Question 1

In the figure,a straight wire carries a current I.The wire passes through the center of a toroidal coil.If the current in the wire is quickly reduced to zero,the induced current through the resistor R is

A) from a to b.
B) from b to a.
C) There is no induced current through the resistor.

from b to a.

Accepted Answer

According to Lenz's Law, the induced current in a closed loop will be in such a direction as to oppose the change that produced it. In this case, when the current in the wire is quickly reduced to zero, the magnetic field inside the toroidal coil starts to collapse. To oppose this change, an induced current is produced in the opposite direction, which is from b to a. Therefore, the answer is B, from b to a.

Question 2

In the figure,a straight wire carries a steady current I perpendicular to the plane of the page.A bar is in contact with a pair of circular rails,and rotates about the straight wire.The direction of the induced current through the resistor R is

A) from a to b.
B) from b to a.
C) There is no induced current through the resistor.

Accepted Answer

There is no induced current through the resistor.

Question 3

In the figure,two parallel wires carry currents of magnitude I in opposite directions.A rectangular loop is midway between the wires.The current I is decreasing with time.The induced current through the resistor R is

A) from a to b.
B) from b to a.
C) There is no induced current through the resistor.

from a to b.

Accepted Answer

As the current in the wires is decreasing with time, this will create a changing magnetic field in the region between the wires. This changing magnetic field will induce an emf in the loop according to Faraday's law of electromagnetic induction. The induced emf will cause a current to flow in the loop, and the direction of this current will be such as to create a magnetic field that opposes the changing magnetic field that induced it (Lenz's law).

By applying the right-hand rule for the direction of the induced current, we can see that the induced current in the loop will flow clockwise when viewed from above. This means that the side of the loop closest to wire B will be at a higher potential than the side closest to wire A. Therefore, the current will flow from point a to point b through the resistor R, as shown in the figure.

Question 4

In the figure,two solenoids are side by side.The switch S,initially open,is closed.The induced current through the resistor R is  &#10;A) from a to b.&#10;B) from b to a.&#10;C) There is no induced current through the resistor.

Accepted Answer

The answer of In the figure,two solenoids are side by...

Question 5

In the figure,the inner loop carries a clockwise current I that is increasing.The resistor R is in the outer loop and both loops are in the same plane.The induced current through the resistor R is  &#10;A) from a to b.&#10;B) from b to a.&#10;C) There is no induced current through the resistor.

Accepted Answer

According to Lenz's Law, the induced current in the outer loop will flow in such a direction as to oppose the change in magnetic flux through it. As the current in the inner loop (clockwise) is increasing, it will create a magnetic field which will be directed out of the page. To oppose this change in flux, the induced current in the outer loop (R) should flow from a to b, creating a magnetic field into the page, which will partially cancel out the magnetic field created by the inner loop. Therefore, the correct choice is A.

Question 6

In the figure,a bar magnet moves away from the solenoid.The induced current through the resistor R is  &#10;A) from a to b.&#10;B) from b to a.&#10;C) There is no induced current through the resistor.

Accepted Answer

The answer of In the figure,a bar magnet moves away...

Question 7

In the figure,a C-shaped conductor is in a uniform magnetic field B,which is increasing.The polarity of the induced emf in terminals X and Y is  &#10;A) X and Y are at the same potential.&#10;B) X is positive and Y is negative.&#10;C) X is negative and Y is positive.

Accepted Answer

According to Faraday's Law of Induction, a changing magnetic field induces an emf in a conductor. In this case, the magnetic field is increasing, which means there will be an induced emf in the conductor. The direction of the induced emf can be determined using Lenz's Law, which states that the induced emf will create a magnetic field that opposes the original changing magnetic field. Since the magnetic field is increasing, the induced emf will create a magnetic field in the opposite direction. By applying the right-hand rule for current, we see that the induced current flows clockwise from X to Y, which means that X will be negative and Y will be positive. Therefore, the correct choice is C.

Question 8

A closed,circular loop has a counter-clockwise current flowing through it as viewed by a person on the right,as shown in the figure.If a second closed circular loop with the same radius approaches this loop with constant velocity along a common axis as shown,in what direction will a current flow in the approaching loop as viewed by the person on the right?

A) clockwise
B) counter-clockwise
C) No current will be induced because the velocity of approach is constant.

Accepted Answer

According to Faraday's law of electromagnetic induction, an electric current will be induced in the approaching loop due to the changing magnetic field of the first loop. Since the current in the first loop is counter-clockwise, the induced current in the approaching loop will be in a direction that produces a magnetic field that opposes the change in the magnetic field of the first loop. This means that the induced current in the approaching loop will also be counter-clockwise. However, approaching means the second loop is moving towards the first loop. By the right-hand rule, the direction of the induced current will be such that the magnetic field produced by it will oppose the increasing magnetic field of the first loop. This means that the induced current in the approaching loop will flow in a clockwise direction as viewed by the person on the right.

Question 9

A large magnetic flux change through a coil must induce a greater emf in the coil than a small flux change.

Accepted Answer

The answer of A large magnetic flux change through a...

Question 10

In the figure,two solenoids are approaching each other with speed v as shown.The induced current through the resistor R is  &#10;A) from a to b.&#10;B) from b to a.&#10;C) There is no induced current through the resistor.

Accepted Answer

As the solenoids are approaching each other, the magnetic flux through the loop will increase. According to Faraday's law of electromagnetic induction, this will induce a current in the direction that opposes the change in flux. In this case, the induced current will flow from a to b, opposing the increasing magnetic flux.

Question 11

A circular metal ring is situated above a long straight wire,as shown in the figure.The straight wire has a current flowing to the right,and the current is increasing in time at a constant rate.Which statement is true?

A) There is an induced current in the metal ring, flowing in a clockwise direction.
B) There is an induced current in the metal ring, flowing in a counter-clockwise direction.
C) There is no induced current in the metal ring because the current in the wire is changing at a constant rate.

Accepted Answer

The answer of A circular metal ring is situated above...

Question 12

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 direction of the induced current in this coil as the field fades?

A) counter-clockwise then clockwise
B) clockwise then counter-clockwise
C) clockwise
D) counter-clockwise
E) There is no current induced in the coil.

Accepted Answer

The answer of A coil lies flat on a tabletop...

Question 13

The figure shows three metal coils labeled A,B,and C heading towards a region where a uniform static magnetic field exists.The coils move with the same constant velocity and all have the same resistance.Their relative sizes are indicated by the background grid.As they enter the magnetic field the coils will have an induced electric current in them.For which coil will the current be the greatest?

A) A
B) B
C) C
D) The current is the same in all three cases since all the coils move with the same velocity.
E) There is no induced current in any of the coils since they move at constant velocity.

Accepted Answer

The answer of The figure shows three metal coils labeled...

Question 14

A bar magnet is held vertically with its upper end a little bit below the center of a horizontal metal ring.The upper end of the magnet is its north pole,as shown in the figure.The bar magnet is now dropped.An observer views the ring from above its center.To this observer,how will the induced current in the ring behave as the magnet falls?

A) The current will flow clockwise and be increasing.
B) The current will flow clockwise and be decreasing.
C) The current will flow counter-clockwise and be increasing.
D) The current will flow counter-clockwise and be decreasing.
E) The induced current will be zero.

Accepted Answer

The answer of A bar magnet is held vertically with...

Question 15

The three loops of wire shown in the figure are all subject to the same uniform magnetic field that does not vary with time.Loop 1 oscillates back and forth as 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 only
B) loop 2 only
C) loop 3 only
D) loops 1 and 2
E) loops 2 and 3

Accepted Answer

The answer of The three loops of wire shown in...

Question 16

A capacitor is charging in a simple RC circuit with a dc battery.Which one of the following statements about this capacitor is accurate?&#10;A) There is a magnetic field between the capacitor plates because charge travels between the plates by jumping from one plate to the other.&#10;B) There is no magnetic field between the capacitor plates because no charge travels between the plates.&#10;C) There is a magnetic field between the capacitor plates, even though no charge travels between them, because the magnetic flux between the plates is changing.&#10;D) There is a magnetic field between the capacitor plates, even though no charge travels between them, because the electric flux between the plates is changing.&#10;E) The magnetic field between the capacitor plates is increasing with time because the charge on the plates is increasing.

Accepted Answer

The answer of A capacitor is charging in a simple...

Question 17

A circular loop of wire lies in the plane of the paper.An increasing magnetic field points out of the paper.What is the direction of the induced current in the loop?&#10;A) counter-clockwise then clockwise&#10;B) clockwise then counter-clockwise&#10;C) clockwise&#10;D) counter-clockwise&#10;E) There is no current induced in the loop.

Accepted Answer

The answer of A circular loop of wire lies in...

Question 18

The long straight wire in the figure carries a current I that is decreasing with time at a constant rate.The circular loops A,B,and C all lie in a plane containing the wire.The induced emf in each of the loops A,B,and C is such that

A) no emf is induced in any of the loops.
B) a counterclockwise emf is induced in all the loops.
C) loop A has a clockwise emf, loop B has no induced emf, and loop C has a counterclockwise emf.
D) loop A has a counter-clockwise emf, loop B has no induced emf, and loop C has a clockwise emf.
E) loop A has a counter-clockwise emf, loops B and C have clockwise emfs.

Accepted Answer

The answer of The long straight wire in the figure...

Question 19

In the figure,a copper bar is in contact with a pair of parallel metal rails and is in motion with
Velocity ν.A uniform magnetic field is present pointing downward,as shown.The bar,the rails,
And the resistor R are all in the same plane.The induced current through the resistor R is

A) from a to b.
B) from b to a.
C) There is no induced current through the resistor.

Accepted Answer

The answer of In the figure,a copper bar is in...

Question 20

The figure shows a bar magnet moving vertically upward toward a horizontal coil.The poles of the bar magnets are labeled X and Y.As the bar magnet approaches the coil it induces an electric current in the direction indicated on the figure (counter-clockwise as viewed from above).What are the correct polarities of the magnet?

A) X is a south pole, Y is a north pole.
B) X is a north pole, Y is a south pole.
C) Both X and Y are north poles.
D) Both X and Y are south poles.
E) The polarities of the magnet cannot be determined from the information given.

Accepted Answer

The answer of The figure shows a bar magnet moving...

Question 21

What is the energy density in the magnetic field 25 cm from a long straight wire carrying a current of 12 A? (μ₀ = 4π × 10^-7 T • m/A) A) 7.3 × 10^-5 J/m³ B) 3.7 × 10^-5 J/m³ C) 3.6 × 10^-4 J/m³ D) 1.2 × 10^-4 J/m³ E) The density cannot be determined without knowing the volume.

Accepted Answer

The answer of What is the energy density in the...

Question 22

A closed loop conductor that forms a circle with a radius of 2.0 m is located in a uniform but changing magnetic field.If the maximum emf induced in the loop is 5.0 V,what is the maximum rate at which the magnetic field strength is changing if the magnetic field is oriented perpendicular to the plane in which the loop lies?

A) 0.40 T/s
B) 2.5 T/s
C) 0.080 T/s
D) 5.0 T/s

Accepted Answer

The answer of A closed loop conductor that forms a...

Question 23

Suppose that you wish to construct a simple ac generator having an output of 12 V maximum when rotated at 60 Hz. A uniform magnetic field of 0.050 T is available. If the area of the rotating coil is
100 cm²,how many turns do you need?

A) 8
B) 16
C) 32
D) 64
E) 128

Accepted Answer

The answer of Suppose that you wish to construct a...

Question 24

A 2.0-m long conducting wire is formed into a square and placed in the horizontal xy-plane.A uniform magnetic field is oriented 30.0° above the horizontal with a strength of 9.0 T.What is the magnetic flux through the square?

A) 1.1 T • m²
B) 1.9 T • m²
C) 2.3 T • m²
D) 18 T • m²

Accepted Answer

The answer of A 2.0-m long conducting wire is formed...

Question 25

The coil in a 60-Hz ac generator has 125 turns,each having an area of 3.0 × 10^-2 m² and is rotated in a uniform 0.12-T magnetic field.What is the peak output voltage of this generator? A) 170 V B) 120 V C) 200 V D) 110 V E) 220 V

Accepted Answer

The answer of The coil in a 60-Hz ac generator...

Question 26

A rectangular coil having N turns and measuring 15 cm by 25 cm is rotating in a uniform 1.6-T magnetic field with a frequency of 75 Hz.The rotation axis is perpendicular to the direction of the field.If the coil develops a sinusoidal emf of maximum value 56.9 V,what is the value of N?

A) 2
B) 4
C) 6
D) 8
E) 10

Accepted Answer

The answer of A rectangular coil having N turns and...

Question 27

A 50-cm wire placed in an east-west direction is moved horizontally to the north with a speed of
2)0 m/s. The horizontal component of the earth's magnetic field at that location is 25 μT toward the north and the vertical component is 50μT downward.What is the emf induced between the ends of the wire?

A) 10 µV
B) 20 µV
C) 30 µV
D) 40 µV
E) 50 µV

Accepted Answer

The answer of A 50-cm wire placed in an east-west...

Question 28

A ten-loop coil having an area of 0.23 m² and a very large resistance is in a 0.047-T uniform magnetic field oriented so that the maximum flux goes through the coil.The coil is then rotated so that the flux through it goes to zero in 0.34 s.What is the magnitude of the average emf induced in the coil during the 0.34 s?

A) 0.0032 V
B) 0.00 V
C) 0.032 V
D) 0.32 V
E) 1.0 V

Accepted Answer

The answer of A ten-loop coil having an area of...

Question 29

You are designing a generator to have a maximum emf of 8.0 V. If the generator coil has 200 turns and a cross-sectional area of 0.030 m²,what should be the frequency of the generator in a uniform magnetic field of 0.030 T?

A) 7.1 Hz
B) 7.5 Hz
C) 8.0 Hz
D) 22 Hz
E) 44 Hz

Accepted Answer

The answer of You are designing a generator to have...

Question 30

At a certain instant the current flowing through a 5.0-H inductor is 3.0 A.If the energy in the inductor at this instant is increasing at a rate of 3.0 J/s,how fast is the current changing?&#10;A) 0.20 A/s&#10;B) 0.40 A/s&#10;C) 0.10 A/s&#10;D) 0.80 A/s

Accepted Answer

The answer of At a certain instant the current flowing...

Question 31

Wire is wound on a square frame,30 cm by 30 cm,to form a coil of 7 turns.The frame is mounted on a horizontal shaft through its center (perpendicular to the plane of the diagram),as shown in the figure.The coil is in clockwise rotation,with a period of 0.060 s.A uniform,horizontal,magnetic field of magnitude 0.40 T is present.At a given instant,the plane of the coil forms a 60° angle with the horizontal,as shown.At that instant,what is the magnitude of the emf induced in the coil?

A) 13 V
B) 23 V
C) 2.1 V
D) 3.6 V
E) 26 V

Accepted Answer

The answer of Wire is wound on a square frame,30...

Question 32

An insulated wire of diameter 1.0 mm and negligible resistance is wrapped tightly around a cylindrical core of radius 5.0 cm and length 30 cm to build a solenoid. What is the energy stored in this solenoid when a current I = 0.20 A flows through it? (μ₀ = 4π × 10^-7 T • m/A)

A) 1.2 × 10^-4 J
B) 9.6 × 10^-4 J
C) 4.8 × 10^-4 J
D) 2.4 × 10^-4 J
E) 5.9 × 10^-5 J

Accepted Answer

The answer of An insulated wire of diameter 1.0 mm...

Question 33

How much energy is stored in a room 3.0 m by 4.0 m by 2.4 m due to the earth's magnetic field with a strength of 5.0 × 10^-5 T? (μ₀ = 4π × 10^-7 T • m/A) A) 570 mJ. B) 29 mJ. C) 10 mJ. D) 100 mJ.

Accepted Answer

The answer of How much energy is stored in a...

Question 34

A solenoid of length 0.700 m having a circular cross-section of radius 5.00 cm stores 6.00 µJ of energy when a 0.400-A current runs through it.What is the winding density of the solenoid?
(μ₀ = 4π × 10^-7 T • m/A)

A) 865 turns/m
B) 472 turns/m
C) 1080 turns/m
D) 104 turns/m
E) 327 turns/m

Accepted Answer

The answer of A solenoid of length 0.700 m having...

Question 35

What is the self-inductance of a solenoid 30.0 cm long having 100 turns of wire and a cross-sectional area of 1.00 × 10^-4 m²? (μ₀ = 4π × 10^-7 T • m/A) A) 4.19 nH B) 4.19 pH C) 4.19 µH D) 4.19 mH E) 4.19 H

Accepted Answer

The answer of What is the self-inductance of a solenoid...

Question 36

At what rate would the current in a 100-mH inductor have to change to induce an emf of 1000 V in the inductor?&#10;A) 100 A/s&#10;B) 1 A/s&#10;C) 1000 A/s&#10;D) 10,000 A/s&#10;E) 10 A/s

Accepted Answer

The answer of At what rate would the current in...

Question 37

For a long ideal solenoid having a circular cross-section,the magnetic field strength within the solenoid is given by the equation B(t)= 5.0t T,where t is time in seconds.If the induced electric field outside the solenoid is 1.1 V/m at a distance of 2.0 m from the axis of the solenoid,find the radius of the solenoid.

A) 0.30 m
B) 77 m
C) 0.94 m
D) 9.0 m

Accepted Answer

The answer of For a long ideal solenoid having a...

Question 38

A circular loop of radius 0.10 m is rotating in a uniform external magnetic field of 0.20 T. Find the magnetic flux through the loop due to the external field when the plane of the loop and the magnetic field vector are
(a)parallel.
(b)perpendicular.
(c)at an angle of 30° with each other.

Accepted Answer

The answer of A circular loop of radius 0.10 m...

Deck 29: Changing Magnetic Fields