0.75
D) 1.00
E) 1.50
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Deck 17: Electromagnetic Waves
1
Consider: radio waves (r), visible light (v), infrared (i), x-rays (x), and ultraviolet (u). In order of increasing frequency, they are:

A) r, v, i, x, u
B) r, i, v, u, x
C) i, r, v, u, x
D) i, v, r, u, x
E) r, i, v, x, u
r, i, v, u, x
2
The order of increasing wavelength for blue (b), green (g), red (r), and yellow (y) light is:

A) r, y, g, b
B) r, g, y, b
C) g, y, b, r
D) b, g, y, r
E) b, y, g, r
b, g, y, r
3
Of the following human eyes are most sensitive to:

A) red light
B) violet light
C) blue light
D) green light
E) none of these (they are equally sensitive to all colors)
green light
4
Maxwell's equations predict that the speed of electromagnetic waves in free space is given by:

A) <strong>Maxwell's equations predict that the speed of electromagnetic waves in free space is given by:</strong> A) B) C) D) E)
B) <strong>Maxwell's equations predict that the speed of electromagnetic waves in free space is given by:</strong> A) B) C) D) E)
C) <strong>Maxwell's equations predict that the speed of electromagnetic waves in free space is given by:</strong> A) B) C) D) E)
D) <strong>Maxwell's equations predict that the speed of electromagnetic waves in free space is given by:</strong> A) B) C) D) E)
E) <strong>Maxwell's equations predict that the speed of electromagnetic waves in free space is given by:</strong> A) B) C) D) E)
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k this deck
5
Radio waves differ from visible light waves in that radio waves:

A) travel slower
B) have a higher frequency
C) travel faster
D) have a lower frequency
E) require a material medium
Unlock Deck
Unlock for access to all 20 flashcards in this deck.
Unlock Deck
k this deck
6
Radio waves of wavelength 3 cm have a frequency of:

A) 1 MHz
B) 9 MHz
C) 100 MHz
D) 10,000 MHz
E) 900 MHz
Unlock Deck
Unlock for access to all 20 flashcards in this deck.
Unlock Deck
k this deck
7
An electromagnetic wave is generated by:

A) any moving charge
B) any accelerating charge
C) only a charge with changing acceleration
D) only a charge moving in a circle
E) only a charge moving in a straight line
Unlock Deck
Unlock for access to all 20 flashcards in this deck.
Unlock Deck
k this deck
8
The electric field for a plane electromagnetic wave traveling in the +y direction is shown. Consider a point where <strong>The electric field for a plane electromagnetic wave traveling in the +y direction is shown. Consider a point where is in the +z direction. The field is: </strong> A) in the +x direction and in phase with the field B) in the -x direction and in phase with the field C) in the +x direction and 1/4 wave out of phase with the field D) in the +z direction and in phase with the field E) in the +z direction and 1/4 wave out of phase with the field is in the +z direction. The <strong>The electric field for a plane electromagnetic wave traveling in the +y direction is shown. Consider a point where is in the +z direction. The field is: </strong> A) in the +x direction and in phase with the field B) in the -x direction and in phase with the field C) in the +x direction and 1/4 wave out of phase with the field D) in the +z direction and in phase with the field E) in the +z direction and 1/4 wave out of phase with the field field is:
<strong>The electric field for a plane electromagnetic wave traveling in the +y direction is shown. Consider a point where is in the +z direction. The field is: </strong> A) in the +x direction and in phase with the field B) in the -x direction and in phase with the field C) in the +x direction and 1/4 wave out of phase with the field D) in the +z direction and in phase with the field E) in the +z direction and 1/4 wave out of phase with the field

A) in the +x direction and in phase with the <strong>The electric field for a plane electromagnetic wave traveling in the +y direction is shown. Consider a point where is in the +z direction. The field is: </strong> A) in the +x direction and in phase with the field B) in the -x direction and in phase with the field C) in the +x direction and 1/4 wave out of phase with the field D) in the +z direction and in phase with the field E) in the +z direction and 1/4 wave out of phase with the field field
B) in the -x direction and in phase with the <strong>The electric field for a plane electromagnetic wave traveling in the +y direction is shown. Consider a point where is in the +z direction. The field is: </strong> A) in the +x direction and in phase with the field B) in the -x direction and in phase with the field C) in the +x direction and 1/4 wave out of phase with the field D) in the +z direction and in phase with the field E) in the +z direction and 1/4 wave out of phase with the field field
C) in the +x direction and 1/4 wave out of phase with the <strong>The electric field for a plane electromagnetic wave traveling in the +y direction is shown. Consider a point where is in the +z direction. The field is: </strong> A) in the +x direction and in phase with the field B) in the -x direction and in phase with the field C) in the +x direction and 1/4 wave out of phase with the field D) in the +z direction and in phase with the field E) in the +z direction and 1/4 wave out of phase with the field field
D) in the +z direction and in phase with the <strong>The electric field for a plane electromagnetic wave traveling in the +y direction is shown. Consider a point where is in the +z direction. The field is: </strong> A) in the +x direction and in phase with the field B) in the -x direction and in phase with the field C) in the +x direction and 1/4 wave out of phase with the field D) in the +z direction and in phase with the field E) in the +z direction and 1/4 wave out of phase with the field field
E) in the +z direction and 1/4 wave out of phase with the <strong>The electric field for a plane electromagnetic wave traveling in the +y direction is shown. Consider a point where is in the +z direction. The field is: </strong> A) in the +x direction and in phase with the field B) in the -x direction and in phase with the field C) in the +x direction and 1/4 wave out of phase with the field D) in the +z direction and in phase with the field E) in the +z direction and 1/4 wave out of phase with the field field
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Unlock for access to all 20 flashcards in this deck.
Unlock Deck
k this deck
9
A point source emits electromagnetic energy at a rate of 100 W. The intensity 10 m from the source is:

A) 10 W/m2
B) 1.6 W/m2
C) 1 W/m2
D) 0.024W/m2
E) 0.080 W/m2
Unlock Deck
Unlock for access to all 20 flashcards in this deck.
Unlock Deck
k this deck
10
The light intensity 10 m from a point source is 1000 W/m2. The intensity 100 m from the same source is:

A) 1000 W/m2
B) 100 W/m2
C) 10 W/m2
D) 1 W/m2
E) 0.1 W/m2
Unlock Deck
Unlock for access to all 20 flashcards in this deck.
Unlock Deck
k this deck
11
When the distance between a point source of light and a light meter is reduced from 6.0 m to 2.0 m, the intensity of illumination at the meter will be the original value multiplied by:

A) 3
B) 9
C) 1/3
D) 1/9
E) 1
Unlock Deck
Unlock for access to all 20 flashcards in this deck.
Unlock Deck
k this deck
12
Polarization experiments provide evidence that light is:

A) a longitudinal wave
B) a stream of particles
C) a transverse wave
D) some type of wave
E) nearly monochromatic
Unlock Deck
Unlock for access to all 20 flashcards in this deck.
Unlock Deck
k this deck
13
A vertical automobile radio antenna is sensitive to electric fields that are polarized:

A) horizontally
B) in circles around the antenna
C) vertically
D) normal to the antenna in the forward direction
E) none of the above
Unlock Deck
Unlock for access to all 20 flashcards in this deck.
Unlock Deck
k this deck
14
Light from any ordinary source (such as a flame) is usually:

A) unpolarized
B) plane polarized
C) circularly polarized
D) elliptically polarized
E) monochromatic
Unlock Deck
Unlock for access to all 20 flashcards in this deck.
Unlock Deck
k this deck
15
The index of refraction of a substance is:

A) the speed of light in the substance
B) the angle of refraction
C) the angle of incidence
D) the speed of light in vacuum divided by the speed of light in the substance
E) measured in radians
Unlock Deck
Unlock for access to all 20 flashcards in this deck.
Unlock Deck
k this deck
16
The units of index of refraction are:

A) m/s
B) s/m
C) radian
D) m/s2
E) none of these
Unlock Deck
Unlock for access to all 20 flashcards in this deck.
Unlock Deck
k this deck
17
The diagram shows the passage of a ray of light from air into a substance X. The index of refraction of X is:
<strong>The diagram shows the passage of a ray of light from air into a substance X. The index of refraction of X is: </strong> A) 0.53 B) 0.88 C) 1.9 D) 2.2 E) 3.0

A) 0.53
B) 0.88
C) 1.9
D) 2.2
E) 3.0
Unlock Deck
Unlock for access to all 20 flashcards in this deck.
Unlock Deck
k this deck
18
The index of refraction for diamond is 2.5. Which of the following is correct for the situation shown?
<strong>The index of refraction for diamond is 2.5. Which of the following is correct for the situation shown? </strong> A) (sin a)/(sin b) = 2.5 B) (sin b)/(sin d) = 2.5 C) (cos a)/(cos c) = 2.5 D) (sin a)/(sin c) = 1/(2.5) E) a/c = 2.5

A) (sin a)/(sin b) = 2.5
B) (sin b)/(sin d) = 2.5
C) (cos a)/(cos c) = 2.5
D) (sin a)/(sin c) = 1/(2.5)
E) a/c = 2.5
Unlock Deck
Unlock for access to all 20 flashcards in this deck.
Unlock Deck
k this deck
19
When light passes from air to glass, it bends:

A) toward the normal without changing speed
B) toward the normal and slows down
C) toward the normal and speeds up
D) away from the normal and slows down
E) away from the normal and speeds up
Unlock Deck
Unlock for access to all 20 flashcards in this deck.
Unlock Deck
k this deck
20
The index of refraction of a certain glass is 1.50. The sine of the critical angle for total internal reflection at a glass-air interface is:

A) 0.50
B) 0.67
C) 0.75
D) 1.00
E) 1.50
Unlock Deck
Unlock for access to all 20 flashcards in this deck.
Unlock Deck
k this deck
locked card icon
Unlock Deck
Unlock for access to all 20 flashcards in this deck.
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