تكلم مع الذكاء الاصطناعي
Deck 25: Em Induction and Em Waves
ملء الشاشة (f)
سؤال
سؤال
An outer metal ring surrounds an inner metal ring, as shown in the figure. The current in the outer ring is counterclockwise and decreasing. What is the direction of the induced current in the inner ring? 
A)clockwise
B)counterclockwise
C)There is no induced current in the inner ring.
A)clockwise
B)counterclockwise
C)There is no induced current in the inner ring.
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A bar magnet is close to a solenoid, as shown in the figure. As viewed through the solenoid looking toward the magnet, what is the direction (clockwise or counterclockwise)of the current (if any)induced in the solenoid in each case?
(a)The magnet is pushed toward the solenoid.
(b)The magnet and solenoid both move to the right at 25 cm/s.
(a)The magnet is pushed toward the solenoid.
(b)The magnet and solenoid both move to the right at 25 cm/s.
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Two solenoids are close to each other, as shown in the figure, with the switch S open. When the switch is suddenly closed, which way will the induced current flow through the galvanometer in the left-hand solenoid? 
A)from left to right
B)from right to left
C)There will be no induced current through the galvanometer.
A)from left to right
B)from right to left
C)There will be no induced current through the galvanometer.
سؤال
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In the figure, a bar magnet moves away from the solenoid. The direction of the induced current through the resistor R is 
A)from a to b.
B)from b to a.
C)No current is induced.
A)from a to b.
B)from b to a.
C)No current is induced.
سؤال
A circular wire ring is situated above a long straight wire, as shown in the figure. The straight wire has a current I flowing to the right, and this current is increasing at a constant rate. Which of the following statements is true? 
A)There is an induced current in the wire ring, directed in clockwise orientation.
B)There is an induced current in the wire ring, directed in a counterclockwise orientation.
C)There is no induced current in the wire ring.
A)There is an induced current in the wire ring, directed in clockwise orientation.
B)There is an induced current in the wire ring, directed in a counterclockwise orientation.
C)There is no induced current in the wire ring.
سؤال
As shown in the figure, two solenoids are in line. The switch S, initially closed, is suddenly opened. Just after opening S, what is the polarity of the induced emf in terminals X and Y? 
A)X and Y are at the same potential.
B)X is positive and Y is negative.
C)Y is positive and X is negative.
A)X and Y are at the same potential.
B)X is positive and Y is negative.
C)Y is positive and X is negative.
سؤال
As shown in the figure, a metal bar is in contact with a pair of parallel rails. A steady, uniform, magnetic field B is present directed to the right. The bar is moving upward with velocity of magnitude ν. What is the polarity of the induced emf in terminals X and Y? 
A)X and Y are at the same potential.
B)X is positive and Y is negative.
C)Y is positive and X is negative.
A)X and Y are at the same potential.
B)X is positive and Y is negative.
C)Y is positive and X is negative.
سؤال
The wire in the figure carries a current I that is increasing with time at a constant rate. The wire and the three loops are all in the same plane. What is true about the currents induced in each of the three loops shown? 
A)No current is induced in any loop.
B)The currents are counterclockwise in all three loops.
C)The currents are clockwise in all three loops.
D)Loop A has clockwise current, loop B has no induced current, and loop C has counterclockwise current.
E)Loop A has counterclockwise current, loop B has no induced current, and loop C has clockwise current.
A)No current is induced in any loop.
B)The currents are counterclockwise in all three loops.
C)The currents are clockwise in all three loops.
D)Loop A has clockwise current, loop B has no induced current, and loop C has counterclockwise current.
E)Loop A has counterclockwise current, loop B has no induced current, and loop C has clockwise current.
سؤال
The wire in the figure carries a current I that is decreasing with time at a constant rate. The wire and the three loops are all in the same plane. What is true about the currents induced in each of the three loops shown? 
A)No current is induced in any loop.
B)The currents are counterclockwise in all three loops.
C)The currents are clockwise in all three loops.
D)Loop A has clockwise current, loop B has no induced current, and loop C has counterclockwise current.
E)Loop A has counterclockwise current, loop B has no induced current, and loop C has clockwise current.
A)No current is induced in any loop.
B)The currents are counterclockwise in all three loops.
C)The currents are clockwise in all three loops.
D)Loop A has clockwise current, loop B has no induced current, and loop C has counterclockwise current.
E)Loop A has counterclockwise current, loop B has no induced current, and loop C has clockwise current.
سؤال
As shown in the figure, one end of a metal bar is in contact with a circular rail and the other end is pivoted at P. A steady uniform, magnetic field B into the page is present. As the bar rotates about point P in a clockwise direction, the direction of the induced current through the resistor R is 
A)from a to b.
B)from b to a.
C)No current is induced.
A)from a to b.
B)from b to a.
C)No current is induced.
سؤال
As shown in the figure, a C-shaped conductor is in a uniform magnetic field B out of the page, and this field is increasing. What is the polarity of the induced emf in terminals X and Y? 
A)X and Y are at the same potential.
B)X is positive and Y is negative.
C)Y is positive and X is negative.
A)X and Y are at the same potential.
B)X is positive and Y is negative.
C)Y is positive and X is negative.
سؤال
As shown in the figure, a coil of wire is placed in the xy-plane, centered on the z-axis. A solenoid is centered on the z-axis and is carrying a steady dc current. Which one of the following actions will not result induce an emf in the coil? 
A)Rotate the coil about the x-axis.
B)Rotate the coil about the y-axis.
C)Rotate the coil about the z-axis.
D)Move the coil toward point P.
E)Change the current in the solenoid.
A)Rotate the coil about the x-axis.
B)Rotate the coil about the y-axis.
C)Rotate the coil about the z-axis.
D)Move the coil toward point P.
E)Change the current in the solenoid.
سؤال
As shown in the figure, two parallel wires carry a current I in opposite directions, and this current is decreasing. A rectangular loop is centered between the wires. The direction of the induced current through the resistor R is 
A)from a to b.
B)from b to a.
C)No current is induced.
A)from a to b.
B)from b to a.
C)No current is induced.
سؤال
As shown in the figure, a metal bar is in contact with a pair of metal parallel rails. A steady uniform magnetic field B, perpendicular to the plane of the rails and pointing outward from the page, is present. The bar is in downward motion with velocity of magnitude ν. The direction of the induced current through the resistor R is 
A)from a to b.
B)from b to a.
C)No current is induced.
A)from a to b.
B)from b to a.
C)No current is induced.
سؤال
As shown in the figure, a metal bar is in contact with a pair of parallel rails and is in motion with an upward velocity of magnitude ν. A uniform magnetic field is present, directed downward as shown. The direction of the induced current through the resistor R is 
A)from a to b.
B)from b to a.
C)No current is induced.
A)from a to b.
B)from b to a.
C)No current is induced.
سؤال
The three loops of wire shown in the figure are all hanging in the same uniform magnetic field 
that is perpendicular to the page and does not vary with time. Loop 1 swings back and forth like the bob in a pendulum, Loop 2 rotates about a vertical axis, and Loop 3 oscillates up and down at the end of a spring. Which loop (or loops)will have an emf induced in them? 
A)Loop 1
B)Loop 2
C)Loop 3
D)Loops 1 and 3
E)Loops 2 and 3
that is perpendicular to the page and does not vary with time. Loop 1 swings back and forth like the bob in a pendulum, Loop 2 rotates about a vertical axis, and Loop 3 oscillates up and down at the end of a spring. Which loop (or loops)will have an emf induced in them? A)Loop 1
B)Loop 2
C)Loop 3
D)Loops 1 and 3
E)Loops 2 and 3
سؤال
As shown in the figure, a straight wire carries a current I into the page. The wire passes through the center of a toroidal coil. If the current I is quickly reduced to zero, the direction of the induced current through the resistor R is 
A)from a to b.
B)from b to a.
C)No current is induced.
A)from a to b.
B)from b to a.
C)No current is induced.
سؤال
A bar magnet is oriented above a copper ring, as shown in the figure. If the magnet is pulled upward, what is the direction of the current induced in the ring, as viewed from above? 
A)There is no current in the ring.
B)counterclockwise
C)clockwise
A)There is no current in the ring.
B)counterclockwise
C)clockwise
سؤال
As shown in the figure, a battery supplies a steady current to the solenoid on the left. The two solenoids are moving toward each other with speeds v. The direction of the induced current through the resistor R is 
A)from a to b.
B)from b to a.
C)No current is induced.
A)from a to b.
B)from b to a.
C)No current is induced.
سؤال
As shown in the figure, two solenoids are side by side. The switch S is initially open. When S is suddenly closed, the direction of the induced current through the resistor R is 
A)from a to b.
B)from b to a.
C)No current is induced.
A)from a to b.
B)from b to a.
C)No current is induced.
سؤال
The wire in the figure carries a steady current I. What is true about the currents induced in each of the three loops shown? The wire and the three loops are all in the same plane. 
A)No current is induced in any loop.
B)The currents are counterclockwise in all three loops.
C)The currents are clockwise in all three loops.
D)Loop A has clockwise current, loop B has no induced current, and loop C has counterclockwise current.
E)Loop A has counterclockwise current, loop B has no induced current, and loop C has clockwise current.
A)No current is induced in any loop.
B)The currents are counterclockwise in all three loops.
C)The currents are clockwise in all three loops.
D)Loop A has clockwise current, loop B has no induced current, and loop C has counterclockwise current.
E)Loop A has counterclockwise current, loop B has no induced current, and loop C has clockwise current.
سؤال
A bar magnet is oriented above a copper ring, as shown in the figure. The magnet is dropped and passes completely through the ring. As viewed from above, what is the direction of the current induced in the ring after the magnet has completely passed through the ring and is somewhat below it? 
A)There is no current in the ring.
B)counterclockwise
C)clockwise
A)There is no current in the ring.
B)counterclockwise
C)clockwise
سؤال
A bar magnet is oriented above a copper ring, as shown in the figure. If the magnet is kept fixed while the ring is dropped, what is the direction of the current induced in the ring, as viewed from below the ring? 
A)There is no current in the ring.
B)counterclockwise
C)clockwise
A)There is no current in the ring.
B)counterclockwise
C)clockwise
سؤال
An electromagnetic wave travels in free space in the +y direction, as shown in the figure. If the electric field at the origin is along the +z direction, what is the direction of the magnetic field? 
A)+z
B)-z
C)+y
D)+x
E)-x
A)+z
B)-z
C)+y
D)+x
E)-x
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As shown in the figure, a straight wire carries a steady current I. A metal bar is in contact with a pair of rails and is in upward motion with velocity of magnitude ν. The polarity of the induced emf in terminals X and Y is 
A)X and Y are at the same potential.
B)X is positive and Y is negative.
C)Y is positive and X is negative.
A)X and Y are at the same potential.
B)X is positive and Y is negative.
C)Y is positive and X is negative.
سؤال
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For a certain electromagnetic wave in free space, at one instant the electric field vector points in the +z direction while the magnetic field vector points in the +x direction, as shown in the figure. In what direction is this wave traveling? 
A)+x
B)-x
C)+y
D)-y
E)+z
A)+x
B)-x
C)+y
D)-y
E)+z
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A rectangular loop of wire that can rotate about an axis through its center is placed between the poles of a magnet in a magnetic field with a strength of 0.40 T, as shown in the figure. The length of the loop L is 0.16 m and its width w is 0.040 m. What is the magnetic flux through the loop when the plane of the loop makes an angle of 60° with the magnetic field? 
A)2.6 × 10-3 T ∙ m2
B)1.3 × 10-3 T ∙ m2
C)0 T ∙ m2
D)2.2 × 10-3 T ∙ m2
E)0.80 T ∙ m2
A)2.6 × 10-3 T ∙ m2
B)1.3 × 10-3 T ∙ m2
C)0 T ∙ m2
D)2.2 × 10-3 T ∙ m2
E)0.80 T ∙ m2
سؤال
A rectangular loop of wire that can rotate about an axis through its center is placed between the poles of a magnet in a magnetic field with a strength of 0.40 T, as shown in the figure. The length of the loop L is 0.16 m and its width w is 0.040 m. What is the magnetic flux through the loop when the plane of the loop is perpendicular to the magnetic field? 
A)13 × 10-3 T ∙ m2
B)2.6 × 103 T ∙ m2
C)0.80 T ∙ m2
D)2.6 × 10-3 T ∙ m2
E)0 T ∙ m2
A)13 × 10-3 T ∙ m2
B)2.6 × 103 T ∙ m2
C)0.80 T ∙ m2
D)2.6 × 10-3 T ∙ m2
E)0 T ∙ m2
سؤال
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As shown in the figure, a large round loop of 269 turns and radius 67.0 cm carries a current of I = A small square loop of 31.0 turns and 1.00 cm on a side is placed at the center of the large loop. If the current in the large loop drops to 0.00 A in 0.0470 s, find the induced emf in the small loop. The square loop is small enough that you can assume that the magnetic field in its region is uniform and equal to the magnetic field at the center of the round loop. (?0 = 4? × 10-7 T ? m/A) 
سؤال
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سؤال
A rectangular loop of wire that can rotate about an axis through its center is placed between the poles of a magnet in a magnetic field with a strength of 0.40 T, as shown in the figure. The length of the loop L is 0.16 m and its width w is 0.040 m. What is the magnetic flux through the loop when the plane of the loop is parallel to the magnetic field? 
A)13 × 10-3 T ∙ m2
B)2.6 × 103 T ∙ m2
C)0.80 T ∙ m2
D)2.6 × 10-3 T ∙ m2
E)0 T ∙ m2
A)13 × 10-3 T ∙ m2
B)2.6 × 103 T ∙ m2
C)0.80 T ∙ m2
D)2.6 × 10-3 T ∙ m2
E)0 T ∙ m2
سؤال
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سؤال
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العب
ملء الشاشة (f)
Deck 25: Em Induction and Em Waves
1
According to Lenz's law, the induced current in a circuit always flows to oppose the external magnetic field through the circuit.
False
2
An outer metal ring surrounds an inner metal ring, as shown in the figure. The current in the outer ring is counterclockwise and decreasing. What is the direction of the induced current in the inner ring?
A)clockwise
B)counterclockwise
C)There is no induced current in the inner ring.
A)clockwise
B)counterclockwise
C)There is no induced current in the inner ring.
B
3
A coil lies flat on a level tabletop in a region where the magnetic field vector points straight up. The magnetic field suddenly grows stronger. When viewed from above, what is the direction of the induced current in this coil as the field increases?
A)counterclockwise
B)clockwise
C)clockwise initially, then counterclockwise before stopping
D)There is no induced current in this coil.
A)counterclockwise
B)clockwise
C)clockwise initially, then counterclockwise before stopping
D)There is no induced current in this coil.
B
4
A coil lies flat on a horizontal tabletop in a region where the magnetic field points straight down. The magnetic field disappears suddenly. When viewed from above, what is the direction of the induced current in this coil as the field disappears?
A)counterclockwise
B)clockwise
C)clockwise initially, then counterclockwise before stopping
D)There is no induced current in this coil.
A)counterclockwise
B)clockwise
C)clockwise initially, then counterclockwise before stopping
D)There is no induced current in this coil.
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5
A coil of wire containing N turns is in an external magnetic field that is perpendicular to the plane of the coil and it steadily changing. Under these circumstances, an emf ε is induced in the coil. If the rate of change of the magnetic field and the number of turns in the coil are now doubled (but nothing else changes), what will be the induced emf in the coil?
A)2ε
B)ε/2
C)4ε
D)ε/4
E)ε
A)2ε
B)ε/2
C)4ε
D)ε/4
E)ε
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6
A flat coil is in a uniform magnetic field. The magnetic flux through the coil is greatest when the plane of its area is
A)parallel to the magnetic field.
B)at 45° with the magnetic field.
C)perpendicular to the magnetic field.
A)parallel to the magnetic field.
B)at 45° with the magnetic field.
C)perpendicular to the magnetic field.
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7
A long straight wire lies on a horizontal table and carries an ever-increasing current toward the north. Two coils of wire lie flat on the table, one on either side of the wire. When viewed from above, the direction of the induced current in these coils is
A)clockwise in both coils.
B)counterclockwise in both coils.
C)clockwise in the east coil and counterclockwise in the west coil.
D)counterclockwise in the east coil and clockwise in the west coil.
A)clockwise in both coils.
B)counterclockwise in both coils.
C)clockwise in the east coil and counterclockwise in the west coil.
D)counterclockwise in the east coil and clockwise in the west coil.
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8
An object having a fixed emissivity of 0.725 radiates heat at a rate of 10 W when it is at an absolute temperature T. If its temperature is doubled to 2T, at what rate will it now radiate?
A)20 W
B)40 W
C)80 W
D)160 W
E)320 W
A)20 W
B)40 W
C)80 W
D)160 W
E)320 W
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9
A circular coil of copper wire is lying flat on a horizontal table. A bar magnet is held above the center of the coil with its south pole downward. The magnet is released from rest and falls toward the coil. As viewed from above, what is the direction of the current induced in the coil as the magnet approaches the coil?
A)counterclockwise
B)clockwise
C)No current is induced in the coil.
D)An emf but no current is induced in the coil.
A)counterclockwise
B)clockwise
C)No current is induced in the coil.
D)An emf but no current is induced in the coil.
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10
A bar magnet is close to a solenoid, as shown in the figure. As viewed through the solenoid looking toward the magnet, what is the direction (clockwise or counterclockwise)of the current (if any)induced in the solenoid in each case?
(a)The magnet is pushed toward the solenoid.
(b)The magnet and solenoid both move to the right at 25 cm/s.
(a)The magnet is pushed toward the solenoid.
(b)The magnet and solenoid both move to the right at 25 cm/s.
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11
A circular coil of copper wire is lying flat on a horizontal table. A bar magnet is held above the center of the coil with its south pole downward. The magnet and the coil are now both raised upward with the same velocities. As viewed from above, what is the direction of the current induced in the coil as the magnet approaches the coil?
A)counterclockwise
B)clockwise
C)No current is induced in the coil.
D)An emf but no current is induced in the coil.
A)counterclockwise
B)clockwise
C)No current is induced in the coil.
D)An emf but no current is induced in the coil.
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12
According to Faraday's law, a coil in a strong magnetic field must have a greater induced emf in it than a coil in a weak magnetic field.
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13
According to Lenz's law, the induced current in a circuit always flows to oppose the external magnetic flux through the circuit.
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14
If the absolute temperature of an object is tripled, the thermal power radiated by this object (assuming that its emissivity and size are not affected by the temperature change)will
A)increase by a factor of 3.
B)increase by a factor of 9.
C)increase by a factor of 18.
D)increase by a factor of 27.
E)increase by a factor of 81.
A)increase by a factor of 3.
B)increase by a factor of 9.
C)increase by a factor of 18.
D)increase by a factor of 27.
E)increase by a factor of 81.
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15
Two solenoids are close to each other, as shown in the figure, with the switch S open. When the switch is suddenly closed, which way will the induced current flow through the galvanometer in the left-hand solenoid?
A)from left to right
B)from right to left
C)There will be no induced current through the galvanometer.
A)from left to right
B)from right to left
C)There will be no induced current through the galvanometer.
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16
By what primary heat transfer mechanism does the sun warm the earth?
A)convection
B)conduction
C)radiation
D)All of the above processes are equally important in combination.
A)convection
B)conduction
C)radiation
D)All of the above processes are equally important in combination.
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17
At a certain instant, coil A is in a 10-T external magnetic field and coil B is in a 1-T external magnetic field. Both coils have the same area and are oriented at right angles to the field. Which coil will have a greater emf induced in it?
A)coil A
B)coil B
C)It is impossible to know without more information about the fields.
A)coil A
B)coil B
C)It is impossible to know without more information about the fields.
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18
A circular coil lies flat on a horizontal surface. A bar magnet is held above the center of the coil with its north pole pointing down. If the magnet is dropped from this position what is the direction of the induced current in the coil, as viewed from above?
A)counterclockwise
B)clockwise
C)An emf but no current is induced in the coil.
D)There is no current in the coil.
A)counterclockwise
B)clockwise
C)An emf but no current is induced in the coil.
D)There is no current in the coil.
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19
A circular coil lies flat on a horizontal surface. A bar magnet is held fixed above the center of the coil with its north pole pointing downward. What is the direction of the induced current in the coil, as viewed from above?
A)clockwise
B)counterclockwise
C)There is no current in the coil.
A)clockwise
B)counterclockwise
C)There is no current in the coil.
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20
A coil lies flat on a tabletop in a region where the magnetic field vector points straight up. The magnetic field vanishes suddenly. When viewed from above, what is the sense of the induced current in this coil as the field fades?
A)The induced current flows counterclockwise.
B)The induced current flows clockwise.
C)There is no induced current in this coil.
D)The current flows clockwise initially, and then it flows counterclockwise before stopping.
A)The induced current flows counterclockwise.
B)The induced current flows clockwise.
C)There is no induced current in this coil.
D)The current flows clockwise initially, and then it flows counterclockwise before stopping.
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21
In the figure, a bar magnet moves away from the solenoid. The direction of the induced current through the resistor R is
A)from a to b.
B)from b to a.
C)No current is induced.
A)from a to b.
B)from b to a.
C)No current is induced.
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22
A circular wire ring is situated above a long straight wire, as shown in the figure. The straight wire has a current I flowing to the right, and this current is increasing at a constant rate. Which of the following statements is true?
A)There is an induced current in the wire ring, directed in clockwise orientation.
B)There is an induced current in the wire ring, directed in a counterclockwise orientation.
C)There is no induced current in the wire ring.
A)There is an induced current in the wire ring, directed in clockwise orientation.
B)There is an induced current in the wire ring, directed in a counterclockwise orientation.
C)There is no induced current in the wire ring.
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23
As shown in the figure, two solenoids are in line. The switch S, initially closed, is suddenly opened. Just after opening S, what is the polarity of the induced emf in terminals X and Y?
A)X and Y are at the same potential.
B)X is positive and Y is negative.
C)Y is positive and X is negative.
A)X and Y are at the same potential.
B)X is positive and Y is negative.
C)Y is positive and X is negative.
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24
As shown in the figure, a metal bar is in contact with a pair of parallel rails. A steady, uniform, magnetic field B is present directed to the right. The bar is moving upward with velocity of magnitude ν. What is the polarity of the induced emf in terminals X and Y?
A)X and Y are at the same potential.
B)X is positive and Y is negative.
C)Y is positive and X is negative.
A)X and Y are at the same potential.
B)X is positive and Y is negative.
C)Y is positive and X is negative.
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25
The wire in the figure carries a current I that is increasing with time at a constant rate. The wire and the three loops are all in the same plane. What is true about the currents induced in each of the three loops shown?
A)No current is induced in any loop.
B)The currents are counterclockwise in all three loops.
C)The currents are clockwise in all three loops.
D)Loop A has clockwise current, loop B has no induced current, and loop C has counterclockwise current.
E)Loop A has counterclockwise current, loop B has no induced current, and loop C has clockwise current.
A)No current is induced in any loop.
B)The currents are counterclockwise in all three loops.
C)The currents are clockwise in all three loops.
D)Loop A has clockwise current, loop B has no induced current, and loop C has counterclockwise current.
E)Loop A has counterclockwise current, loop B has no induced current, and loop C has clockwise current.
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26
The wire in the figure carries a current I that is decreasing with time at a constant rate. The wire and the three loops are all in the same plane. What is true about the currents induced in each of the three loops shown?
A)No current is induced in any loop.
B)The currents are counterclockwise in all three loops.
C)The currents are clockwise in all three loops.
D)Loop A has clockwise current, loop B has no induced current, and loop C has counterclockwise current.
E)Loop A has counterclockwise current, loop B has no induced current, and loop C has clockwise current.
A)No current is induced in any loop.
B)The currents are counterclockwise in all three loops.
C)The currents are clockwise in all three loops.
D)Loop A has clockwise current, loop B has no induced current, and loop C has counterclockwise current.
E)Loop A has counterclockwise current, loop B has no induced current, and loop C has clockwise current.
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27
As shown in the figure, one end of a metal bar is in contact with a circular rail and the other end is pivoted at P. A steady uniform, magnetic field B into the page is present. As the bar rotates about point P in a clockwise direction, the direction of the induced current through the resistor R is
A)from a to b.
B)from b to a.
C)No current is induced.
A)from a to b.
B)from b to a.
C)No current is induced.
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28
As shown in the figure, a C-shaped conductor is in a uniform magnetic field B out of the page, and this field is increasing. What is the polarity of the induced emf in terminals X and Y?
A)X and Y are at the same potential.
B)X is positive and Y is negative.
C)Y is positive and X is negative.
A)X and Y are at the same potential.
B)X is positive and Y is negative.
C)Y is positive and X is negative.
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29
As shown in the figure, a coil of wire is placed in the xy-plane, centered on the z-axis. A solenoid is centered on the z-axis and is carrying a steady dc current. Which one of the following actions will not result induce an emf in the coil?
A)Rotate the coil about the x-axis.
B)Rotate the coil about the y-axis.
C)Rotate the coil about the z-axis.
D)Move the coil toward point P.
E)Change the current in the solenoid.
A)Rotate the coil about the x-axis.
B)Rotate the coil about the y-axis.
C)Rotate the coil about the z-axis.
D)Move the coil toward point P.
E)Change the current in the solenoid.
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30
As shown in the figure, two parallel wires carry a current I in opposite directions, and this current is decreasing. A rectangular loop is centered between the wires. The direction of the induced current through the resistor R is
A)from a to b.
B)from b to a.
C)No current is induced.
A)from a to b.
B)from b to a.
C)No current is induced.
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31
As shown in the figure, a metal bar is in contact with a pair of metal parallel rails. A steady uniform magnetic field B, perpendicular to the plane of the rails and pointing outward from the page, is present. The bar is in downward motion with velocity of magnitude ν. The direction of the induced current through the resistor R is
A)from a to b.
B)from b to a.
C)No current is induced.
A)from a to b.
B)from b to a.
C)No current is induced.
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32
As shown in the figure, a metal bar is in contact with a pair of parallel rails and is in motion with an upward velocity of magnitude ν. A uniform magnetic field is present, directed downward as shown. The direction of the induced current through the resistor R is
A)from a to b.
B)from b to a.
C)No current is induced.
A)from a to b.
B)from b to a.
C)No current is induced.
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33
The three loops of wire shown in the figure are all hanging in the same uniform magnetic field that is perpendicular to the page and does not vary with time. Loop 1 swings back and forth like the bob in a pendulum, Loop 2 rotates about a vertical axis, and Loop 3 oscillates up and down at the end of a spring. Which loop (or loops)will have an emf induced in them?
A)Loop 1
B)Loop 2
C)Loop 3
D)Loops 1 and 3
E)Loops 2 and 3
that is perpendicular to the page and does not vary with time. Loop 1 swings back and forth like the bob in a pendulum, Loop 2 rotates about a vertical axis, and Loop 3 oscillates up and down at the end of a spring. Which loop (or loops)will have an emf induced in them? A)Loop 1
B)Loop 2
C)Loop 3
D)Loops 1 and 3
E)Loops 2 and 3
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34
As shown in the figure, a straight wire carries a current I into the page. The wire passes through the center of a toroidal coil. If the current I is quickly reduced to zero, the direction of the induced current through the resistor R is
A)from a to b.
B)from b to a.
C)No current is induced.
A)from a to b.
B)from b to a.
C)No current is induced.
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35
A bar magnet is oriented above a copper ring, as shown in the figure. If the magnet is pulled upward, what is the direction of the current induced in the ring, as viewed from above?
A)There is no current in the ring.
B)counterclockwise
C)clockwise
A)There is no current in the ring.
B)counterclockwise
C)clockwise
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36
As shown in the figure, a battery supplies a steady current to the solenoid on the left. The two solenoids are moving toward each other with speeds v. The direction of the induced current through the resistor R is
A)from a to b.
B)from b to a.
C)No current is induced.
A)from a to b.
B)from b to a.
C)No current is induced.
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37
As shown in the figure, two solenoids are side by side. The switch S is initially open. When S is suddenly closed, the direction of the induced current through the resistor R is
A)from a to b.
B)from b to a.
C)No current is induced.
A)from a to b.
B)from b to a.
C)No current is induced.
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38
The wire in the figure carries a steady current I. What is true about the currents induced in each of the three loops shown? The wire and the three loops are all in the same plane.
A)No current is induced in any loop.
B)The currents are counterclockwise in all three loops.
C)The currents are clockwise in all three loops.
D)Loop A has clockwise current, loop B has no induced current, and loop C has counterclockwise current.
E)Loop A has counterclockwise current, loop B has no induced current, and loop C has clockwise current.
A)No current is induced in any loop.
B)The currents are counterclockwise in all three loops.
C)The currents are clockwise in all three loops.
D)Loop A has clockwise current, loop B has no induced current, and loop C has counterclockwise current.
E)Loop A has counterclockwise current, loop B has no induced current, and loop C has clockwise current.
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39
A bar magnet is oriented above a copper ring, as shown in the figure. The magnet is dropped and passes completely through the ring. As viewed from above, what is the direction of the current induced in the ring after the magnet has completely passed through the ring and is somewhat below it?
A)There is no current in the ring.
B)counterclockwise
C)clockwise
A)There is no current in the ring.
B)counterclockwise
C)clockwise
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40
A bar magnet is oriented above a copper ring, as shown in the figure. If the magnet is kept fixed while the ring is dropped, what is the direction of the current induced in the ring, as viewed from below the ring?
A)There is no current in the ring.
B)counterclockwise
C)clockwise
A)There is no current in the ring.
B)counterclockwise
C)clockwise
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41
An electromagnetic wave travels in free space in the +y direction, as shown in the figure. If the electric field at the origin is along the +z direction, what is the direction of the magnetic field?
A)+z
B)-z
C)+y
D)+x
E)-x
A)+z
B)-z
C)+y
D)+x
E)-x
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42
Which one of the following types of electromagnetic wave travels through space the fastest?
A)radio waves
B)infrared
C)ultraviolet
D)microwaves
E)They all travel through space at the same speed.
A)radio waves
B)infrared
C)ultraviolet
D)microwaves
E)They all travel through space at the same speed.
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43
Which one of the following expressions is the correct representation for the speed of light in vacuum?
A)
B)
C)
D)1 /
E)1 / ?0?0
A)
B)
C)
D)1 /
E)1 / ?0?0
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44
Which of the following statements about electromagnetic waves in free space are true? (There could be more than one correct choice.)
A)The electric field carries more energy than the magnetic field.
B)The electric and magnetic fields have equal amplitudes.
C)The electric field carries the same mount of energy as the magnetic field.
D)The frequency of the magnetic field is the same as the frequency of the electric field.
E)The frequency of the electric field is higher than the frequency of the magnetic field.
A)The electric field carries more energy than the magnetic field.
B)The electric and magnetic fields have equal amplitudes.
C)The electric field carries the same mount of energy as the magnetic field.
D)The frequency of the magnetic field is the same as the frequency of the electric field.
E)The frequency of the electric field is higher than the frequency of the magnetic field.
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45
Which one of the following lists gives the correct order of the electromagnetic spectrum from low to high frequencies?
A)radio waves, infrared, microwaves, ultraviolet, visible, x-rays, gamma rays
B)radio waves, ultraviolet, x-rays, microwaves, infrared, visible, gamma rays
C)radio waves, microwaves, infrared, visible, ultraviolet, x-rays, gamma rays
D)radio waves, microwaves, visible, x-rays, infrared, ultraviolet, gamma rays
E)radio waves, infrared, x-rays, microwaves, ultraviolet, visible, gamma rays
A)radio waves, infrared, microwaves, ultraviolet, visible, x-rays, gamma rays
B)radio waves, ultraviolet, x-rays, microwaves, infrared, visible, gamma rays
C)radio waves, microwaves, infrared, visible, ultraviolet, x-rays, gamma rays
D)radio waves, microwaves, visible, x-rays, infrared, ultraviolet, gamma rays
E)radio waves, infrared, x-rays, microwaves, ultraviolet, visible, gamma rays
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46
Which of the following statements about electromagnetic waves in free space are true? (There could be more than one correct choice.)
A)The higher-frequency travel faster than the lower-frequency waves.
B)The higher-frequency waves have shorter wavelengths than the lower-frequency waves.
C)The wavelengths of the visible waves are some of the longest electromagnetic waves.
D)The wavelengths of the visible waves are some of the shortest electromagnetic waves.
E)The electric field vector is always at right angles to the magnetic field vector.
A)The higher-frequency travel faster than the lower-frequency waves.
B)The higher-frequency waves have shorter wavelengths than the lower-frequency waves.
C)The wavelengths of the visible waves are some of the longest electromagnetic waves.
D)The wavelengths of the visible waves are some of the shortest electromagnetic waves.
E)The electric field vector is always at right angles to the magnetic field vector.
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47
An electromagnetic wave is propagating towards the west in free space. At a certain moment the direction of the magnetic field vector associated with this wave points vertically upward. What is the direction of the electric field vector?
A)horizontal and pointing south
B)vertical and pointing down
C)horizontal and pointing north
D)vertical and pointing upward
E)horizontal and pointing east
A)horizontal and pointing south
B)vertical and pointing down
C)horizontal and pointing north
D)vertical and pointing upward
E)horizontal and pointing east
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48
Increasing the brightness of a beam of light without changing its color will increase
A)the number of photons per second traveling in the beam.
B)the energy of each photon.
C)the speed of the photons.
D)the frequency of the light.
E)the wavelength of the photons.
A)the number of photons per second traveling in the beam.
B)the energy of each photon.
C)the speed of the photons.
D)the frequency of the light.
E)the wavelength of the photons.
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49
Which one of the following is not an electromagnetic wave?
A)ultraviolet
B)infrared
C)radio waves
D)sound waves
E)gamma rays
A)ultraviolet
B)infrared
C)radio waves
D)sound waves
E)gamma rays
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50
As shown in the figure, a straight wire carries a steady current I. A metal bar is in contact with a pair of rails and is in upward motion with velocity of magnitude ν. The polarity of the induced emf in terminals X and Y is
A)X and Y are at the same potential.
B)X is positive and Y is negative.
C)Y is positive and X is negative.
A)X and Y are at the same potential.
B)X is positive and Y is negative.
C)Y is positive and X is negative.
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51
In an electromagnetic wave in free space, the electric and magnetic fields are
A)parallel to one another and perpendicular to the direction of wave propagation.
B)parallel to one another and parallel to the direction of wave propagation.
C)perpendicular to one another and perpendicular to the direction of wave propagation.
D)perpendicular to one another and parallel to the direction of wave propagation.
A)parallel to one another and perpendicular to the direction of wave propagation.
B)parallel to one another and parallel to the direction of wave propagation.
C)perpendicular to one another and perpendicular to the direction of wave propagation.
D)perpendicular to one another and parallel to the direction of wave propagation.
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52
If unpolarized light of intensity I0 passes through an ideal polarizer, what is the intensity of the emerging light?
A)I0
B)I0/2
C)I0/4
D)I0/
E)I0/16
A)I0
B)I0/2
C)I0/4
D)I0/
E)I0/16
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53
Two identical metal bars are heated up until they are both glowing. One of them is "red hot" and the other is "blue hot." Which one is hotter, the one that glows red or the one that glows blue?
A)the red one
B)the blue one
C)We cannot tell without knowing more about the two bars.
A)the red one
B)the blue one
C)We cannot tell without knowing more about the two bars.
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54
At a certain instant in time, the electric field of an electromagnetic wave in free space points in the -z direction, and the magnetic field points in the +y direction. In what direction is this wave traveling?
A)+x direction
B)-x direction
C)+y direction
D)-z direction
E)+z direction
A)+x direction
B)-x direction
C)+y direction
D)-z direction
E)+z direction
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55
A photon of blue light and a photon of red light are traveling in vacuum. The photon of blue light
A)has a smaller wavelength than a photon of red light and travels with the same speed.
B)has a smaller wavelength than a photon of red light and travels with a greater speed.
C)has a longer wavelength than a photon of red light and travels with the same speed.
D)has a longer wavelength than a photon of red light and travels with a greater speed.
A)has a smaller wavelength than a photon of red light and travels with the same speed.
B)has a smaller wavelength than a photon of red light and travels with a greater speed.
C)has a longer wavelength than a photon of red light and travels with the same speed.
D)has a longer wavelength than a photon of red light and travels with a greater speed.
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56
For an electromagnetic wave in free space having an electric field of amplitude E and a magnetic field of amplitude B, the ratio of B/E is equal to
A)c
B)c2
C)1/c
D)1/c2
E)
A)c
B)c2
C)1/c
D)1/c2
E)
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57
For a beam of light, the direction of polarization is defined as
A)the beam's direction of travel.
B)the direction of the electric field's vibration.
C)the direction of the magnetic field's vibration.
D)the direction that is perpendicular to both the electric and magnetic field vectors.
A)the beam's direction of travel.
B)the direction of the electric field's vibration.
C)the direction of the magnetic field's vibration.
D)the direction that is perpendicular to both the electric and magnetic field vectors.
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58
For a certain electromagnetic wave in free space, at one instant the electric field vector points in the +z direction while the magnetic field vector points in the +x direction, as shown in the figure. In what direction is this wave traveling?
A)+x
B)-x
C)+y
D)-y
E)+z
A)+x
B)-x
C)+y
D)-y
E)+z
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59
As the temperature of a blackbody increases, what happens to the peak wavelength of the light it radiates?
A)It gets longer.
B)It gets shorter.
C)The wavelength is not affected by the temperature of the object.
A)It gets longer.
B)It gets shorter.
C)The wavelength is not affected by the temperature of the object.
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60
Which one of the following lists gives the correct order of the electromagnetic waves from longer wavelength to shorter wavelength?
A)radio waves, infrared, microwaves, ultraviolet, visible, x-rays, gamma rays
B)radio waves, ultraviolet, x-rays, microwaves, infrared, visible, gamma rays
C)radio waves, microwaves, visible, x-rays, infrared, ultraviolet, gamma rays
D)radio waves, microwaves, infrared, visible, ultraviolet, x-rays, gamma rays
E)radio waves, infrared, x-rays, microwaves, ultraviolet, visible, gamma rays
A)radio waves, infrared, microwaves, ultraviolet, visible, x-rays, gamma rays
B)radio waves, ultraviolet, x-rays, microwaves, infrared, visible, gamma rays
C)radio waves, microwaves, visible, x-rays, infrared, ultraviolet, gamma rays
D)radio waves, microwaves, infrared, visible, ultraviolet, x-rays, gamma rays
E)radio waves, infrared, x-rays, microwaves, ultraviolet, visible, gamma rays
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61
A blacksmith is flattening a steel plate having dimensions 10 cm × 15 cm × 1 mm. He has heated the plate to 900 K. If the emissivity of the plate is 0.75, at what rate does it lose energy by radiation? Ignore any heat exchange with the surroundings. (σ = 5.67 × 10-8 W/m2 ∙ K4)
A)360 W
B)760 W
C)790 W
D)850 W
E)880 W
A)360 W
B)760 W
C)790 W
D)850 W
E)880 W
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62
If the wavelength of a photon is doubled, what happens to its energy?
A)It is reduced to one-half of its original value.
B)It stays the same.
C)It is doubled.
D)It is increased to four times its original value.
E)It is reduced to one-fourth of its original value.
A)It is reduced to one-half of its original value.
B)It stays the same.
C)It is doubled.
D)It is increased to four times its original value.
E)It is reduced to one-fourth of its original value.
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63
A flat circular loop having one turn and radius 5.0 cm is positioned with its plane perpendicular to a uniform 0.60-T magnetic field. The area of the loop is suddenly reduced to essentially zero in 0.50 ms. What emf is induced in the loop?
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64
A sphere of surface area 1.25 m2 and emissivity 1.0 is at a temperature of 100°C. At what rate does it radiate heat into empty space? (σ = 5.67 × 10-8 W/m2 ∙ K4)
A)7.1 W
B)0.71 mW
C)1.4 kW
D)9.9 mW
E)3.7 W
A)7.1 W
B)0.71 mW
C)1.4 kW
D)9.9 mW
E)3.7 W
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65
If you double the frequency of the light in a laser beam, but keep the number of photons per second in the beam fixed, which of the following statements are correct? (There could be more than one correct choice.)
A)The power in the beam does not change.
B)The intensity of the beam doubles.
C)The energy of individual photons does not change.
D)The energy of individual photons doubles.
E)The wavelength of the individual photons doubles.
A)The power in the beam does not change.
B)The intensity of the beam doubles.
C)The energy of individual photons does not change.
D)The energy of individual photons doubles.
E)The wavelength of the individual photons doubles.
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66
A rectangular loop of wire that can rotate about an axis through its center is placed between the poles of a magnet in a magnetic field with a strength of 0.40 T, as shown in the figure. The length of the loop L is 0.16 m and its width w is 0.040 m. What is the magnetic flux through the loop when the plane of the loop makes an angle of 60° with the magnetic field?
A)2.6 × 10-3 T ∙ m2
B)1.3 × 10-3 T ∙ m2
C)0 T ∙ m2
D)2.2 × 10-3 T ∙ m2
E)0.80 T ∙ m2
A)2.6 × 10-3 T ∙ m2
B)1.3 × 10-3 T ∙ m2
C)0 T ∙ m2
D)2.2 × 10-3 T ∙ m2
E)0.80 T ∙ m2
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67
A rectangular loop of wire that can rotate about an axis through its center is placed between the poles of a magnet in a magnetic field with a strength of 0.40 T, as shown in the figure. The length of the loop L is 0.16 m and its width w is 0.040 m. What is the magnetic flux through the loop when the plane of the loop is perpendicular to the magnetic field?
A)13 × 10-3 T ∙ m2
B)2.6 × 103 T ∙ m2
C)0.80 T ∙ m2
D)2.6 × 10-3 T ∙ m2
E)0 T ∙ m2
A)13 × 10-3 T ∙ m2
B)2.6 × 103 T ∙ m2
C)0.80 T ∙ m2
D)2.6 × 10-3 T ∙ m2
E)0 T ∙ m2
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68
A flat circular loop of radius 0.10 m is rotating in a uniform magnetic field of 0.20 T. Find the magnetic flux through the loop when the plane of the loop and the magnetic field vector are at an angle of 30°.
A)0 T ∙ m2
B)3.1 × 10-3 T ∙ m2
C)5.5 × 10-3 T ∙ m2
D)6.3 × 10-3 T ∙ m2
A)0 T ∙ m2
B)3.1 × 10-3 T ∙ m2
C)5.5 × 10-3 T ∙ m2
D)6.3 × 10-3 T ∙ m2
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69
A 2.00-m long metal wire is formed into a square and placed in the horizontal xy-plane. A uniform magnetic field is oriented at 30° above the horizontal with a strength of 0.344 T. What is the magnetic flux through the square due to this field?
A)0.0745 T ∙ m2
B)0.172 T ∙ m2
C)0.0430 T ∙ m2
D)0.298 T ∙ m2
A)0.0745 T ∙ m2
B)0.172 T ∙ m2
C)0.0430 T ∙ m2
D)0.298 T ∙ m2
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70
As shown in the figure, a large round loop of 269 turns and radius 67.0 cm carries a current of I = A small square loop of 31.0 turns and 1.00 cm on a side is placed at the center of the large loop. If the current in the large loop drops to 0.00 A in 0.0470 s, find the induced emf in the small loop. The square loop is small enough that you can assume that the magnetic field in its region is uniform and equal to the magnetic field at the center of the round loop. (?0 = 4? × 10-7 T ? m/A)
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71
The cylindrical filament in a light bulb has a diameter of 0.050 mm, an emissivity of 1.0, and a temperature of 3000°C. How long should the filament be in order to radiate 60 W of power? (σ = 5.67 × 10-8 W/m2 ∙ K4)
A)11 cm
B)9.4 cm
C)8.6 cm
D)7.2 cm
E)5.9 cm
A)11 cm
B)9.4 cm
C)8.6 cm
D)7.2 cm
E)5.9 cm
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72
A flat circular loop of radius 0.10 m is rotating in a uniform magnetic field of 0.20 T. Find the magnetic flux through the loop when the plane of the loop and the magnetic field vector are parallel.
A)0 T ∙ m2
B)3.1 × 10-3 T ∙ m2
C)5.5 × 10-3 T ∙ m2
D)6.3 × 10-3 T ∙ m2
A)0 T ∙ m2
B)3.1 × 10-3 T ∙ m2
C)5.5 × 10-3 T ∙ m2
D)6.3 × 10-3 T ∙ m2
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73
A giant star radiates energy at the rate of 3.0 × 1030 W, and its surface temperature has been measured to be 3000 K. Assuming that it is a perfect emitter, what is the radius of this star?(σ = 5.67 × 10-8 W/m2 ∙ K4)
A)7.8 × 1010 m
B)8.7 × 1010 m
C)1.4 × 1010 m
D)1.9 × 1011 m
E)2.3 × 1011 m
A)7.8 × 1010 m
B)8.7 × 1010 m
C)1.4 × 1010 m
D)1.9 × 1011 m
E)2.3 × 1011 m
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74
The radius of a star is 6.95 × 108 m, and its rate of radiation has been measured to be 5.32 × 1026 W. Assuming that it is a perfect emitter, what is the temperature of the surface of this star? (σ = 5.67 × 10-8 W/m2 ∙ K4)
A)6.27 × 103 K
B)8.25 × 103 K
C)8.87 × 103 K
D)3.93 × 107 K
E)5.78 × 107 K
A)6.27 × 103 K
B)8.25 × 103 K
C)8.87 × 103 K
D)3.93 × 107 K
E)5.78 × 107 K
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75
A rectangular loop of wire that can rotate about an axis through its center is placed between the poles of a magnet in a magnetic field with a strength of 0.40 T, as shown in the figure. The length of the loop L is 0.16 m and its width w is 0.040 m. What is the magnetic flux through the loop when the plane of the loop is parallel to the magnetic field?
A)13 × 10-3 T ∙ m2
B)2.6 × 103 T ∙ m2
C)0.80 T ∙ m2
D)2.6 × 10-3 T ∙ m2
E)0 T ∙ m2
A)13 × 10-3 T ∙ m2
B)2.6 × 103 T ∙ m2
C)0.80 T ∙ m2
D)2.6 × 10-3 T ∙ m2
E)0 T ∙ m2
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76
Which of the following actions will increase the energy of a photon? (There could be more than one correct choice.)
A)Increase its wavelength.
B)Increase its frequency.
C)Decrease its wavelength.
D)Decrease its frequency.
E)Increase its speed.
A)Increase its wavelength.
B)Increase its frequency.
C)Decrease its wavelength.
D)Decrease its frequency.
E)Increase its speed.
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77
A flat coil having 40 turns, each one of cross-sectional area 12.0 cm2, is oriented with its plane perpendicular to a uniform magnetic field. The field varies steadily from 0.00 T to 1.20 T in 20.0 ms. What emf is induced in the coil during this time?
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78
How much power does a sphere with a radius of 10 cm radiate into empty space if is has an emissivity of 1.0 and is kept at a temperature of 400 K? (σ = 5.67 × 10-8 W/m2 ∙ K4)
A)60 W
B)70 W
C)180 W
D)210 W
E)360 W
A)60 W
B)70 W
C)180 W
D)210 W
E)360 W
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79
In an electric furnace used for refining steel, the temperature is monitored by measuring the radiant power emitted through a small hole in the wall of the furnace, of area 0.5 cm2. This hole acts like a perfect blackbody radiator having the same temperature as the interior of the furnace. If the temperature of the furnace (and therefore of the hole)is to be maintained at 1650°C, how much power will the hole radiate?
A)20 W
B)30 W
C)40 W
D)50 W
A)20 W
B)30 W
C)40 W
D)50 W
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80
A flat circular loop of radius 0.10 m is rotating in a uniform magnetic field of 0.20 T. Find the magnetic flux through the loop when the plane of the loop and the magnetic field vector are perpendicular.
A)0 T ∙ m2
B)3.1 × 10-3 T ∙ m2
C)5.5 × 10-3 T ∙ m2
D)6.3 × 10-3 T ∙ m2
A)0 T ∙ m2
B)3.1 × 10-3 T ∙ m2
C)5.5 × 10-3 T ∙ m2
D)6.3 × 10-3 T ∙ m2
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