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Deck 24: Electromagnetic Waves

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Question
If the radiant energy from the sun comes in as a plane EM wave of intensity 1 340 W/m2,calculate the peak values of E and B.

A)300 V/m,10 - 4 T
B)1 000 V/m,3.35*10 - 6 T
C)225 V/m,1.60*10 - 3 T
D)111 V/m,3.00* 10 - 5 T
E)711 V/m,2.37 *10 - 6 T
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Question
The speed of light is given by the value of

A) ε\varepsilon 0 μ\mu 0.
B) ε0μ0\sqrt { \varepsilon _ { 0 } \mu _ { 0 } } .
C) 1ε0μ0\frac { 1 } { \sqrt { \varepsilon _ { 0 } \mu _ { 0 } } } .
D) 1ε0μ0\frac { 1 } { \varepsilon _ { 0 } \mu _ { 0 } } .
E) ε0μ0\sqrt { \frac { \varepsilon _ { 0 } } { \mu _ { 0 } } } .
Question
If the maximum E-component of an electromagnetic wave is 600 V/m,what is the maximum B-component?

A)1.4 T
B)1.8 *10 - 5 T
C)2.0 / 10 * 6 T
D)1.0 *10 - 3 T
E)1.6 *10 - 10 T
Question
Magnetic fields are produced by

A)constant electric currents.
B)electric currents that vary sinusoidally with time.
C)time-varying electric fields.
D)all of the above.
E)only (a)and (b)above.
Question
At every instant the ratio of the magnitude of the electric to the magnetic field in an electromagnetic wave in vacuum is equal to

A)the speed of radio waves.
B)the speed of light.
C)the speed of gamma rays.
D)all of the above.
E)only (a)and (b)above.
Question
A plane parallel plate capacitor has plates of 10 cm2 area that are 1.0 mm apart.At an instant when charge is being accumulated on the plates at a rate of 12 nC/s,the displacement current between the plates is

A)1.06* 10 - 16 A.
B)1.2 *10 - 8 A.
C)8.85 * 10 - 9 A.
D)1.00 A.
E)1.36 A.
Question
A 100-kW radio station emits EM waves in all directions from an antenna on top of a mountain.What is the intensity of the signal at a distance of 10 km?

A)8*10 - 5 W/m2
B)8 *10 - 6 W/m2
C)3 *10 - 3 W/m2
D)0.8 W/m2
E)2.5 *10 1- 5 W/m2
Question
The magnetic field of a plane-polarized electromagnetic wave moving in the z-direction is given by
B=1.2×106sin[2π(z240t×1078)]B = 1.2 \times 10 ^ { - 6 } \sin \left[ 2 \pi \left( \frac { z } { 240 } - \frac { t \times 10 ^ { 7 } } { 8 } \right) \right]
in SI units.What is the frequency of the wave?

A)500 MHz
B)250 kHz
C)1.25 MHz
D)10 mHz
E)300 MHz
Question
The Earth is 1.49* 1011 meters from the sun.If the solar radiation at the top of the Earth's atmosphere is 1 340 W/m2,what is the total power output of the sun?

A)7.10 * 1027 W
B)2.20 * 1030 W
C)6.62 * 1026 W
D)3.74 * 1026 W
E)2.98 * 1025 W
Question
At a distance of 10 km from a radio transmitter,the amplitude of the E-field is 0.20 volts/meter.What is the total power emitted by the radio transmitter?

A)10 kW
B)67 kW
C)140 kW
D)245 kW
E)21 kW
Question
An open circuit consists of a 12 μ\mu F parallel plate capacitor charged to 200 V and a 10 Ω\Omega resistor.At the instant when a switch closes the circuit (with no battery in it)the displacement current between the plates of the capacitor is

A)1.2 μ\mu A.
B)2.4 *10 - 4 A.
C)2.4 mA.
D)10 A.
E)20 A.
Question
The magnetic field of a plane-polarized electromagnetic wave moving in the z-direction is given by
B=1.2×106sin[2π(z240t×1078)]B = 1.2 \times 10 ^ { - 6 } \sin \left[ 2 \pi \left( \frac { z } { 240 } - \frac { t \times 10 ^ { 7 } } { 8 } \right) \right]
in SI units.What is the speed of the EM wave?

A)3* 108 m/s
B)100 m/s
C)106 m/s
D)2 * 107 m/s
E)2 * 108 m/s
Question
Since ε\varepsilon 0 = 8.85 *10 - 12 C2 / N . m2,the units of ε\varepsilon 0E2 can be reduced to

A) Jsm3\frac { \mathrm { J } } { \mathrm { s } \cdot \mathrm { m } ^ { 3 } }
B) Nsm3\frac { \mathrm { N } } { \mathrm { s } \cdot \mathrm { m } ^ { 3 } } .
C) Jm3\frac { \mathrm { J } } { \mathrm { m } ^ { 3 } }
D) Nm3\frac { \mathrm { N } } { \mathrm { m } ^ { 3 } }
E) wm3\frac { w } { m ^ { 3 } }
Question
The correct form of Ampere's law for circuits with gaps in them is

A) Bds=0\oint \mathrm { B } \cdot d \mathbf { s } = 0 .
B) Bds=Ienciosed \oint \mathbf { B } \cdot d \mathbf { s } = I _ { \text {enciosed } } .
C) Bds=μ0Ienclosed \oint \mathbf { B } \cdot d \mathbf { s } = \mu _ { 0 } I _ { \text {enclosed } } .
D) Bds=μ0Ienclosed +μ0ε0dΦEdt\oint \mathbf { B } \cdot d \mathbf { s } = \mu _ { 0 } I _ { \text {enclosed } } + \mu _ { 0 } \varepsilon _ { 0 } \frac { d \Phi _ { E } } { d t } .
E) Bds=μ0Ienclosed +μ0ε0dΦIdtε0(μ0)2dΦBdt\oint \mathbf { B } \cdot d \mathbf { s } = \mu _ { 0 } I _ { \text {enclosed } } + \mu _ { 0 } \varepsilon _ { 0 } \frac { d \Phi _ { I } } { d t } - \frac { \varepsilon _ { 0 } } { \left( \mu _ { 0 } \right) ^ { 2 } } \frac { d \Phi _ { B } } { d t } .
Question
The magnetic field of a plane-polarized electromagnetic wave moving in the z-direction is given by
B=1.2×106sin[2π(z240t×1078)]B = 1.2 \times 10 ^ { - 6 } \sin \left[ 2 \pi \left( \frac { z } { 240 } - \frac { t \times 10 ^ { 7 } } { 8 } \right) \right]
in SI units.What is the maximum E-field?

A)1000 V/m
B)180 V/m
C)81 V/m
D)360 V/m
E)0.40 V/m
Question
The magnetic field amplitude in an electromagnetic wave in vacuum is related to the electric field amplitude by B =

A) Ec\frac { E } { c }
B) Ec\frac { E } { \sqrt { c } }
C)E
D) EcE \sqrt { c }
E)cE
Question
What is the average value of the magnitude of the Poynting vector S\vec { S } at 1 meter from a 100-watt lightbulb radiating in all directions?

A)1 W/m2
B)4 W/m2
C)2 W/m2
D)8 W/m2
E)12 W/m2
Question
In an electromagnetic wave,1)how are the electric and magnetic field directions related and 2)how is the direction of travel determined from their directions? ( c\overrightarrow { \mathbf { c } } is the velocity of the light wave. )

A) EB;cc=E×BE×B\overrightarrow { \mathbf { E } } \| \overrightarrow { \mathbf { B } } ; \frac { \overrightarrow { \mathbf { c } } } { c } = \frac { \overrightarrow { \mathbf { E } } \times \overrightarrow { \mathbf { B } } } { | \overrightarrow { \mathbf { E } } \times \overrightarrow { \mathbf { B } } | } .
B) EB;cc=B×EB×E\overrightarrow { \mathbf { E } } \| \overrightarrow { \mathbf { B } } ; \frac { \overrightarrow { \mathbf { c } } } { c } = \frac { \overrightarrow { \mathbf { B } } \times \overrightarrow { \mathbf { E } } } { | \overrightarrow { \mathbf { B } } \times \overrightarrow { \mathbf { E } } | } .
C) EB;cc=E×BE×B\overrightarrow { \mathbf { E } } \perp \overrightarrow { \mathbf { B } } ; \frac { \overrightarrow { \mathbf { c } } } { c } = \frac { \overrightarrow { \mathbf { E } } \times \overrightarrow { \mathbf { B } } } { | \overrightarrow { \mathbf { E } } \times \overrightarrow { \mathbf { B } } | } .
D) EB;cc=B×EB×E\overrightarrow { \mathbf { E } } \perp \overrightarrow { \mathbf { B } } ; \frac { \overrightarrow { \mathbf { c } } } { c } = \frac { \overrightarrow { \mathbf { B } } \times \overrightarrow { \mathbf { E } } } { | \overrightarrow { \mathbf { B } } \times \overrightarrow { \mathbf { E } } | } .
E) E=B/c;cc=B×EB×E\overrightarrow { \mathbf { E } } = \overrightarrow { \mathbf { B } } / c ; \frac { \overrightarrow { \mathbf { c } } } { c } = \frac { \overrightarrow { \mathbf { B } } \overrightarrow { \times } \mathbf { E } } { | \overrightarrow { \mathbf { B } } \times \overrightarrow { \mathbf { E } } | } .
Question
How much electromagnetic energy is contained in each cubic meter near the Earth's surface if the intensity of sunlight under clear skies is 1 000 W/m2?

A)3.3 *10 - 6 J
B)3.3 J
C)0.003 J
D)10 - 4 J
E)3.0 * 105 J
Question
The magnetic field of a plane-polarized electromagnetic wave moving in the z-direction is given by
B=1.2×106sin[2π(z240t×1078)]B = 1.2 \times 10 ^ { - 6 } \sin \left[ 2 \pi \left( \frac { z } { 240 } - \frac { t \times 10 ^ { 7 } } { 8 } \right) \right]
in SI units.What is the wavelength of the EM wave?

A)120 m
B)240 m
C)60 m
D)100 m
E)360 m
Question
Find the frequency of X-rays of wavelength 1 Å = 10-10 m.

A)3 * 1018 Hz
B)3 * 1010 MHz
C)6 * 109 Hz
D)3 * 108 Hz
E)3 *1020 Hz
Question
A spherical particle of density ρ=5.00gcm2\rho = 5.00 \frac { \mathrm { g } } { \mathrm { cm } ^ { 2 } } and 2.00 mm radius is located at the same distance from the Sun as the Earth. RSE = 1.5* 1011 m, G=6.67×1011Nm2 kg2,S=1365Wm2,MS=1.99×1030 kgG = 6.67 \times 10 ^ { - 11 } \frac { \mathrm { Nm } ^ { 2 } } { \mathrm {~kg} ^ { 2 } } , S = 1365 \frac { \mathrm { W } } { \mathrm { m } ^ { 2 } } , M _ { S } = 1.99 \times 10 ^ { 30 } \mathrm {~kg} .
If the particle absorbs 100 percent of the sunlight reaching it,the ratio of the force exerted by the solar radiation to the force of gravity exerted on the particle by the Sun is

A)5.8 *10 - 5.
B)0.58.
C)1.0.
D)1.7.
E)1.7*104.
Question
Polarized light is to have its polarization plane rotated by 90 °\degree .In which of the following cases does the final beam have the greatest intensity?

A)3 polarizing filters,each rotate beam by 30 °\degree .
B)2 polarizing filters,both rotate beam by 45 °\degree .
C)1 polarizing filter,rotating beam by 90 °\degree .
D)None of the above,polarized light can't be rotated.
Question
What is the maximum radiation pressure exerted by sunlight in space (S = 1 350 W/m2)on a highly polished silver surface?

A)1.4 *10 - 2 Pa
B)0.12 Pa
C)9.0 *10 - 6 Pa
D)4.5 *10 - 5 Pa
E)2.3 * 10 - 6 Pa
Question
Near the surface of the planet,the Earth's magnetic field is about 0.50 *10 1- 4 T.How much energy is stored in 1.0 m3 of the atmosphere because of this field?
Question
The intensity of radiation reaching the earth from the sun is 1 350 W/m2.The earth's radius is 6.4 * 106 m.How big a force does this radiation exert on the earth? (Assume it is all absorbed. )

A)5.8 * 108 N
B)1.2 * 109 N
C)2.3 * 109 N
D)4.6 *109 N
E)1.7 *1017 N
Question
When E and B are the amplitudes of the electric and magnetic fields in an electromagnetic wave in vacuum,the total average energy density in the wave is

A) 14ε0E2\frac { 1 } { 4 } \varepsilon _ { 0 } E ^ { 2 } .
B) 12ε0E2\frac { 1 } { 2 } \varepsilon _ { 0 } E ^ { 2 } .
C) ε\varepsilon 0E2.
D) B2μ0\frac { B ^ { 2 } } { \mu _ { 0 } } .
E) EBμ0\frac { E B } { \mu _ { 0 } } .
Question
An FM radio station broadcasts at 98.6 MHz.What is the wavelength of the radiowaves?

A)60.8 m
B)6.08 m
C)3.04 m
D)0.314 m
E)0.33 cm
Question
Scattered light in the atmosphere is often partially polarized.The best way to determine whether or not light from a particular direction in the sky shows polarization is to

A)diffract the light through a single slit.
B)squint while looking in that direction.
C)rotate a piece of polaroid film about an axis parallel to the ray while looking through it in that sky direction.
D)rotate a piece of polaroid film about an axis perpendicular to the ray while looking through it in that sky direction.
E)reflect the rays from that direction on a shiny metal surface.
Question
Two identical silver spheres of mass m and radius r are placed a distance R (sphere 1)and 2R (sphere 2)from the sun respectively.The ratio of the pressure of solar radiation on sphere 2 to that on sphere 1 is

A)0.25.
B)0.50.
C)1.0.
D)2.0.
E)4.0.
Question
The magnetic field of a plane-polarized electromagnetic wave moving in the z-direction is given by
B=1.2×106sin[2π(z240t×1078)]B = 1.2 \times 10 ^ { - 6 } \sin \left[ 2 \pi \left( \frac { z } { 240 } - \frac { t \times 10 ^ { 7 } } { 8 } \right) \right]
in SI units.Find the average power per square meter carried by the EM wave.

A)720 W
B)172 W
C)500 W
D)2 * 107 W
E)86 W
Question
Green light has a wavelength of 5.4 *10-7 m.What is the frequency of this EM-wave in air?

A)5.55 * 1014 Hz
B)6.00 *1011 Hz
C)9.00* 108 Hz
D)3.00 * 1010 MHz
E)1.80* 1015 Hz
Question
Two identical silver spheres of mass m and radius r are placed a distance R (sphere 1)and 2R (sphere 2)from the sun respectively.The ratio of the gravitational force exerted by the sun on sphere 1 to the pressure of solar radiation on sphere 1 is T1;the ratio for sphere 2 is T2.The ratio of T2 to T1 is

A)0.25.
B)0.50.
C)1.0.
D)2.0.
E)4.0.
Question
The sun radiates energy at a rate of 3.86 *1026 W.Its radius is 7.0 * 108 m.If the distance from the Earth to the sun is 1.5 * 1011 m,what is the intensity of solar radiation at the top of the Earth's atmosphere?
Question
In the atmosphere,the shortest wavelength electromagnetic waves are called

A)microwaves.
B)infrared waves.
C)ultraviolet waves.
D)X-rays.
E)gamma rays.
Question
A solar cell has a light-gathering area of 10 cm2 and produces 0.2 A at 0.8 V (DC)when illuminated with S = 1 000 W/m2 sunlight.What is the efficiency of the solar cell?

A)16%
B)7%
C)23%
D)4%
E)32%
Question
You can raise the temperature of an object with

A)microwaves.
B)infrared waves.
C)ultraviolet rays.
D)all of the above.
E)only (a)and (b)above.
Question
What is the maximum radiation pressure exerted by sunlight in space (S = 1 350 W/m2)on a flat black surface?

A)2.25 *10 1- 5 Pa
B)0.06 Pa
C)7 *10 - 4 Pa
D)4.5 *10 - 6 Pa
E)9.0 *10 - 6 Pa
Question
What should be the height of a dipole antenna (of dimensions 1/4 wavelength)if it is to transmit 1 200 kHz radiowaves?

A)11.4 m
B)60 cm
C)1.12 m
D)62.5 m
E)250 m
Question
Find the force exerted by reflecting sunlight off a reflecting aluminum sheet in space if the area normal to the sunlight is 10 000 m2 and the solar intensity is 1 350 W/m2.

A)0.72 N
B)0.09 N
C)9 N
D)45 N
E)0.18 N
Question
A possible means of spaceflight is to place a perfectly reflecting aluminized sheet into Earth orbit and use the light from the sun to push this solar sail.If a huge sail of area 6.00 *105 m2 and mass 6 000 kg were placed into orbit and turned toward the sun,what would be the force exerted on the sail? (Assume a solar intensity of 1 380 W/m2. )
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Deck 24: Electromagnetic Waves
1
If the radiant energy from the sun comes in as a plane EM wave of intensity 1 340 W/m2,calculate the peak values of E and B.

A)300 V/m,10 - 4 T
B)1 000 V/m,3.35*10 - 6 T
C)225 V/m,1.60*10 - 3 T
D)111 V/m,3.00* 10 - 5 T
E)711 V/m,2.37 *10 - 6 T
1 000 V/m,3.35*10 - 6 T
2
The speed of light is given by the value of

A) ε\varepsilon 0 μ\mu 0.
B) ε0μ0\sqrt { \varepsilon _ { 0 } \mu _ { 0 } } .
C) 1ε0μ0\frac { 1 } { \sqrt { \varepsilon _ { 0 } \mu _ { 0 } } } .
D) 1ε0μ0\frac { 1 } { \varepsilon _ { 0 } \mu _ { 0 } } .
E) ε0μ0\sqrt { \frac { \varepsilon _ { 0 } } { \mu _ { 0 } } } .
1ε0μ0\frac { 1 } { \sqrt { \varepsilon _ { 0 } \mu _ { 0 } } } .
3
If the maximum E-component of an electromagnetic wave is 600 V/m,what is the maximum B-component?

A)1.4 T
B)1.8 *10 - 5 T
C)2.0 / 10 * 6 T
D)1.0 *10 - 3 T
E)1.6 *10 - 10 T
2.0 / 10 * 6 T
4
Magnetic fields are produced by

A)constant electric currents.
B)electric currents that vary sinusoidally with time.
C)time-varying electric fields.
D)all of the above.
E)only (a)and (b)above.
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5
At every instant the ratio of the magnitude of the electric to the magnetic field in an electromagnetic wave in vacuum is equal to

A)the speed of radio waves.
B)the speed of light.
C)the speed of gamma rays.
D)all of the above.
E)only (a)and (b)above.
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6
A plane parallel plate capacitor has plates of 10 cm2 area that are 1.0 mm apart.At an instant when charge is being accumulated on the plates at a rate of 12 nC/s,the displacement current between the plates is

A)1.06* 10 - 16 A.
B)1.2 *10 - 8 A.
C)8.85 * 10 - 9 A.
D)1.00 A.
E)1.36 A.
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7
A 100-kW radio station emits EM waves in all directions from an antenna on top of a mountain.What is the intensity of the signal at a distance of 10 km?

A)8*10 - 5 W/m2
B)8 *10 - 6 W/m2
C)3 *10 - 3 W/m2
D)0.8 W/m2
E)2.5 *10 1- 5 W/m2
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8
The magnetic field of a plane-polarized electromagnetic wave moving in the z-direction is given by
B=1.2×106sin[2π(z240t×1078)]B = 1.2 \times 10 ^ { - 6 } \sin \left[ 2 \pi \left( \frac { z } { 240 } - \frac { t \times 10 ^ { 7 } } { 8 } \right) \right]
in SI units.What is the frequency of the wave?

A)500 MHz
B)250 kHz
C)1.25 MHz
D)10 mHz
E)300 MHz
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9
The Earth is 1.49* 1011 meters from the sun.If the solar radiation at the top of the Earth's atmosphere is 1 340 W/m2,what is the total power output of the sun?

A)7.10 * 1027 W
B)2.20 * 1030 W
C)6.62 * 1026 W
D)3.74 * 1026 W
E)2.98 * 1025 W
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10
At a distance of 10 km from a radio transmitter,the amplitude of the E-field is 0.20 volts/meter.What is the total power emitted by the radio transmitter?

A)10 kW
B)67 kW
C)140 kW
D)245 kW
E)21 kW
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11
An open circuit consists of a 12 μ\mu F parallel plate capacitor charged to 200 V and a 10 Ω\Omega resistor.At the instant when a switch closes the circuit (with no battery in it)the displacement current between the plates of the capacitor is

A)1.2 μ\mu A.
B)2.4 *10 - 4 A.
C)2.4 mA.
D)10 A.
E)20 A.
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12
The magnetic field of a plane-polarized electromagnetic wave moving in the z-direction is given by
B=1.2×106sin[2π(z240t×1078)]B = 1.2 \times 10 ^ { - 6 } \sin \left[ 2 \pi \left( \frac { z } { 240 } - \frac { t \times 10 ^ { 7 } } { 8 } \right) \right]
in SI units.What is the speed of the EM wave?

A)3* 108 m/s
B)100 m/s
C)106 m/s
D)2 * 107 m/s
E)2 * 108 m/s
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13
Since ε\varepsilon 0 = 8.85 *10 - 12 C2 / N . m2,the units of ε\varepsilon 0E2 can be reduced to

A) Jsm3\frac { \mathrm { J } } { \mathrm { s } \cdot \mathrm { m } ^ { 3 } }
B) Nsm3\frac { \mathrm { N } } { \mathrm { s } \cdot \mathrm { m } ^ { 3 } } .
C) Jm3\frac { \mathrm { J } } { \mathrm { m } ^ { 3 } }
D) Nm3\frac { \mathrm { N } } { \mathrm { m } ^ { 3 } }
E) wm3\frac { w } { m ^ { 3 } }
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14
The correct form of Ampere's law for circuits with gaps in them is

A) Bds=0\oint \mathrm { B } \cdot d \mathbf { s } = 0 .
B) Bds=Ienciosed \oint \mathbf { B } \cdot d \mathbf { s } = I _ { \text {enciosed } } .
C) Bds=μ0Ienclosed \oint \mathbf { B } \cdot d \mathbf { s } = \mu _ { 0 } I _ { \text {enclosed } } .
D) Bds=μ0Ienclosed +μ0ε0dΦEdt\oint \mathbf { B } \cdot d \mathbf { s } = \mu _ { 0 } I _ { \text {enclosed } } + \mu _ { 0 } \varepsilon _ { 0 } \frac { d \Phi _ { E } } { d t } .
E) Bds=μ0Ienclosed +μ0ε0dΦIdtε0(μ0)2dΦBdt\oint \mathbf { B } \cdot d \mathbf { s } = \mu _ { 0 } I _ { \text {enclosed } } + \mu _ { 0 } \varepsilon _ { 0 } \frac { d \Phi _ { I } } { d t } - \frac { \varepsilon _ { 0 } } { \left( \mu _ { 0 } \right) ^ { 2 } } \frac { d \Phi _ { B } } { d t } .
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15
The magnetic field of a plane-polarized electromagnetic wave moving in the z-direction is given by
B=1.2×106sin[2π(z240t×1078)]B = 1.2 \times 10 ^ { - 6 } \sin \left[ 2 \pi \left( \frac { z } { 240 } - \frac { t \times 10 ^ { 7 } } { 8 } \right) \right]
in SI units.What is the maximum E-field?

A)1000 V/m
B)180 V/m
C)81 V/m
D)360 V/m
E)0.40 V/m
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16
The magnetic field amplitude in an electromagnetic wave in vacuum is related to the electric field amplitude by B =

A) Ec\frac { E } { c }
B) Ec\frac { E } { \sqrt { c } }
C)E
D) EcE \sqrt { c }
E)cE
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17
What is the average value of the magnitude of the Poynting vector S\vec { S } at 1 meter from a 100-watt lightbulb radiating in all directions?

A)1 W/m2
B)4 W/m2
C)2 W/m2
D)8 W/m2
E)12 W/m2
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18
In an electromagnetic wave,1)how are the electric and magnetic field directions related and 2)how is the direction of travel determined from their directions? ( c\overrightarrow { \mathbf { c } } is the velocity of the light wave. )

A) EB;cc=E×BE×B\overrightarrow { \mathbf { E } } \| \overrightarrow { \mathbf { B } } ; \frac { \overrightarrow { \mathbf { c } } } { c } = \frac { \overrightarrow { \mathbf { E } } \times \overrightarrow { \mathbf { B } } } { | \overrightarrow { \mathbf { E } } \times \overrightarrow { \mathbf { B } } | } .
B) EB;cc=B×EB×E\overrightarrow { \mathbf { E } } \| \overrightarrow { \mathbf { B } } ; \frac { \overrightarrow { \mathbf { c } } } { c } = \frac { \overrightarrow { \mathbf { B } } \times \overrightarrow { \mathbf { E } } } { | \overrightarrow { \mathbf { B } } \times \overrightarrow { \mathbf { E } } | } .
C) EB;cc=E×BE×B\overrightarrow { \mathbf { E } } \perp \overrightarrow { \mathbf { B } } ; \frac { \overrightarrow { \mathbf { c } } } { c } = \frac { \overrightarrow { \mathbf { E } } \times \overrightarrow { \mathbf { B } } } { | \overrightarrow { \mathbf { E } } \times \overrightarrow { \mathbf { B } } | } .
D) EB;cc=B×EB×E\overrightarrow { \mathbf { E } } \perp \overrightarrow { \mathbf { B } } ; \frac { \overrightarrow { \mathbf { c } } } { c } = \frac { \overrightarrow { \mathbf { B } } \times \overrightarrow { \mathbf { E } } } { | \overrightarrow { \mathbf { B } } \times \overrightarrow { \mathbf { E } } | } .
E) E=B/c;cc=B×EB×E\overrightarrow { \mathbf { E } } = \overrightarrow { \mathbf { B } } / c ; \frac { \overrightarrow { \mathbf { c } } } { c } = \frac { \overrightarrow { \mathbf { B } } \overrightarrow { \times } \mathbf { E } } { | \overrightarrow { \mathbf { B } } \times \overrightarrow { \mathbf { E } } | } .
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19
How much electromagnetic energy is contained in each cubic meter near the Earth's surface if the intensity of sunlight under clear skies is 1 000 W/m2?

A)3.3 *10 - 6 J
B)3.3 J
C)0.003 J
D)10 - 4 J
E)3.0 * 105 J
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20
The magnetic field of a plane-polarized electromagnetic wave moving in the z-direction is given by
B=1.2×106sin[2π(z240t×1078)]B = 1.2 \times 10 ^ { - 6 } \sin \left[ 2 \pi \left( \frac { z } { 240 } - \frac { t \times 10 ^ { 7 } } { 8 } \right) \right]
in SI units.What is the wavelength of the EM wave?

A)120 m
B)240 m
C)60 m
D)100 m
E)360 m
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21
Find the frequency of X-rays of wavelength 1 Å = 10-10 m.

A)3 * 1018 Hz
B)3 * 1010 MHz
C)6 * 109 Hz
D)3 * 108 Hz
E)3 *1020 Hz
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22
A spherical particle of density ρ=5.00gcm2\rho = 5.00 \frac { \mathrm { g } } { \mathrm { cm } ^ { 2 } } and 2.00 mm radius is located at the same distance from the Sun as the Earth. RSE = 1.5* 1011 m, G=6.67×1011Nm2 kg2,S=1365Wm2,MS=1.99×1030 kgG = 6.67 \times 10 ^ { - 11 } \frac { \mathrm { Nm } ^ { 2 } } { \mathrm {~kg} ^ { 2 } } , S = 1365 \frac { \mathrm { W } } { \mathrm { m } ^ { 2 } } , M _ { S } = 1.99 \times 10 ^ { 30 } \mathrm {~kg} .
If the particle absorbs 100 percent of the sunlight reaching it,the ratio of the force exerted by the solar radiation to the force of gravity exerted on the particle by the Sun is

A)5.8 *10 - 5.
B)0.58.
C)1.0.
D)1.7.
E)1.7*104.
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23
Polarized light is to have its polarization plane rotated by 90 °\degree .In which of the following cases does the final beam have the greatest intensity?

A)3 polarizing filters,each rotate beam by 30 °\degree .
B)2 polarizing filters,both rotate beam by 45 °\degree .
C)1 polarizing filter,rotating beam by 90 °\degree .
D)None of the above,polarized light can't be rotated.
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24
What is the maximum radiation pressure exerted by sunlight in space (S = 1 350 W/m2)on a highly polished silver surface?

A)1.4 *10 - 2 Pa
B)0.12 Pa
C)9.0 *10 - 6 Pa
D)4.5 *10 - 5 Pa
E)2.3 * 10 - 6 Pa
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25
Near the surface of the planet,the Earth's magnetic field is about 0.50 *10 1- 4 T.How much energy is stored in 1.0 m3 of the atmosphere because of this field?
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26
The intensity of radiation reaching the earth from the sun is 1 350 W/m2.The earth's radius is 6.4 * 106 m.How big a force does this radiation exert on the earth? (Assume it is all absorbed. )

A)5.8 * 108 N
B)1.2 * 109 N
C)2.3 * 109 N
D)4.6 *109 N
E)1.7 *1017 N
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27
When E and B are the amplitudes of the electric and magnetic fields in an electromagnetic wave in vacuum,the total average energy density in the wave is

A) 14ε0E2\frac { 1 } { 4 } \varepsilon _ { 0 } E ^ { 2 } .
B) 12ε0E2\frac { 1 } { 2 } \varepsilon _ { 0 } E ^ { 2 } .
C) ε\varepsilon 0E2.
D) B2μ0\frac { B ^ { 2 } } { \mu _ { 0 } } .
E) EBμ0\frac { E B } { \mu _ { 0 } } .
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28
An FM radio station broadcasts at 98.6 MHz.What is the wavelength of the radiowaves?

A)60.8 m
B)6.08 m
C)3.04 m
D)0.314 m
E)0.33 cm
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29
Scattered light in the atmosphere is often partially polarized.The best way to determine whether or not light from a particular direction in the sky shows polarization is to

A)diffract the light through a single slit.
B)squint while looking in that direction.
C)rotate a piece of polaroid film about an axis parallel to the ray while looking through it in that sky direction.
D)rotate a piece of polaroid film about an axis perpendicular to the ray while looking through it in that sky direction.
E)reflect the rays from that direction on a shiny metal surface.
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30
Two identical silver spheres of mass m and radius r are placed a distance R (sphere 1)and 2R (sphere 2)from the sun respectively.The ratio of the pressure of solar radiation on sphere 2 to that on sphere 1 is

A)0.25.
B)0.50.
C)1.0.
D)2.0.
E)4.0.
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31
The magnetic field of a plane-polarized electromagnetic wave moving in the z-direction is given by
B=1.2×106sin[2π(z240t×1078)]B = 1.2 \times 10 ^ { - 6 } \sin \left[ 2 \pi \left( \frac { z } { 240 } - \frac { t \times 10 ^ { 7 } } { 8 } \right) \right]
in SI units.Find the average power per square meter carried by the EM wave.

A)720 W
B)172 W
C)500 W
D)2 * 107 W
E)86 W
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32
Green light has a wavelength of 5.4 *10-7 m.What is the frequency of this EM-wave in air?

A)5.55 * 1014 Hz
B)6.00 *1011 Hz
C)9.00* 108 Hz
D)3.00 * 1010 MHz
E)1.80* 1015 Hz
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33
Two identical silver spheres of mass m and radius r are placed a distance R (sphere 1)and 2R (sphere 2)from the sun respectively.The ratio of the gravitational force exerted by the sun on sphere 1 to the pressure of solar radiation on sphere 1 is T1;the ratio for sphere 2 is T2.The ratio of T2 to T1 is

A)0.25.
B)0.50.
C)1.0.
D)2.0.
E)4.0.
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34
The sun radiates energy at a rate of 3.86 *1026 W.Its radius is 7.0 * 108 m.If the distance from the Earth to the sun is 1.5 * 1011 m,what is the intensity of solar radiation at the top of the Earth's atmosphere?
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35
In the atmosphere,the shortest wavelength electromagnetic waves are called

A)microwaves.
B)infrared waves.
C)ultraviolet waves.
D)X-rays.
E)gamma rays.
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36
A solar cell has a light-gathering area of 10 cm2 and produces 0.2 A at 0.8 V (DC)when illuminated with S = 1 000 W/m2 sunlight.What is the efficiency of the solar cell?

A)16%
B)7%
C)23%
D)4%
E)32%
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37
You can raise the temperature of an object with

A)microwaves.
B)infrared waves.
C)ultraviolet rays.
D)all of the above.
E)only (a)and (b)above.
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38
What is the maximum radiation pressure exerted by sunlight in space (S = 1 350 W/m2)on a flat black surface?

A)2.25 *10 1- 5 Pa
B)0.06 Pa
C)7 *10 - 4 Pa
D)4.5 *10 - 6 Pa
E)9.0 *10 - 6 Pa
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39
What should be the height of a dipole antenna (of dimensions 1/4 wavelength)if it is to transmit 1 200 kHz radiowaves?

A)11.4 m
B)60 cm
C)1.12 m
D)62.5 m
E)250 m
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40
Find the force exerted by reflecting sunlight off a reflecting aluminum sheet in space if the area normal to the sunlight is 10 000 m2 and the solar intensity is 1 350 W/m2.

A)0.72 N
B)0.09 N
C)9 N
D)45 N
E)0.18 N
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41
A possible means of spaceflight is to place a perfectly reflecting aluminized sheet into Earth orbit and use the light from the sun to push this solar sail.If a huge sail of area 6.00 *105 m2 and mass 6 000 kg were placed into orbit and turned toward the sun,what would be the force exerted on the sail? (Assume a solar intensity of 1 380 W/m2. )
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