Explore all topics
Start Free Trial
Need Help? Contact us
back arrowfull exam logo
search
ai logoChat with AI
Servicesarrow
Discoverarrow

Topics

Explore all topics
Discover more topics

Deck 20: Electromagnetic Induction

Full screen (f)
exit full mode
Question
<strong> A rectangular loop of wire 0.10 m by 0.20 m) carries a current of 5.0 A in a counterclockwise direction. The loop is oriented, as shown, in a uniform magnetic field of 1.5 T. The magnetic flux of B is</strong> A) 0.026 T · m<sup>2</sup>. B) 1.3 T · m<sup>2</sup>.<sup> </sup> C) 0.015 T · m<sup>2</sup>.<sup> </sup> D) 0.030 T · m<sup>2</sup>.<sup> </sup> E) 1.5 T · m<sup>2</sup>. <div style=padding-top: 35px> A rectangular loop of wire 0.10 m by 0.20 m) carries a current of 5.0 A in a counterclockwise direction. The loop is oriented, as shown, in a uniform magnetic field of 1.5 T. The magnetic flux of B is

A) 0.026 T · m2.
B) 1.3 T · m2.
C) 0.015 T · m2.
D) 0.030 T · m2.
E) 1.5 T · m2.
Use Space or
up arrow
down arrow
to flip the card.
Question
A 3.0-cm by 5.0-cm rectangular coil has 100 turns. Its axis makes an angle of 55º with a uniform magnetic field of 0.35 T. It requires 0.33 s to turn the coil until its plane is perpendicular to the magnetic field. What is the average) magnitude of the induced EMF?

A) 0.16 V
B) 0.13 V
C) 91 mV
D) 68 mV
E) 29 mV
Question
<strong> A rectangle is bent on two sides at 90º so that one end lies along the xy-plane while the other end lies along the xz-plane. The length a = 10 cm and b = 30 cm. At t = 0, a magnetic field of strength B = 0.1 T lies in the yz-plane and points at an angle Ɵ = 30 and 10 ms later the field points in the opposite direction. The EMF induced in the rectangle is</strong> A) 10.4 V. B) 6.0 V. C) 12 V. D) 8.2 V. E) None of these is correct. <div style=padding-top: 35px> A rectangle is bent on two sides at 90º so that one end lies along the xy-plane while the other end lies along the xz-plane. The length a = 10 cm and b = 30 cm. At t = 0, a magnetic field of strength B = 0.1 T lies in the yz-plane and points at an angle Ɵ = 30 and 10 ms later the field points in the opposite direction. The EMF induced in the rectangle is

A) 10.4 V.
B) 6.0 V.
C) 12 V.
D) 8.2 V.
E) None of these is correct.
Question
A circular wire coil of radius 25 cm and 20 turns is sitting in a perpendicular magnetic field of 0.20 T. If the coil is rotated 90o, what is the magnitude of the change in magnetic flux through the loop?

A) 0 Wb
B) 1.6 Wb
C) 0.080 Wb
D) 0.80 Wb
E) 0.040 Wb
Question
<strong> For which of the following diagrams) will current flow through the lightbulb?</strong> A) 1 B) 2 C) 3 D) 4 E) 1 and 2 <div style=padding-top: 35px> For which of the following diagrams) will current flow through the lightbulb?

A) 1
B) 2
C) 3
D) 4
E) 1 and 2
Question
<strong> A rectangular surface of area 1.0 m<sup>2</sup> is hinged along the z-axis and makes an angle of 37 with the yz plane. If the local magnetic field is 10 T along the positive x-axis, the magnetic flux through this surface is</strong> A) 6.0 T · m<sup>2</sup>. B) 8.0 T · m<sup>2</sup>.<sup> </sup> C) 10 T · m<sup>2</sup>.<sup> </sup> D) 13 T · m<sup>2</sup>. E) 17 T · m<sup>2</sup>. <div style=padding-top: 35px> A rectangular surface of area 1.0 m2 is hinged along the z-axis and makes an angle of 37 with the yz plane. If the local magnetic field is 10 T along the positive x-axis, the magnetic flux through this surface is

A) 6.0 T · m2.
B) 8.0 T · m2.
C) 10 T · m2.
D) 13 T · m2.
E) 17 T · m2.
Question
<strong> A rectangle is bent on two sides at 90º so that one end lies along the xy plane while the other end lies along the xz plane. The length a = 10 cm and b = 30 cm. A magnetic field of strength B = 0.1 T lies in the yz plane and points at an angle Ɵ = 30º with the y-axis. The flux through the rectangle is</strong> A) 52.0 mWb. B) 30.0 mWb. C) 41.0 mWb. D) 60.0 mWb. E) None of these is correct. <div style=padding-top: 35px> A rectangle is bent on two sides at 90º so that one end lies along the xy plane while the other end lies along the xz plane. The length a = 10 cm and b = 30 cm. A magnetic field of strength B = 0.1 T lies in the yz plane and points at an angle Ɵ = 30º with the y-axis. The flux through the rectangle is

A) 52.0 mWb.
B) 30.0 mWb.
C) 41.0 mWb.
D) 60.0 mWb.
E) None of these is correct.
Question
Which of the following is a vector quantity?

A) current
B) charge
C) magnetic field
D) electric potential
E) magnetic flux
Question
<strong> A square loop of sides a lies in the yz plane with one corner at the origin. A varying magnetic field B = k<sub>y</sub>. points in the positive x direction and passes through the loop k is a constant). The magnetic flux through the loop is</strong> A) ka<sup>2</sup>. B) ka<sup>2</sup>/2. C) ka<sup>3</sup>/2. D) ka<sup>3</sup>/3. E) None of these is correct. <div style=padding-top: 35px> A square loop of sides "a" lies in the yz plane with one corner at the origin. A varying magnetic field B = ky. points in the positive x direction and passes through the loop k is a constant). The magnetic flux through the loop is

A) ka2.
B) ka2/2.
C) ka3/2.
D) ka3/3.
E) None of these is correct.
Question
<strong> A uniform magnetic field of magnitude 0.5 T is parallel to the x-axis. A square coil of side 10 cm has 300 turns and makes an angle of 60 with the z-axis as shown. The total magnetic flux through the coil is approximately</strong> A) 0.14 Wb. B) 0.75 Wb. C) 1.5 Wb. D) 0.27 Wb. E) 0.56 Wb. <div style=padding-top: 35px> A uniform magnetic field of magnitude 0.5 T is parallel to the x-axis. A square coil of side 10 cm has 300 turns and makes an angle of 60 with the z-axis as shown. The total magnetic flux through the coil is approximately

A) 0.14 Wb.
B) 0.75 Wb.
C) 1.5 Wb.
D) 0.27 Wb.
E) 0.56 Wb.
Question
A 100-turn coil has a radius of 7.50 cm and a resistance of 50.0 Ω. At what rate must a perpendicular magnetic field change to produce a current of 5.00 A in the coil?

A) 275 T/s
B) 134 T/s
C) 329 T/s
D) 141 T/s
E) 106 T/s
Question
The plane of a circular, 200-turn coil of radius 5.25 cm is perpendicular to a uniform magnetic field produced by a large electromagnet. This field is changed at a steady rate from 0.650 T to 0.150 T in 0.0100 s. What is the magnitude of the EMF induced in the coil?

A) 110 V
B) 170 V
C) 1.7 V
D) 26 V
E) 87 V
Question
The instantaneous induced EMF in a coil of wire located in a magnetic field

A) depends on the time rate of change of flux through the coil.
B) depends on the instantaneous value of flux through the coil.
C) is independent of the area of the coil.
D) is independent of the number of turns of the coil.
E) is determined by the resistance in series with the coil.
Question
0 × 10-2 Wb. Calculate the current through the solenoid.

A) 53 A
B) 5.4 A
C) 17 A
D) 1.3 A
E) 34 A
Question
<strong> A uniform magnetic field of 0.5 T is parallel to the y-axis. A square coil of side 10 cm has 300 turns and lies in the xy plane as shown. The magnetic flux through the coil is</strong> A) 0.14 Wb. B) 0.75 Wb. C) 1.5 Wb. D) 0.27 Wb. E) None of these answers is correct. <div style=padding-top: 35px> A uniform magnetic field of 0.5 T is parallel to the y-axis. A square coil of side 10 cm has 300 turns and lies in the xy plane as shown. The magnetic flux through the coil is

A) 0.14 Wb.
B) 0.75 Wb.
C) 1.5 Wb.
D) 0.27 Wb.
E) None of these answers is correct.
Question
A 3.0-cm by 5.0-cm rectangular coil has 100 turns. Its axis makes an angle of 55 with a uniform magnetic field of 0.35 T. What is the total magnetic flux through this coil?

A) 3.0 × 10-4 Wb
B) 4.3 × 10-4 Wb
C) 3.0 × 10-2 Wb
D) 4.3 × 10-2 Wb
E) 5.3 × 10-2 Wb
Question
Suppose you double the magnetic field in a given region and quadruple the area through which this magnetic field exists. The effect on the flux through this area would be to

A) leave it unchanged.
B) double it.
C) quadruple it.
D) increase it by a factor of 6.
E) increase it by a factor of 8.
Question
<strong> A uniform magnetic field of 0.5 T is parallel to the x-axis. A square coil of side 10 cm has 300 turns and lies in the xy plane as shown. The magnetic flux through the coil is</strong> A) 0.14 Wb. B) 0.75 Wb. C) 1.5 Wb. D) 0.27 Wb. E) zero. <div style=padding-top: 35px> A uniform magnetic field of 0.5 T is parallel to the x-axis. A square coil of side 10 cm has 300 turns and lies in the xy plane as shown. The magnetic flux through the coil is

A) 0.14 Wb.
B) 0.75 Wb.
C) 1.5 Wb.
D) 0.27 Wb.
E) zero.
Question
<strong> A uniform magnetic field of 0.5 T is parallel to the z-axis. A square coil of side 10 cm has 300 turns and lies in the xy plane as shown. The magnetic flux through the coil is</strong> A) 0.14 Wb. B) 0.75 Wb. C) 1.5 Wb. D) 0.27 Wb. E) zero. <div style=padding-top: 35px> A uniform magnetic field of 0.5 T is parallel to the z-axis. A square coil of side 10 cm has 300 turns and lies in the xy plane as shown. The magnetic flux through the coil is

A) 0.14 Wb.
B) 0.75 Wb.
C) 1.5 Wb.
D) 0.27 Wb.
E) zero.
Question
You place a coil that has 200 turns and a cross-sectional area of 0.050 m2 so that its plane is normal to a field of 3.0 T. If the field is uniformly decreased to zero in 5.0 s, what EMF is induced in the coil?

A) 0.15 kV
B) 0.12 kV
C) 6.0 V
D) 50 mV
E) 10 mV
Question
<strong> A wire rod rolls with a speed of 8.0 m/s on two metallic rails, 30 cm apart, that form a closed loop. A uniform magnetic field of magnitude 1.20 T is into the page. The magnitude and direction of the current induced in the resistor R are</strong> A) 0.82 A, clockwise. B) 0.82 A, counterclockwise. C) 1.2 A, clockwise. D) 1.2 A, counterclockwise. E) 2.9 A, counterclockwise. <div style=padding-top: 35px> A wire rod rolls with a speed of 8.0 m/s on two metallic rails, 30 cm apart, that form a closed loop. A uniform magnetic field of magnitude 1.20 T is into the page. The magnitude and direction of the current induced in the resistor R are

A) 0.82 A, clockwise.
B) 0.82 A, counterclockwise.
C) 1.2 A, clockwise.
D) 1.2 A, counterclockwise.
E) 2.9 A, counterclockwise.
Question
A straight conductor 10-cm long is perpendicular to a uniform magnetic field of flux density 2.0 mT. When the conductor carries a current of 5.0 A, the force exerted on it by the field is

A) 0.25 kN.
B) 40 mN.
C) 1.0 mN.
D) zero.
E) 5.0 mN.
Question
A square coil of wire with side 9.0 cm and 8 turns sits in a uniform magnetic field of 2 T that is perpendicular to the plane of the coil. If an EMF of 0.5 V is induced in the coil when the magnetic field is reversed, find the time taken for the field reversal.

A) 0.26 s
B) 1.0 s
C) 5.8 s
D) 1.6 s
E) 0.52 s
Question
<strong> For which of the following diagrams will current flow in the clockwise direction?</strong> A) 1 and 2 B) 3 and 4 C) 1 and 3 D) 2 and 4 E) 2 and 3 <div style=padding-top: 35px> For which of the following diagrams will current flow in the clockwise direction?

A) 1 and 2
B) 3 and 4
C) 1 and 3
D) 2 and 4
E) 2 and 3
Question
<strong> A rectangular coil moving at a constant speed v enters a region of uniform magnetic field from the left. While the coil is exiting the field on the right, the direction of the magnetic force is</strong> A) 1. B) 2. C) 3. D) 4. E) 5. <div style=padding-top: 35px> A rectangular coil moving at a constant speed v enters a region of uniform magnetic field from the left. While the coil is exiting the field on the right, the direction of the magnetic force is

A) 1.
B) 2.
C) 3.
D) 4.
E) 5.
Question
<strong> A rectangular coil of length l = 20 cm and width w = 15 cm is moving at a constant speed v = 5 m/s. It enters a region of uniform magnetic field B = 0.2 T from the left. While the coil is completely immersed in the field, the voltage across points a and b is</strong> A) 0.20 V. B) 0.15 V. C) -0.20 V. D) -0.15 V. E) zero. <div style=padding-top: 35px> A rectangular coil of length l = 20 cm and width w = 15 cm is moving at a constant speed v = 5 m/s. It enters a region of uniform magnetic field B = 0.2 T from the left. While the coil is completely immersed in the field, the voltage across points a and b is

A) 0.20 V.
B) 0.15 V.
C) -0.20 V.
D) -0.15 V.
E) zero.
Question
You place a single loop of wire 0.50 m by 0.30 m perpendicular to a field of 2.0 T. In 30 ms you turn the loop until it is parallel with the field. The average EMF induced in this loop is

A) 0.30 V.
B) 10 V.
C) 5.0 V.
D) 67 V.
E) 20 V.
Question
<strong> A rectangular coil moving at a constant speed v enters a region of uniform magnetic field from the left. While the coil is entering the field on the left, the direction of the current through the right side of the loop is</strong> A) 1. B) 2. C) 3. D) 4. E) 5. <div style=padding-top: 35px> A rectangular coil moving at a constant speed v enters a region of uniform magnetic field from the left. While the coil is entering the field on the left, the direction of the current through the right side of the loop is

A) 1.
B) 2.
C) 3.
D) 4.
E) 5.
Question
0 s, the average EMF induced in the coil is

A) 0.10 kV.
B) 1.0 kV.
C) 1.0 mV.
D) 0.10 mV.
E) 10 mV.
Question
<strong> A rectangular coil moving at a constant speed v enters a region of uniform magnetic field from the left. While the coil is entering the field, the direction of the magnetic force is</strong> A) 1. B) 2. C) 3. D) 4. E) 5. <div style=padding-top: 35px> A rectangular coil moving at a constant speed v enters a region of uniform magnetic field from the left. While the coil is entering the field, the direction of the magnetic force is

A) 1.
B) 2.
C) 3.
D) 4.
E) 5.
Question
A conducting loop around a bar magnet begins to move away from the magnet. Which of the following statements is true?

A) The magnet and the loop repel one another.
B) The magnet and the loop attract one another.
C) The magnet is attracted, but the loop is repelled.
D) The magnet is repelled, but the loop is attracted.
E) The magnet and loop neither attract nor repel one another.
Question
The plane of a wire loop with an area of 0.20 m2 is perpendicular to a magnetic field of 50 mT. In 40 ms you rotate the loop 90º so that its plane is parallel to the magnetic field. The average EMF induced in the loop is

A) 0.25 V.
B) 6.0 V.
C) 3.0 V.
D) 4.0 V.
E) 1.3 V.
Question
The motion of a conducting rod through a magnetic field creates a motional EMF, ε. If the rod accelerates to twice the speed, what will the motional EMF be?

A) ε
B) 2ε
C) ε/2
D) 4ε
E) ε2
Question
<strong> A loop rests in the xy plane. The z-axis is normal to the plane and positive upward. The direction of the changing flux is indicated by the arrow on the z-axis. The diagram that correctly shows the direction of the resultant induced current in the loop is</strong> A) 1. B) 2. C) 3. D) 4. E) 5. <div style=padding-top: 35px> A loop rests in the xy plane. The z-axis is normal to the plane and positive upward. The direction of the changing flux is indicated by the arrow on the z-axis. The diagram that correctly shows the direction of the resultant induced current in the loop is

A) 1.
B) 2.
C) 3.
D) 4.
E) 5.
Question
A circular loop of radius 25 cm is sitting in a perpendicular magnetic field of 0.2 T. If the magnetic field strength changes to a value of 0.5 T in 2.5 s, calculate the induced EMF in the loop.

A) 7.5 × 10-3 V
B) 9.6 × 10-2 V
C) 4.0 × 10-2 V
D) 2.4 × 10-2 V
E) None of the above.
Question
Which of the following could NOT induce an electric field in a loop of wire?

A) It sits in a very strong constant magnetic field.
B) It sits in a small magnetic field which is getting weaker over time.
C) It is moved closer and closer to the end of a bar magnet.
D) It is squeezed so the area of the loop gets smaller while it is exposed to a constant magnetic field.
E) It is rotated at a constant rate while it is exposed to a constant magnetic field.
Question
A 25-cm-long conducting rod moves at a speed of 12 m/s in a plane perpendicular to a uniform magnetic field of magnitude 0.080 T. What is the induced potential difference between the ends of the rod?

A) 24 V
B) 2.4 V
C) 0.24 V
D) 0.60 kV
E) 6.0 V
Question
<strong> A copper ring lies in the yz plane as shown. The magnet's long axis lies along the x-axis. Induced current flows through the ring as indicated. The magnet</strong> A) must be moving away from the ring. B) must be moving toward the ring. C) must be moving either away from or toward the ring. D) is not necessarily moving. E) must remain stationary to keep the current flowing. <div style=padding-top: 35px> A copper ring lies in the yz plane as shown. The magnet's long axis lies along the x-axis. Induced current flows through the ring as indicated. The magnet

A) must be moving away from the ring.
B) must be moving toward the ring.
C) must be moving either away from or toward the ring.
D) is not necessarily moving.
E) must remain stationary to keep the current flowing.
Question
A square coil of wire with side 8.0 cm and 50 turns sits in a uniform magnetic field that is perpendicular to the plane of the coil. The coil is pulled quickly out of the magnetic field in 0.2 s. If the resistance of the coil is 15 ohm and a current of 12 mA is induced in the coil, calculate the value of the magnetic field.

A) 5.6 T
B) 0.11 T
C) 7.5 × 10-3 T
D) 1.4 T
E) 9.1 T
Question
Which law does the following statement express? "In all cases of electromagnetic induction, the induced voltages have a direction such that the currents they produce oppose the effect that produces them."

A) Maxwell's law
B) Fleming's rule
C) Lenz's law
D) Gauss's law
E) Ampère's law
Question
A circular coil of wire sits in a magnetic field of strength 0.5 mT. The wire has 300 turns, and has a radius of 0.04 m. If it is spinning at a rate of 55 rad/s, what is the angular frequency of the current generated?

A) 0.041 rad/s
B) 0.33 rad/s
C) 55 rad/s
D) It generates a constant, steady current.
E) None of the above.
Question
A coil of wire rotates at a constant rate in a uniform magnetic field. Which of the following would NOT increase the induced current in the loop?

A) If the coil spun faster.
B) If the magnetic field was stronger.
C) If the coil had more turns of wire on it.
D) If the coil's area was larger.
E) All of the above would increase the induced current.
Question
<strong> A wire rod rolls with a speed of 30 m/s on two metallic rails, 2.0 m apart, that form a closed loop. The power dissipated in the resistor R and the current direction are, respectively,</strong> A) 33 mW, clockwise. B) 33 mW, counterclockwise. C) 2.0 W, counterclockwise. D) 10 W, clockwise. E) 10 W, counterclockwise. <div style=padding-top: 35px> A wire rod rolls with a speed of 30 m/s on two metallic rails, 2.0 m apart, that form a closed loop. The power dissipated in the resistor R and the current direction are, respectively,

A) 33 mW, clockwise.
B) 33 mW, counterclockwise.
C) 2.0 W, counterclockwise.
D) 10 W, clockwise.
E) 10 W, counterclockwise.
Question
<strong> A wire rod rolls with a speed of 20 m/s on two metallic rails, 1.0 m apart, that form a closed loop. If the magnetic field is 1.5 T into the page, the power dissipated in the resistor R and the current direction are, respectively,</strong> A) 33 mW, clockwise. B) 33 mW, counterclockwise. C) 76 mW, counterclockwise. D) 76 mW, clockwise. E) 50 mW, clockwise. <div style=padding-top: 35px> A wire rod rolls with a speed of 20 m/s on two metallic rails, 1.0 m apart, that form a closed loop. If the magnetic field is 1.5 T into the page, the power dissipated in the resistor R and the current direction are, respectively,

A) 33 mW, clockwise.
B) 33 mW, counterclockwise.
C) 76 mW, counterclockwise.
D) 76 mW, clockwise.
E) 50 mW, clockwise.
Question
A metal disk rotates about its central axis at an angular frequency of 800 radians per second in a uniform magnetic field of 0.8 T. The diameter of the disk is 8 cm. What is the magnitude of the voltage difference between the center and edge of the disk?

A) 0 V
B) 0.80 V
C) 0.51 V
D) 1.0 V
E) 3.1 V
Question
2 V, then calculate the number of revolutions per second of the rod.

A) 6.7 × 101 revs/s
B) 6.7 × 103 revs/s
C) 4.7 × 10-3 revs/s
D) 6.7 × 102 revs/s
E) 2.1 × 102 revs/s
Question
<strong> A 0.8-m-long pole rotates about a perpendicular axis at one end. As the pole rotates, it passes through Earth's magnetic field, which has a perpendicular component of 3 × 10<sup>-</sup><sup>5 </sup>T to the plane of rotation. If the pole rotates with a frequency of 5 revolutions per second, calculate the induced EMF across the ends of the pole.</strong> A) 3.0 × 10<sup>-</sup><sup>4</sup> V B) 1.2 × 10<sup>-</sup><sup>5</sup> V C) 1.0 × 10<sup>-</sup><sup>4</sup> V D) 3.8 × 10<sup>-</sup><sup>4</sup> V E) 2.4 × 10<sup>-</sup><sup>4</sup> V <div style=padding-top: 35px> A 0.8-m-long pole rotates about a perpendicular axis at one end. As the pole rotates, it passes through Earth's magnetic field, which has a perpendicular component of 3 × 10-5 T to the plane of rotation. If the pole rotates with a frequency of 5 revolutions per second, calculate the induced EMF across the ends of the pole.

A) 3.0 × 10-4 V
B) 1.2 × 10-5 V
C) 1.0 × 10-4 V
D) 3.8 × 10-4 V
E) 2.4 × 10-4 V
Question
What is the average induced EMF between the ends of the wings of a plane flying at a speed of 500 km/hr when the vertical component of Earth's magnetic field is 3 × 10-5 T? The distance between the wingtips is 25 m.

A) 0.20 V
B) 0.050 V
C) 6.0 V
D) 0.10 V
E) None of the above.
Question
5 s, calculate the induced current in the loop if it is in series with a 20 ohm resistor.

A) 5.7 × 10-2 A
B) 1.2 × 10-2 A
C) 2.8 × 10-3 A
D) 6.0 × 10-4 A
E) 1.1 A
Question
A circular coil of wire sits in a magnetic field of strength 0.5 mT. The wire has 300 turns, and has a radius of 0.04 m. If it is spinning at a rate of 55 rad/s, what is the maximum induced current in the loop?

A) zero
B) 0.330 A
C) 0.041 A
D) 41.46 A
E) None of the above.
Unlock Deck
Sign up to unlock the cards in this deck!
Unlock Deck
Unlock Deck
1/50
auto play flashcards
Play
simple tutorial
Full screen (f)
exit full mode
Deck 20: Electromagnetic Induction
1
<strong> A rectangular loop of wire 0.10 m by 0.20 m) carries a current of 5.0 A in a counterclockwise direction. The loop is oriented, as shown, in a uniform magnetic field of 1.5 T. The magnetic flux of B is</strong> A) 0.026 T · m<sup>2</sup>. B) 1.3 T · m<sup>2</sup>.<sup> </sup> C) 0.015 T · m<sup>2</sup>.<sup> </sup> D) 0.030 T · m<sup>2</sup>.<sup> </sup> E) 1.5 T · m<sup>2</sup>. A rectangular loop of wire 0.10 m by 0.20 m) carries a current of 5.0 A in a counterclockwise direction. The loop is oriented, as shown, in a uniform magnetic field of 1.5 T. The magnetic flux of B is

A) 0.026 T · m2.
B) 1.3 T · m2.
C) 0.015 T · m2.
D) 0.030 T · m2.
E) 1.5 T · m2.
0.026 T · m2.
2
A 3.0-cm by 5.0-cm rectangular coil has 100 turns. Its axis makes an angle of 55º with a uniform magnetic field of 0.35 T. It requires 0.33 s to turn the coil until its plane is perpendicular to the magnetic field. What is the average) magnitude of the induced EMF?

A) 0.16 V
B) 0.13 V
C) 91 mV
D) 68 mV
E) 29 mV
91 mV
3
<strong> A rectangle is bent on two sides at 90º so that one end lies along the xy-plane while the other end lies along the xz-plane. The length a = 10 cm and b = 30 cm. At t = 0, a magnetic field of strength B = 0.1 T lies in the yz-plane and points at an angle Ɵ = 30 and 10 ms later the field points in the opposite direction. The EMF induced in the rectangle is</strong> A) 10.4 V. B) 6.0 V. C) 12 V. D) 8.2 V. E) None of these is correct. A rectangle is bent on two sides at 90º so that one end lies along the xy-plane while the other end lies along the xz-plane. The length a = 10 cm and b = 30 cm. At t = 0, a magnetic field of strength B = 0.1 T lies in the yz-plane and points at an angle Ɵ = 30 and 10 ms later the field points in the opposite direction. The EMF induced in the rectangle is

A) 10.4 V.
B) 6.0 V.
C) 12 V.
D) 8.2 V.
E) None of these is correct.
8.2 V.
4
A circular wire coil of radius 25 cm and 20 turns is sitting in a perpendicular magnetic field of 0.20 T. If the coil is rotated 90o, what is the magnitude of the change in magnetic flux through the loop?

A) 0 Wb
B) 1.6 Wb
C) 0.080 Wb
D) 0.80 Wb
E) 0.040 Wb
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
5
<strong> For which of the following diagrams) will current flow through the lightbulb?</strong> A) 1 B) 2 C) 3 D) 4 E) 1 and 2 For which of the following diagrams) will current flow through the lightbulb?

A) 1
B) 2
C) 3
D) 4
E) 1 and 2
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
6
<strong> A rectangular surface of area 1.0 m<sup>2</sup> is hinged along the z-axis and makes an angle of 37 with the yz plane. If the local magnetic field is 10 T along the positive x-axis, the magnetic flux through this surface is</strong> A) 6.0 T · m<sup>2</sup>. B) 8.0 T · m<sup>2</sup>.<sup> </sup> C) 10 T · m<sup>2</sup>.<sup> </sup> D) 13 T · m<sup>2</sup>. E) 17 T · m<sup>2</sup>. A rectangular surface of area 1.0 m2 is hinged along the z-axis and makes an angle of 37 with the yz plane. If the local magnetic field is 10 T along the positive x-axis, the magnetic flux through this surface is

A) 6.0 T · m2.
B) 8.0 T · m2.
C) 10 T · m2.
D) 13 T · m2.
E) 17 T · m2.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
7
<strong> A rectangle is bent on two sides at 90º so that one end lies along the xy plane while the other end lies along the xz plane. The length a = 10 cm and b = 30 cm. A magnetic field of strength B = 0.1 T lies in the yz plane and points at an angle Ɵ = 30º with the y-axis. The flux through the rectangle is</strong> A) 52.0 mWb. B) 30.0 mWb. C) 41.0 mWb. D) 60.0 mWb. E) None of these is correct. A rectangle is bent on two sides at 90º so that one end lies along the xy plane while the other end lies along the xz plane. The length a = 10 cm and b = 30 cm. A magnetic field of strength B = 0.1 T lies in the yz plane and points at an angle Ɵ = 30º with the y-axis. The flux through the rectangle is

A) 52.0 mWb.
B) 30.0 mWb.
C) 41.0 mWb.
D) 60.0 mWb.
E) None of these is correct.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
8
Which of the following is a vector quantity?

A) current
B) charge
C) magnetic field
D) electric potential
E) magnetic flux
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
9
<strong> A square loop of sides a lies in the yz plane with one corner at the origin. A varying magnetic field B = k<sub>y</sub>. points in the positive x direction and passes through the loop k is a constant). The magnetic flux through the loop is</strong> A) ka<sup>2</sup>. B) ka<sup>2</sup>/2. C) ka<sup>3</sup>/2. D) ka<sup>3</sup>/3. E) None of these is correct. A square loop of sides "a" lies in the yz plane with one corner at the origin. A varying magnetic field B = ky. points in the positive x direction and passes through the loop k is a constant). The magnetic flux through the loop is

A) ka2.
B) ka2/2.
C) ka3/2.
D) ka3/3.
E) None of these is correct.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
10
<strong> A uniform magnetic field of magnitude 0.5 T is parallel to the x-axis. A square coil of side 10 cm has 300 turns and makes an angle of 60 with the z-axis as shown. The total magnetic flux through the coil is approximately</strong> A) 0.14 Wb. B) 0.75 Wb. C) 1.5 Wb. D) 0.27 Wb. E) 0.56 Wb. A uniform magnetic field of magnitude 0.5 T is parallel to the x-axis. A square coil of side 10 cm has 300 turns and makes an angle of 60 with the z-axis as shown. The total magnetic flux through the coil is approximately

A) 0.14 Wb.
B) 0.75 Wb.
C) 1.5 Wb.
D) 0.27 Wb.
E) 0.56 Wb.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
11
A 100-turn coil has a radius of 7.50 cm and a resistance of 50.0 Ω. At what rate must a perpendicular magnetic field change to produce a current of 5.00 A in the coil?

A) 275 T/s
B) 134 T/s
C) 329 T/s
D) 141 T/s
E) 106 T/s
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
12
The plane of a circular, 200-turn coil of radius 5.25 cm is perpendicular to a uniform magnetic field produced by a large electromagnet. This field is changed at a steady rate from 0.650 T to 0.150 T in 0.0100 s. What is the magnitude of the EMF induced in the coil?

A) 110 V
B) 170 V
C) 1.7 V
D) 26 V
E) 87 V
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
13
The instantaneous induced EMF in a coil of wire located in a magnetic field

A) depends on the time rate of change of flux through the coil.
B) depends on the instantaneous value of flux through the coil.
C) is independent of the area of the coil.
D) is independent of the number of turns of the coil.
E) is determined by the resistance in series with the coil.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
14
0 × 10-2 Wb. Calculate the current through the solenoid.

A) 53 A
B) 5.4 A
C) 17 A
D) 1.3 A
E) 34 A
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
15
<strong> A uniform magnetic field of 0.5 T is parallel to the y-axis. A square coil of side 10 cm has 300 turns and lies in the xy plane as shown. The magnetic flux through the coil is</strong> A) 0.14 Wb. B) 0.75 Wb. C) 1.5 Wb. D) 0.27 Wb. E) None of these answers is correct. A uniform magnetic field of 0.5 T is parallel to the y-axis. A square coil of side 10 cm has 300 turns and lies in the xy plane as shown. The magnetic flux through the coil is

A) 0.14 Wb.
B) 0.75 Wb.
C) 1.5 Wb.
D) 0.27 Wb.
E) None of these answers is correct.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
16
A 3.0-cm by 5.0-cm rectangular coil has 100 turns. Its axis makes an angle of 55 with a uniform magnetic field of 0.35 T. What is the total magnetic flux through this coil?

A) 3.0 × 10-4 Wb
B) 4.3 × 10-4 Wb
C) 3.0 × 10-2 Wb
D) 4.3 × 10-2 Wb
E) 5.3 × 10-2 Wb
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
17
Suppose you double the magnetic field in a given region and quadruple the area through which this magnetic field exists. The effect on the flux through this area would be to

A) leave it unchanged.
B) double it.
C) quadruple it.
D) increase it by a factor of 6.
E) increase it by a factor of 8.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
18
<strong> A uniform magnetic field of 0.5 T is parallel to the x-axis. A square coil of side 10 cm has 300 turns and lies in the xy plane as shown. The magnetic flux through the coil is</strong> A) 0.14 Wb. B) 0.75 Wb. C) 1.5 Wb. D) 0.27 Wb. E) zero. A uniform magnetic field of 0.5 T is parallel to the x-axis. A square coil of side 10 cm has 300 turns and lies in the xy plane as shown. The magnetic flux through the coil is

A) 0.14 Wb.
B) 0.75 Wb.
C) 1.5 Wb.
D) 0.27 Wb.
E) zero.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
19
<strong> A uniform magnetic field of 0.5 T is parallel to the z-axis. A square coil of side 10 cm has 300 turns and lies in the xy plane as shown. The magnetic flux through the coil is</strong> A) 0.14 Wb. B) 0.75 Wb. C) 1.5 Wb. D) 0.27 Wb. E) zero. A uniform magnetic field of 0.5 T is parallel to the z-axis. A square coil of side 10 cm has 300 turns and lies in the xy plane as shown. The magnetic flux through the coil is

A) 0.14 Wb.
B) 0.75 Wb.
C) 1.5 Wb.
D) 0.27 Wb.
E) zero.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
20
You place a coil that has 200 turns and a cross-sectional area of 0.050 m2 so that its plane is normal to a field of 3.0 T. If the field is uniformly decreased to zero in 5.0 s, what EMF is induced in the coil?

A) 0.15 kV
B) 0.12 kV
C) 6.0 V
D) 50 mV
E) 10 mV
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
21
<strong> A wire rod rolls with a speed of 8.0 m/s on two metallic rails, 30 cm apart, that form a closed loop. A uniform magnetic field of magnitude 1.20 T is into the page. The magnitude and direction of the current induced in the resistor R are</strong> A) 0.82 A, clockwise. B) 0.82 A, counterclockwise. C) 1.2 A, clockwise. D) 1.2 A, counterclockwise. E) 2.9 A, counterclockwise. A wire rod rolls with a speed of 8.0 m/s on two metallic rails, 30 cm apart, that form a closed loop. A uniform magnetic field of magnitude 1.20 T is into the page. The magnitude and direction of the current induced in the resistor R are

A) 0.82 A, clockwise.
B) 0.82 A, counterclockwise.
C) 1.2 A, clockwise.
D) 1.2 A, counterclockwise.
E) 2.9 A, counterclockwise.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
22
A straight conductor 10-cm long is perpendicular to a uniform magnetic field of flux density 2.0 mT. When the conductor carries a current of 5.0 A, the force exerted on it by the field is

A) 0.25 kN.
B) 40 mN.
C) 1.0 mN.
D) zero.
E) 5.0 mN.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
23
A square coil of wire with side 9.0 cm and 8 turns sits in a uniform magnetic field of 2 T that is perpendicular to the plane of the coil. If an EMF of 0.5 V is induced in the coil when the magnetic field is reversed, find the time taken for the field reversal.

A) 0.26 s
B) 1.0 s
C) 5.8 s
D) 1.6 s
E) 0.52 s
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
24
<strong> For which of the following diagrams will current flow in the clockwise direction?</strong> A) 1 and 2 B) 3 and 4 C) 1 and 3 D) 2 and 4 E) 2 and 3 For which of the following diagrams will current flow in the clockwise direction?

A) 1 and 2
B) 3 and 4
C) 1 and 3
D) 2 and 4
E) 2 and 3
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
25
<strong> A rectangular coil moving at a constant speed v enters a region of uniform magnetic field from the left. While the coil is exiting the field on the right, the direction of the magnetic force is</strong> A) 1. B) 2. C) 3. D) 4. E) 5. A rectangular coil moving at a constant speed v enters a region of uniform magnetic field from the left. While the coil is exiting the field on the right, the direction of the magnetic force is

A) 1.
B) 2.
C) 3.
D) 4.
E) 5.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
26
<strong> A rectangular coil of length l = 20 cm and width w = 15 cm is moving at a constant speed v = 5 m/s. It enters a region of uniform magnetic field B = 0.2 T from the left. While the coil is completely immersed in the field, the voltage across points a and b is</strong> A) 0.20 V. B) 0.15 V. C) -0.20 V. D) -0.15 V. E) zero. A rectangular coil of length l = 20 cm and width w = 15 cm is moving at a constant speed v = 5 m/s. It enters a region of uniform magnetic field B = 0.2 T from the left. While the coil is completely immersed in the field, the voltage across points a and b is

A) 0.20 V.
B) 0.15 V.
C) -0.20 V.
D) -0.15 V.
E) zero.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
27
You place a single loop of wire 0.50 m by 0.30 m perpendicular to a field of 2.0 T. In 30 ms you turn the loop until it is parallel with the field. The average EMF induced in this loop is

A) 0.30 V.
B) 10 V.
C) 5.0 V.
D) 67 V.
E) 20 V.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
28
<strong> A rectangular coil moving at a constant speed v enters a region of uniform magnetic field from the left. While the coil is entering the field on the left, the direction of the current through the right side of the loop is</strong> A) 1. B) 2. C) 3. D) 4. E) 5. A rectangular coil moving at a constant speed v enters a region of uniform magnetic field from the left. While the coil is entering the field on the left, the direction of the current through the right side of the loop is

A) 1.
B) 2.
C) 3.
D) 4.
E) 5.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
29
0 s, the average EMF induced in the coil is

A) 0.10 kV.
B) 1.0 kV.
C) 1.0 mV.
D) 0.10 mV.
E) 10 mV.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
30
<strong> A rectangular coil moving at a constant speed v enters a region of uniform magnetic field from the left. While the coil is entering the field, the direction of the magnetic force is</strong> A) 1. B) 2. C) 3. D) 4. E) 5. A rectangular coil moving at a constant speed v enters a region of uniform magnetic field from the left. While the coil is entering the field, the direction of the magnetic force is

A) 1.
B) 2.
C) 3.
D) 4.
E) 5.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
31
A conducting loop around a bar magnet begins to move away from the magnet. Which of the following statements is true?

A) The magnet and the loop repel one another.
B) The magnet and the loop attract one another.
C) The magnet is attracted, but the loop is repelled.
D) The magnet is repelled, but the loop is attracted.
E) The magnet and loop neither attract nor repel one another.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
32
The plane of a wire loop with an area of 0.20 m2 is perpendicular to a magnetic field of 50 mT. In 40 ms you rotate the loop 90º so that its plane is parallel to the magnetic field. The average EMF induced in the loop is

A) 0.25 V.
B) 6.0 V.
C) 3.0 V.
D) 4.0 V.
E) 1.3 V.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
33
The motion of a conducting rod through a magnetic field creates a motional EMF, ε. If the rod accelerates to twice the speed, what will the motional EMF be?

A) ε
B) 2ε
C) ε/2
D) 4ε
E) ε2
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
34
<strong> A loop rests in the xy plane. The z-axis is normal to the plane and positive upward. The direction of the changing flux is indicated by the arrow on the z-axis. The diagram that correctly shows the direction of the resultant induced current in the loop is</strong> A) 1. B) 2. C) 3. D) 4. E) 5. A loop rests in the xy plane. The z-axis is normal to the plane and positive upward. The direction of the changing flux is indicated by the arrow on the z-axis. The diagram that correctly shows the direction of the resultant induced current in the loop is

A) 1.
B) 2.
C) 3.
D) 4.
E) 5.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
35
A circular loop of radius 25 cm is sitting in a perpendicular magnetic field of 0.2 T. If the magnetic field strength changes to a value of 0.5 T in 2.5 s, calculate the induced EMF in the loop.

A) 7.5 × 10-3 V
B) 9.6 × 10-2 V
C) 4.0 × 10-2 V
D) 2.4 × 10-2 V
E) None of the above.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
36
Which of the following could NOT induce an electric field in a loop of wire?

A) It sits in a very strong constant magnetic field.
B) It sits in a small magnetic field which is getting weaker over time.
C) It is moved closer and closer to the end of a bar magnet.
D) It is squeezed so the area of the loop gets smaller while it is exposed to a constant magnetic field.
E) It is rotated at a constant rate while it is exposed to a constant magnetic field.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
37
A 25-cm-long conducting rod moves at a speed of 12 m/s in a plane perpendicular to a uniform magnetic field of magnitude 0.080 T. What is the induced potential difference between the ends of the rod?

A) 24 V
B) 2.4 V
C) 0.24 V
D) 0.60 kV
E) 6.0 V
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
38
<strong> A copper ring lies in the yz plane as shown. The magnet's long axis lies along the x-axis. Induced current flows through the ring as indicated. The magnet</strong> A) must be moving away from the ring. B) must be moving toward the ring. C) must be moving either away from or toward the ring. D) is not necessarily moving. E) must remain stationary to keep the current flowing. A copper ring lies in the yz plane as shown. The magnet's long axis lies along the x-axis. Induced current flows through the ring as indicated. The magnet

A) must be moving away from the ring.
B) must be moving toward the ring.
C) must be moving either away from or toward the ring.
D) is not necessarily moving.
E) must remain stationary to keep the current flowing.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
39
A square coil of wire with side 8.0 cm and 50 turns sits in a uniform magnetic field that is perpendicular to the plane of the coil. The coil is pulled quickly out of the magnetic field in 0.2 s. If the resistance of the coil is 15 ohm and a current of 12 mA is induced in the coil, calculate the value of the magnetic field.

A) 5.6 T
B) 0.11 T
C) 7.5 × 10-3 T
D) 1.4 T
E) 9.1 T
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
40
Which law does the following statement express? "In all cases of electromagnetic induction, the induced voltages have a direction such that the currents they produce oppose the effect that produces them."

A) Maxwell's law
B) Fleming's rule
C) Lenz's law
D) Gauss's law
E) Ampère's law
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
41
A circular coil of wire sits in a magnetic field of strength 0.5 mT. The wire has 300 turns, and has a radius of 0.04 m. If it is spinning at a rate of 55 rad/s, what is the angular frequency of the current generated?

A) 0.041 rad/s
B) 0.33 rad/s
C) 55 rad/s
D) It generates a constant, steady current.
E) None of the above.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
42
A coil of wire rotates at a constant rate in a uniform magnetic field. Which of the following would NOT increase the induced current in the loop?

A) If the coil spun faster.
B) If the magnetic field was stronger.
C) If the coil had more turns of wire on it.
D) If the coil's area was larger.
E) All of the above would increase the induced current.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
43
<strong> A wire rod rolls with a speed of 30 m/s on two metallic rails, 2.0 m apart, that form a closed loop. The power dissipated in the resistor R and the current direction are, respectively,</strong> A) 33 mW, clockwise. B) 33 mW, counterclockwise. C) 2.0 W, counterclockwise. D) 10 W, clockwise. E) 10 W, counterclockwise. A wire rod rolls with a speed of 30 m/s on two metallic rails, 2.0 m apart, that form a closed loop. The power dissipated in the resistor R and the current direction are, respectively,

A) 33 mW, clockwise.
B) 33 mW, counterclockwise.
C) 2.0 W, counterclockwise.
D) 10 W, clockwise.
E) 10 W, counterclockwise.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
44
<strong> A wire rod rolls with a speed of 20 m/s on two metallic rails, 1.0 m apart, that form a closed loop. If the magnetic field is 1.5 T into the page, the power dissipated in the resistor R and the current direction are, respectively,</strong> A) 33 mW, clockwise. B) 33 mW, counterclockwise. C) 76 mW, counterclockwise. D) 76 mW, clockwise. E) 50 mW, clockwise. A wire rod rolls with a speed of 20 m/s on two metallic rails, 1.0 m apart, that form a closed loop. If the magnetic field is 1.5 T into the page, the power dissipated in the resistor R and the current direction are, respectively,

A) 33 mW, clockwise.
B) 33 mW, counterclockwise.
C) 76 mW, counterclockwise.
D) 76 mW, clockwise.
E) 50 mW, clockwise.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
45
A metal disk rotates about its central axis at an angular frequency of 800 radians per second in a uniform magnetic field of 0.8 T. The diameter of the disk is 8 cm. What is the magnitude of the voltage difference between the center and edge of the disk?

A) 0 V
B) 0.80 V
C) 0.51 V
D) 1.0 V
E) 3.1 V
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
46
2 V, then calculate the number of revolutions per second of the rod.

A) 6.7 × 101 revs/s
B) 6.7 × 103 revs/s
C) 4.7 × 10-3 revs/s
D) 6.7 × 102 revs/s
E) 2.1 × 102 revs/s
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
47
<strong> A 0.8-m-long pole rotates about a perpendicular axis at one end. As the pole rotates, it passes through Earth's magnetic field, which has a perpendicular component of 3 × 10<sup>-</sup><sup>5 </sup>T to the plane of rotation. If the pole rotates with a frequency of 5 revolutions per second, calculate the induced EMF across the ends of the pole.</strong> A) 3.0 × 10<sup>-</sup><sup>4</sup> V B) 1.2 × 10<sup>-</sup><sup>5</sup> V C) 1.0 × 10<sup>-</sup><sup>4</sup> V D) 3.8 × 10<sup>-</sup><sup>4</sup> V E) 2.4 × 10<sup>-</sup><sup>4</sup> V A 0.8-m-long pole rotates about a perpendicular axis at one end. As the pole rotates, it passes through Earth's magnetic field, which has a perpendicular component of 3 × 10-5 T to the plane of rotation. If the pole rotates with a frequency of 5 revolutions per second, calculate the induced EMF across the ends of the pole.

A) 3.0 × 10-4 V
B) 1.2 × 10-5 V
C) 1.0 × 10-4 V
D) 3.8 × 10-4 V
E) 2.4 × 10-4 V
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
48
What is the average induced EMF between the ends of the wings of a plane flying at a speed of 500 km/hr when the vertical component of Earth's magnetic field is 3 × 10-5 T? The distance between the wingtips is 25 m.

A) 0.20 V
B) 0.050 V
C) 6.0 V
D) 0.10 V
E) None of the above.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
49
5 s, calculate the induced current in the loop if it is in series with a 20 ohm resistor.

A) 5.7 × 10-2 A
B) 1.2 × 10-2 A
C) 2.8 × 10-3 A
D) 6.0 × 10-4 A
E) 1.1 A
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
50
A circular coil of wire sits in a magnetic field of strength 0.5 mT. The wire has 300 turns, and has a radius of 0.04 m. If it is spinning at a rate of 55 rad/s, what is the maximum induced current in the loop?

A) zero
B) 0.330 A
C) 0.041 A
D) 41.46 A
E) None of the above.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
locked card icon
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Examlex
Examlex
Work With Us
Policies
Download the App
Scan to downloadDownload the App
qr-code
Links
Links
Work With Us
Download the App

Scan to downloadDownload the App
qr-code

Copyright © 2025 Examlex LLC.
  • facebook-footer
  • instagram-footer
  • x-footer
  • tiktok
  • Linktree