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Deck 30: Sources of the Magnetic Field

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Question
Two long parallel wires each carry a current of 5.0 A directed to the east. The two wires are separated by 8.0 cm. What is the magnitude of the magnetic field at a point that is 5.0 cm from each of the wires?

A) 72 μT
B) 48 μT
C) 24 μT
D) 96 μT
E) 32 μT
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Question
Two long parallel wires separated by 5.0 mm each carry a current of 60 A. These two currents are oppositely directed. What is the magnitude of the magnetic field at a point that is between the two wires and 2.0 mm from one of the two wires?

A) 2.0 mT
B) 10 mT
C) 8.0 mT
D) 1.6 mT
E) 7.2 mT
Question
Each of two long straight parallel wires separated by a distance of 16 cm carries a current of 20 A in the same direction. What is the magnitude of the resulting magnetic field at a point that is 10 cm from each wire?

A) 57 μT
B) 80 μT
C) 64 μT
D) 48 μT
E) 40 μT
Question
If a = 2.0 cm, b = 5.0 cm, and I = 20 A, what is the magnitude of the magnetic field at the point P? <strong>If a = 2.0 cm, b = 5.0 cm, and I = 20 A, what is the magnitude of the magnetic field at the point P? </strong> A) 4.5 μT B) 7.5 μT C) 9.0 μT D) 6.0 μT E) 3.6 μT <div style=padding-top: 35px>

A) 4.5 μT
B) 7.5 μT
C) 9.0 μT
D) 6.0 μT
E) 3.6 μT
Question
One long wire carries a current of 30 A along the entire x axis. A second long wire carries a current of 40 A perpendicular to the xy plane and passes through the point (0, 4, 0) m. What is the magnitude of the resulting magnetic field at the point y = 2.0 m on the y axis?

A) 4.0 μT
B) 5.0 μT
C) 3.0 μT
D) 7.0 μT
E) 1.0 μT
Question
A straight wire (length = 8.0 m) is bent to form a square. If the wire carries a current of 20 A, what is the magnitude of the magnetic field at the center of the square?

A) 17 μT
B) 14 μT
C) 11 μT
D) 20 μT
E) 36 μT
Question
A 2.0-cm length of wire centered on the origin carries a 20-A current directed in the positive y direction. Determine the magnetic field at the point x = 5.0 m on the x-axis.

A) 1.6 nT in the negative z direction
B) 1.6 nT in the positive z direction
C) 2.4 nT in the negative z direction
D) None of the above
Question
Each of two parallel wires separated by 6.0 mm carries a 40-A current. These two currents are in the same direction. Determine the magnitude of the magnetic field at a point that is 5.0 mm from each of the wires.

A) 2.6 mT
B) zero
C) 1.9 mT
D) 1.6 mT
E) 3.2 mT
Question
Two long parallel wires carry unequal currents in the same direction. The ratio of the currents is 3 to 1. The magnitude of the magnetic field at a point in the plane of the wires and 10 cm from each wire is 4.0 μT. What is the larger of the two currents?

A) 5.3 A
B) 3.8 A
C) 4.5 A
D) 3.0 A
E) 0.5 A
Question
Three long wires parallel to the x axis carry currents as shown. If I = 20 A, what is the magnitude of the magnetic field at the origin? <strong>Three long wires parallel to the x axis carry currents as shown. If I = 20 A, what is the magnitude of the magnetic field at the origin? </strong> A) 37 μT B) 28 μT C) 19 μT D) 47 μT E) 58 μT <div style=padding-top: 35px>

A) 37 μT
B) 28 μT
C) 19 μT
D) 47 μT
E) 58 μT
Question
A long straight wire carries a current of 40 A in a region where a uniform external magnetic field has a 30-μT magnitude and is parallel to the current. What is the magnitude of the resultant magnetic field at a point that is 20 cm from the wire?

A) 70 μT
B) 40 μT
C) 10 μT
D) 50 μT
E) 36 μT
Question
Two long straight wires carry currents perpendicular to the xy plane. One carries a current of 50 A and passes through the point x = 5.0 cm on the x axis. The second wire has a current of 80 A and passes through the point y = 4.0 cm on the y axis. What is the magnitude of the resulting magnetic field at the origin?

A) 200 μT
B) 600 μT
C) 450 μT
D) 300 μT
E) 400 μT
Question
A segment of wire of total length 3.0 m carries a 15-A current and is formed into a semicircle. Determine the magnitude of the magnetic field at the center of the circle along which the wire is placed.

A) 1.6 μT
B) 4.9 μT
C) 1.0 μT
D) 9.8 μT
E) 15 μT
Question
Two long parallel wires separated by 4.0 mm each carry a current of 24 A. These two currents are in the same direction. What is the magnitude of the magnetic field at a point that is between the two wires and 1.0 mm from one of the two wires?

A) 4.8 mT
B) 6.4 mT
C) 3.2 mT
D) 9.6 mT
E) 5.3 mT
Question
Two long straight parallel wires separated by a distance of 20 cm carry currents of 30 A and 40 A in opposite directions. What is the magnitude of the resulting magnetic field at a point that is 15 cm from the wire carrying the 30-A current and 25 cm from the other wire?

A) 51 μT
B) 33 μT
C) 72 μT
D) 64 μT
E) 46 μT
Question
Each of two parallel wires separated by 8.0 mm carries a 20-A current. These two currents are oppositely directed. Determine the magnitude of the magnetic field at a point that is 5.0 mm from each of the wires.

A) 2.0 mT
B) 1.6 mT
C) 1.3 mT
D) 1.8 mT
E) 1.0 mT
Question
Two long parallel wires carry unequal currents in opposite directions. The ratio of the currents is 3 to 1. The magnitude of the magnetic field at a point in the plane of the wires and 10 cm from each wire is 4.0 μT. What is the larger of the two currents?

A) 0.5 A
B) 1.0 A
C) 1.5 A
D) 2.0 A
E) 3.0 A
Question
If a = 1.0 cm, b = 3.0 cm, and I = 30 A, what is the magnitude of the magnetic field at point P? <strong>If a = 1.0 cm, b = 3.0 cm, and I = 30 A, what is the magnitude of the magnetic field at point P? </strong> A) 0.62 mT B) 0.59 mT C) 0.35 mT D) 0.31 mT E) 0.10 mT <div style=padding-top: 35px>

A) 0.62 mT
B) 0.59 mT
C) 0.35 mT
D) 0.31 mT
E) 0.10 mT
Question
A segment of wire of total length 2.0 m is formed into a circular loop having 5.0 turns. If the wire carries a 1.2-A current, determine the magnitude of the magnetic field at the center of the loop.

A) 79 μT
B) 69 μT
C) 59 μT
D) 89 μT
E) 9.4 μT
Question
Two very long parallel wires carry currents in the positive x direction. One wire (current = 15 A) is coincident with the x axis. The other wire (current = 50 A) passes through the point (0, 4.0 mm, 0). What is the magnitude of the magnetic field at the point (0, 0, 3.0 mm)?

A) 3.8 mT
B) 2.7 mT
C) 2.9 mT
D) 3.0 mT
E) 0.6 mT
Question
The figure shows a cross section of three parallel wires each carrying a current of 5.0 A out of the paper. If the distance R = 6.0 mm, what is the magnitude of the magnetic force on a 2.0-m length of any one of the wires? <strong>The figure shows a cross section of three parallel wires each carrying a current of 5.0 A out of the paper. If the distance R = 6.0 mm, what is the magnitude of the magnetic force on a 2.0-m length of any one of the wires? </strong> A) 2.5 mN B) 3.3 mN C) 2.2 mN D) 2.9 mN E) 1.7 mN <div style=padding-top: 35px>

A) 2.5 mN
B) 3.3 mN
C) 2.2 mN
D) 2.9 mN
E) 1.7 mN
Question
Two long parallel wires are separated by 2.0 cm. The current in one of the wires is three times the other current. If the magnitude of the force on a 2.0-m length of one of the wires is equal to 60 μN, what is the greater of the two currents?

A) 2.0 A
B) 1.0 A
C) 3.0 A
D) 9.0 A
E) 1.5 A
Question
The figure shows a cross section of three parallel wires each carrying a current of 24 A. The currents in wires B and C are out of the paper, while that in wire A is into the paper. If the distance R = 5.0 mm, what is the magnitude of the force on a 4.0-m length of wire A? <strong>The figure shows a cross section of three parallel wires each carrying a current of 24 A. The currents in wires B and C are out of the paper, while that in wire A is into the paper. If the distance R = 5.0 mm, what is the magnitude of the force on a 4.0-m length of wire A? </strong> A) 15 mN B) 77 mN C) 59 mN D) 12 mN E) 32 mN <div style=padding-top: 35px>

A) 15 mN
B) 77 mN
C) 59 mN
D) 12 mN
E) 32 mN
Question
What is the magnitude of the magnetic field at point P if a = R and b = 2R? <strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E) <div style=padding-top: 35px>

A)
<strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E) <div style=padding-top: 35px>
B)
<strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E) <div style=padding-top: 35px>
C)
<strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E) <div style=padding-top: 35px>
D)
<strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E) <div style=padding-top: 35px>
E)
<strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E) <div style=padding-top: 35px>
Question
The figure shows a cross section of three parallel wires each carrying a current of 20 A. The currents in wires A and B are out of the paper, while that in wire C is into the paper. If the distance R = 5.0 mm, what is the magnitude of the force on a 2.0-m length of wire A? <strong>The figure shows a cross section of three parallel wires each carrying a current of 20 A. The currents in wires A and B are out of the paper, while that in wire C is into the paper. If the distance R = 5.0 mm, what is the magnitude of the force on a 2.0-m length of wire A? </strong> A) 23 mN B) 64 mN C) 32 mN D) 46 mN E) 55 mN <div style=padding-top: 35px>

A) 23 mN
B) 64 mN
C) 32 mN
D) 46 mN
E) 55 mN
Question
A long straight wire (diameter = 2.0 mm) carries a current of 25 A. What is the magnitude of the magnetic field 0.50 mm from the axis of the wire?

A) 5.0 mT
B) 10 mT
C) 0.63 mT
D) 2.5 mT
E) 0.01 mT
Question
Three long, straight, parallel wires each carry a current of 10 A in the positive x direction. If the distance between each wire and the other two is 10 cm, what is the magnitude of the magnetic force on a 20-cm length of either of the wires?

A) 57 μN
B) 40 μN
C) 69 μN
D) 50 μN
E) 20 μN
Question
What is the magnitude of the magnetic field at point P if a = R and b = 2R? <strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E) <div style=padding-top: 35px>

A)
<strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E) <div style=padding-top: 35px>
B)
<strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E) <div style=padding-top: 35px>
C)
<strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E) <div style=padding-top: 35px>
D)
<strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E) <div style=padding-top: 35px>
E)
<strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E) <div style=padding-top: 35px>
Question
A long straight wire (diameter = 2.0 mm) carries a current of 40 A. What is the magnitude of the magnetic field 1.5 mm from the axis of the wire?

A) 3.0 mT
B) 12 mT
C) 5.3 mT
D) 7.4 mT
E) 8.0 mT
Question
In the figure, if a = 2.0 cm, b = 4.0 cm, and I = 2.0 A, what is the magnitude of the magnetic field at point P? <strong>In the figure, if a = 2.0 cm, b = 4.0 cm, and I = 2.0 A, what is the magnitude of the magnetic field at point P? </strong> A) 49 μT B) 39 μT C) 50 μT D) 69 μT E) 13 μT <div style=padding-top: 35px>

A) 49 μT
B) 39 μT
C) 50 μT
D) 69 μT
E) 13 μT
Question
A hollow cylindrical (inner radius = 1.0 mm, outer radius = 3.0 mm) conductor carries a current of 80 A parallel to its axis. This current is uniformly distributed over a cross section of the conductor. Determine the magnitude of the magnetic field at a point that is 2.0 mm from the axis of the conductor.

A) 8.0 mT
B) 3.0 mT
C) 5.3 mT
D) 16 mT
E) 1.2 mT
Question
The segment of wire (total length = 6R, including the incoming and outgoing portions of the wire) is formed into the shape shown and carries a current I. What is the magnitude of the resulting magnetic field at the point P? <strong>The segment of wire (total length = 6R, including the incoming and outgoing portions of the wire) is formed into the shape shown and carries a current I. What is the magnitude of the resulting magnetic field at the point P? </strong> A) B) C) D) E) <div style=padding-top: 35px>

A)
<strong>The segment of wire (total length = 6R, including the incoming and outgoing portions of the wire) is formed into the shape shown and carries a current I. What is the magnitude of the resulting magnetic field at the point P? </strong> A) B) C) D) E) <div style=padding-top: 35px>
B)
<strong>The segment of wire (total length = 6R, including the incoming and outgoing portions of the wire) is formed into the shape shown and carries a current I. What is the magnitude of the resulting magnetic field at the point P? </strong> A) B) C) D) E) <div style=padding-top: 35px>
C)
<strong>The segment of wire (total length = 6R, including the incoming and outgoing portions of the wire) is formed into the shape shown and carries a current I. What is the magnitude of the resulting magnetic field at the point P? </strong> A) B) C) D) E) <div style=padding-top: 35px>
D)
<strong>The segment of wire (total length = 6R, including the incoming and outgoing portions of the wire) is formed into the shape shown and carries a current I. What is the magnitude of the resulting magnetic field at the point P? </strong> A) B) C) D) E) <div style=padding-top: 35px>
E)
<strong>The segment of wire (total length = 6R, including the incoming and outgoing portions of the wire) is formed into the shape shown and carries a current I. What is the magnitude of the resulting magnetic field at the point P? </strong> A) B) C) D) E) <div style=padding-top: 35px>
Question
What is the magnitude of the magnetic field at point P in the figure if a = 2.0 cm, b = 4.5 cm, and I = 5.0 A? <strong>What is the magnitude of the magnetic field at point P in the figure if a = 2.0 cm, b = 4.5 cm, and I = 5.0 A? </strong> A) 87 μT, into the paper B) 87 μT, out of the paper C) 0.23 mT, out of the paper D) 0.23 mT, into the paper E) 23 μT, into the paper <div style=padding-top: 35px>

A) 87 μT, into the paper
B) 87 μT, out of the paper
C) 0.23 mT, out of the paper
D) 0.23 mT, into the paper
E) 23 μT, into the paper
Question
Three long, straight, parallel wires all lie in the yz plane and each carries a current of 20 A in the positive z direction. The two outer wires are each 4.0 cm from the center wire. What is the magnitude of the magnetic force on a 50-cm length of either of the outer wires?

A) 1.0 mN
B) 0.50 mN
C) 1.1 mN
D) 1.5 mN
E) 2.0 mN
Question
Two long parallel wires are separated by 6.0 mm. The current in one of the wires is twice the other current. If the magnitude of the force on a 3.0-m length of one of the wires is equal to 8.0 μN, what is the greater of the two currents?

A) 0.20 A
B) 0.40 A
C) 40 mA
D) 20 mA
E) 0.63 A
Question
What is the magnitude of the magnetic field at point P if a = R and b = 2R? <strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E) <div style=padding-top: 35px>

A)
<strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E) <div style=padding-top: 35px>
B)
<strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E) <div style=padding-top: 35px>
C)
<strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E) <div style=padding-top: 35px>
D)
<strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E) <div style=padding-top: 35px>
E)
<strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E) <div style=padding-top: 35px>
Question
Two long parallel wires are separated by 4.0 cm. One of the wires carries a current of 20 A and the other carries a 30-A current. Determine the magnitude of the magnetic force on a 2.0-m length of the wire carrying the greater current.

A) 7.0 mN
B) 6.0 mN
C) 8.0 mN
D) 9.0 mN
E) 4.0 mN
Question
The segment of wire (total length including portions of incoming and outgoing wire = 6R) is formed into the shape shown and carries a current I. What is the magnitude of the resulting magnetic field at the point P? <strong>The segment of wire (total length including portions of incoming and outgoing wire = 6R) is formed into the shape shown and carries a current I. What is the magnitude of the resulting magnetic field at the point P? </strong> A) B) C) D) E) <div style=padding-top: 35px>

A)
<strong>The segment of wire (total length including portions of incoming and outgoing wire = 6R) is formed into the shape shown and carries a current I. What is the magnitude of the resulting magnetic field at the point P? </strong> A) B) C) D) E) <div style=padding-top: 35px>
B)
<strong>The segment of wire (total length including portions of incoming and outgoing wire = 6R) is formed into the shape shown and carries a current I. What is the magnitude of the resulting magnetic field at the point P? </strong> A) B) C) D) E) <div style=padding-top: 35px>
C)
<strong>The segment of wire (total length including portions of incoming and outgoing wire = 6R) is formed into the shape shown and carries a current I. What is the magnitude of the resulting magnetic field at the point P? </strong> A) B) C) D) E) <div style=padding-top: 35px>
D)
<strong>The segment of wire (total length including portions of incoming and outgoing wire = 6R) is formed into the shape shown and carries a current I. What is the magnitude of the resulting magnetic field at the point P? </strong> A) B) C) D) E) <div style=padding-top: 35px>
E)
<strong>The segment of wire (total length including portions of incoming and outgoing wire = 6R) is formed into the shape shown and carries a current I. What is the magnitude of the resulting magnetic field at the point P? </strong> A) B) C) D) E) <div style=padding-top: 35px>
Question
A long cylindrical wire (radius = 2.0 cm) carries a current of 40 A that is uniformly distributed over a cross section of the wire. What is the magnitude of the magnetic field at a point which is 1.5 cm from the axis of the wire?

A) 0.53 mT
B) 28 mT
C) 0.30 mT
D) 40 mT
E) 1.9 mT
Question
The figure shows a cross section of three parallel wires each carrying a current of 15 A. The currents in wires A and C are out of the paper, while that in wire B is into the paper. If the distance R = 5.0 mm, what is the magnitude of the force on a 4.0-m length of wire C? <strong>The figure shows a cross section of three parallel wires each carrying a current of 15 A. The currents in wires A and C are out of the paper, while that in wire B is into the paper. If the distance R = 5.0 mm, what is the magnitude of the force on a 4.0-m length of wire C? </strong> A) 90 mN B) 54 mN C) 30 mN D) 18 mN E) 36 mN <div style=padding-top: 35px>

A) 90 mN
B) 54 mN
C) 30 mN
D) 18 mN
E) 36 mN
Question
A long solenoid (1500 turns/m) carries a current of 20 mA and has an inside diameter of 4.0 cm. A long wire carries a current of 2.0 A along the axis of the solenoid. What is the magnitude of the magnetic field at a point that is inside the solenoid and 1.0 cm from the wire?

A) 78 μT
B) 55 μT
C) 48 μT
D) 68 μT
E) 2.0 μT
Question
A long wire is known to have a radius greater than 4.0 mm and to carry a current uniformly distributed over its cross section. If the magnitude of the magnetic field is 0.285 mT at a point 4.0 mm from the axis of the wire and 0.200 mT at a point 10 mm from the axis, what is the radius of the wire?

A) 4.6 mm
B) 7.1 mm
C) 5.3 mm
D) 12 mm
E) 10 mm
Question
A long hollow cylindrical conductor (inner radius = 2.0 mm, outer radius = 4.0 mm) carries a current of 24 A distributed uniformly across its cross section. A long wire which is coaxial with the cylinder carries an equal current in the opposite direction. What is the magnitude of the magnetic field 3.0 mm from the axis?

A) 0.82 mT
B) 0.93 mT
C) 0.70 mT
D) 0.58 mT
E) 0.40 mT
Question
A conducting rod with a square cross section (3.0 cm × 3.0 cm) carries a current of 60 A that is uniformly distributed across the cross section. What is the magnitude of the (line) integral <strong>A conducting rod with a square cross section (3.0 cm × 3.0 cm) carries a current of 60 A that is uniformly distributed across the cross section. What is the magnitude of the (line) integral around a square path (1.5 cm × 1.5 cm) if the path is centered on the center of the rod and lies in a plane perpendicular to the axis of the rod?</strong> A) 14 μT ⋅ m B) 75 μT ⋅ m C) 19 μT ⋅ m D) 57 μT ⋅ m E) 38 μT ⋅ m <div style=padding-top: 35px> around a square path (1.5 cm × 1.5 cm) if the path is centered on the center of the rod and lies in a plane perpendicular to the axis of the rod?

A) 14 μT ⋅ m
B) 75 μT ⋅ m
C) 19 μT ⋅ m
D) 57 μT ⋅ m
E) 38 μT ⋅ m
Question
By using a compass to measure the magnetic field direction at various points adjacent to a long straight wire, you can show that the wire's magnetic field lines are

A) straight lines in space that go from one magnetic charge to another.
B) straight lines in space that are parallel to the wire.
C) straight lines in space that are perpendicular to the wire.
D) circles that have their centers on the wire and lie in planes perpendicular to the wire.
E) circles that have the wire lying along a diameter of the circle.
Question
A current-carrying 2.0-cm long segment of wire is inside a long solenoid (radius = 4.0 cm, n = 800 turns/m, current = 50 mA). The wire segment is oriented perpendicularly to the axis of the solenoid. If the current in the wire segment is 12 A, what is the magnitude of the magnetic force on this segment?

A) 22 μN
B) 16 μN
C) 18 μN
D) 12 μN
E) 0 μN
Question
A long straight wire (diameter = 2.0 mm) carries a current of 30 A. What is the magnitude of the magnetic field 2.5 mm from the axis of the wire?

A) 3.2 mT
B) 2.8 mT
C) 2.4 mT
D) 3.6 mT
E) 3.0 mT
Question
Which diagram correctly shows the magnetic field lines created by a circular current loop in which current flows in the direction shown?

A)
<strong>Which diagram correctly shows the magnetic field lines created by a circular current loop in which current flows in the direction shown?</strong> A) B) C) D) E) <div style=padding-top: 35px>
B)
<strong>Which diagram correctly shows the magnetic field lines created by a circular current loop in which current flows in the direction shown?</strong> A) B) C) D) E) <div style=padding-top: 35px>
C)
<strong>Which diagram correctly shows the magnetic field lines created by a circular current loop in which current flows in the direction shown?</strong> A) B) C) D) E) <div style=padding-top: 35px>
D)
<strong>Which diagram correctly shows the magnetic field lines created by a circular current loop in which current flows in the direction shown?</strong> A) B) C) D) E) <div style=padding-top: 35px>
E)
<strong>Which diagram correctly shows the magnetic field lines created by a circular current loop in which current flows in the direction shown?</strong> A) B) C) D) E) <div style=padding-top: 35px>
Question
A long solenoid (n = 1200 turns/m, radius = 2.0 cm) has a current of a 0.30 A in its winding. A long wire carrying a current of 20 A is parallel to and 1.0 cm from the axis of the solenoid. What is the magnitude of the resulting magnetic field at a point on the axis of the solenoid?

A) 0.60 mT
B) 0.85 mT
C) 52 μT
D) 0.40 mT
E) 0.75 mT
Question
A conducting hollow cylinder (inner radius = a, outer radius = b) carries a current of 40 A that is uniformly distributed over the cross section of the conductor. If a = 3.0 mm and b = 6.0 mm, what is the magnitude of the (line) integral <strong>A conducting hollow cylinder (inner radius = a, outer radius = b) carries a current of 40 A that is uniformly distributed over the cross section of the conductor. If a = 3.0 mm and b = 6.0 mm, what is the magnitude of the (line) integral around a circular path (radius = 5.0 mm) centered on the axis of the cylinder and in a plane perpendicular to that axis?</strong> A) 50 μT ⋅ m B) 30 μT ⋅ m C) 22 μT ⋅ m D) 37 μT ⋅ m E) 47 μT ⋅ m <div style=padding-top: 35px> around a circular path (radius = 5.0 mm) centered on the axis of the cylinder and in a plane perpendicular to that axis?

A) 50 μT ⋅ m
B) 30 μT ⋅ m
C) 22 μT ⋅ m
D) 37 μT ⋅ m
E) 47 μT ⋅ m
Question
A long hollow cylindrical conductor (inner radius = 2.0 mm, outer radius = 4.0 mm) carries a current of 12 A distributed uniformly across its cross section. A long wire which is coaxial with the cylinder carries an equal current in the same direction. What is the magnitude of the magnetic field 3.0 mm from the axis?

A) 1.1 mT
B) 1.4 mT
C) 1.7 mT
D) 2.0 mT
E) 0.2 mT
Question
When the number of turns in a solenoid and its length are both doubled, the ratio of the magnitude of the new magnetic field inside to the magnitude of the original magnetic field inside is:

A) 0.25
B) 0.50
C) 1
D) 2
E) 4
Question
A long, straight wire (radius = 2.0 mm) carries a current of 2.0 A distributed uniformly over a cross section perpendicular to the axis of the wire. What is the magnitude of the magnetic field at a distance of 1.0 mm from the axis of the wire?

A) 0.40 mT
B) 0.80 mT
C) 0.10 mT
D) 0.20 mT
E) 0.75 mT
Question
A long solenoid (diameter = 5.0 cm) is wound with 960 turns per meter of thin wire through which a current of 300 mA is maintained. A wire carrying 12 A is inserted along the axis of the solenoid. What is the magnitude of the magnetic field at a point 2.0 cm from the axis?

A) 0.41 mT
B) 0.48 mT
C) 0.38 mT
D) 0.56 mT
E) 0.24 mT
Question
A single circular (radius = R) loop of wire is located in the yz plane with its center at the origin. The loop has a clockwise current as seen from the point (+R, 0, 0). The direction of the magnetic field at the point

A) (0, 0, 0) is −i and at the point (+R, 0, 0) is −i.
B) (0, 0, 0) is −i and at the point (0, +2R, 0) is −i.
C) (0, 0, 0) is +i and at the point (+R, 0, 0) is +i.
D) (0, 0, 0) is +i and at the point (0, +2R, 0) is +i.
E) None of the above
Question
A solenoid 4.0 cm in radius and 4.0 m in length has 8 000 uniformly spaced turns and carries a current of 5.0 A. Consider a plane circular surface (radius = 2.0 cm) located at the center of the solenoid with its axis coincident with the axis of the solenoid. What is the magnetic flux through this surface? (1 Wb = 1 T ⋅ m2)

A) 63 μWb
B) 16 μWb
C) 0.25 mWb
D) 10 μWb
E) 5.0 μWb
Question
A long solenoid (1000 turns/m) carries a current of 25 mA and has an inside radius of 2.0 cm. A long wire which is parallel to and 4.0 cm from the axis of the solenoid carries a current of 6.0 A. What is the magnitude of the magnetic field at a point on the axis of the solenoid?

A) 51 μT
B) 61 μT
C) 43 μT
D) 81 μT
E) 1.4 μT
Question
A long wire carries a current of 3.0 A along the axis of a long solenoid (radius = 3.0 cm, n = 900 turns/m, current = 30 mA). What is the magnitude of the magnetic field at a point 2.0 cm from the axis of the solenoid? Neglect any end effects.

A) 34 μT
B) 64 μT
C) 30 μT
D) 45 μT
E) 4.0 μT
Question
A hollow cylindrical (inner radius = 2.0 mm, outer radius = 4.0 mm) conductor carries a current of 24 A parallel to its axis. This current is uniformly distributed over a cross section of the conductor. Determine the magnitude of the magnetic field at a point that is 5.0 mm from the axis of the conductor.

A) 0.96 mT
B) 1.7 mT
C) 0.55 mT
D) 1.2 mT
E) 0.40 mT
Question
Gauss's Law states that the net electric flux, <strong>Gauss's Law states that the net electric flux, , through any closed surface is proportional to the charge enclosed: . The analogous formula for magnetic fields is:</strong> A) . B) . C) . D) . E) . <div style=padding-top: 35px> , through any closed surface is proportional to the charge enclosed: <strong>Gauss's Law states that the net electric flux, , through any closed surface is proportional to the charge enclosed: . The analogous formula for magnetic fields is:</strong> A) . B) . C) . D) . E) . <div style=padding-top: 35px> . The analogous formula for magnetic fields is:

A)
<strong>Gauss's Law states that the net electric flux, , through any closed surface is proportional to the charge enclosed: . The analogous formula for magnetic fields is:</strong> A) . B) . C) . D) . E) . <div style=padding-top: 35px> .
B)
<strong>Gauss's Law states that the net electric flux, , through any closed surface is proportional to the charge enclosed: . The analogous formula for magnetic fields is:</strong> A) . B) . C) . D) . E) . <div style=padding-top: 35px> .
C)
<strong>Gauss's Law states that the net electric flux, , through any closed surface is proportional to the charge enclosed: . The analogous formula for magnetic fields is:</strong> A) . B) . C) . D) . E) . <div style=padding-top: 35px> .
D)
<strong>Gauss's Law states that the net electric flux, , through any closed surface is proportional to the charge enclosed: . The analogous formula for magnetic fields is:</strong> A) . B) . C) . D) . E) . <div style=padding-top: 35px> .
E)
<strong>Gauss's Law states that the net electric flux, , through any closed surface is proportional to the charge enclosed: . The analogous formula for magnetic fields is:</strong> A) . B) . C) . D) . E) . <div style=padding-top: 35px> .
Question
A long wire lies in a tangle on the surface of a table, as shown below. When a current is run through the wire as shown, the largest component of the magnetic field at X points <strong>A long wire lies in a tangle on the surface of a table, as shown below. When a current is run through the wire as shown, the largest component of the magnetic field at X points </strong> A) into the table. B) out of the table. C) parallel to the nearest segment of wire. D) antiparallel to the nearest segment of wire. E) along a circle which has its center at the center of the overall loop. <div style=padding-top: 35px>

A) into the table.
B) out of the table.
C) parallel to the nearest segment of wire.
D) antiparallel to the nearest segment of wire.
E) along a circle which has its center at the center of the overall loop.
Question
A solenoid consists of 100 circular turns of copper wire. Parts of three turns, A, B and C, are shown below. <strong>A solenoid consists of 100 circular turns of copper wire. Parts of three turns, A, B and C, are shown below. When a current flows through the coil,</strong> A) both A and C are repelled by B. B) A is attracted to B; C is repelled by B. C) neither A nor C is attracted to or repelled by B. D) A is repelled by B; C is attracted to B. E) both A and C are attracted to B. <div style=padding-top: 35px> When a current flows through the coil,

A) both A and C are repelled by B.
B) A is attracted to B; C is repelled by B.
C) neither A nor C is attracted to or repelled by B.
D) A is repelled by B; C is attracted to B.
E) both A and C are attracted to B.
Question
The magnetic moment of an electron (charge = −e; mass = me) moving in a circular orbit of radius r with speed v about a nucleus of mass mN is proportional to

A) r.
B) v.
C) vr.
D) evr.
E) mNvr.
Question
Equal currents of magnitude I travel into the page in wires M and N. Eight directions are indicated by letters A through H. <strong>Equal currents of magnitude I travel into the page in wires M and N. Eight directions are indicated by letters A through H. The direction of the magnetic field at point P is</strong> A) B. B) C. C) D. D) E. E) F. <div style=padding-top: 35px> The direction of the magnetic field at point P is

A) B.
B) C.
C) D.
D) E.
E) F.
Question
Two solenoids are each made of 2 000 turns of copper wire per meter. Solenoid I is 2 m long, while solenoid II is 1 m long. When equal currents are present in the two solenoids, the ratio of the magnetic field BI along the axis of solenoid I to the magnetic field BII along the axis of solenoid II, BI/BII, is

A) 1/4.
B) 1/2.
C) 1.
D) 2
E) 4.
Question
A toroid is made of 2 000 turns of wire of radius 2.00 cm formed into a donut shape of inner radius 10.0 cm and outer radius 14.0 cm. When a 30.0-A current is present in the toroid, the magnetic field at a distance of 11.0 cm from the center of the toroid is

A) 0.0857 T.
B) 0.109 T.
C) 0.120 T.
D) 0.600 T.
E) 0.685 T.
Question
A 0.50-m long solenoid consists of 1 000 turns of copper wire wound with a 4.0 cm radius. When the current in the solenoid is 18 A, the magnetic field at a point 1.0 cm from the central axis of the solenoid is

A) 0.090 mT.
B) 0.36 mT.
C) 23 mT.
D) 36 mT.
E) 45 mT.
Question
If you were to travel parallel to an infinitely long straight wire with current I at the same velocity as the electrons in the wire at a distance a from the wire, the magnitude of the magnetic field (according to your measuring instruments) would be

A) 0.
B)
<strong>If you were to travel parallel to an infinitely long straight wire with current I at the same velocity as the electrons in the wire at a distance a from the wire, the magnitude of the magnetic field (according to your measuring instruments) would be</strong> A) 0. B) . C) . D) . E) . <div style=padding-top: 35px> .
C)
<strong>If you were to travel parallel to an infinitely long straight wire with current I at the same velocity as the electrons in the wire at a distance a from the wire, the magnitude of the magnetic field (according to your measuring instruments) would be</strong> A) 0. B) . C) . D) . E) . <div style=padding-top: 35px> .
D)
<strong>If you were to travel parallel to an infinitely long straight wire with current I at the same velocity as the electrons in the wire at a distance a from the wire, the magnitude of the magnetic field (according to your measuring instruments) would be</strong> A) 0. B) . C) . D) . E) . <div style=padding-top: 35px> .
E)
<strong>If you were to travel parallel to an infinitely long straight wire with current I at the same velocity as the electrons in the wire at a distance a from the wire, the magnitude of the magnetic field (according to your measuring instruments) would be</strong> A) 0. B) . C) . D) . E) . <div style=padding-top: 35px> .
Question
Two current loops are coaxial and coplanar. One has radius a and the other has radius 2a. Current 2I in the outer loop is parallel to current I in the inner loop. The magnitude of the magnetic field at the center of the two loops is

A) 0.
B)
<strong>Two current loops are coaxial and coplanar. One has radius a and the other has radius 2a. Current 2I in the outer loop is parallel to current I in the inner loop. The magnitude of the magnetic field at the center of the two loops is</strong> A) 0. B) . C) . D) . E) . <div style=padding-top: 35px> .
C)
<strong>Two current loops are coaxial and coplanar. One has radius a and the other has radius 2a. Current 2I in the outer loop is parallel to current I in the inner loop. The magnitude of the magnetic field at the center of the two loops is</strong> A) 0. B) . C) . D) . E) . <div style=padding-top: 35px> .
D)
<strong>Two current loops are coaxial and coplanar. One has radius a and the other has radius 2a. Current 2I in the outer loop is parallel to current I in the inner loop. The magnitude of the magnetic field at the center of the two loops is</strong> A) 0. B) . C) . D) . E) . <div style=padding-top: 35px> .
E)
<strong>Two current loops are coaxial and coplanar. One has radius a and the other has radius 2a. Current 2I in the outer loop is parallel to current I in the inner loop. The magnitude of the magnetic field at the center of the two loops is</strong> A) 0. B) . C) . D) . E) . <div style=padding-top: 35px> .
Question
Two solenoids of equal length are each made of 2000 turns of copper wire per meter. Solenoid I has a 5.00 cm radius; solenoid II a 10.0 cm radius. When equal currents are present in the two solenoids, the ratio of the magnitude of the magnetic field BI along the axis of solenoid I to the magnitude of the magnetic field BII along the axis of solenoid II, BI/BII, is

A) 1/4.
B) 1/2.
C) 1.
D) 2.
E) 4.
Question
A thin infinitely large current sheet lies in the y-z plane. Current of magnitude Js per unit length along the z axis travels in the y-axis direction, which is up out of the page. Which diagram below correctly represents the direction of the magnetic field on either side of the sheet?

A)
<strong>A thin infinitely large current sheet lies in the y-z plane. Current of magnitude J<sub>s</sub> per unit length along the z axis travels in the y-axis direction, which is up out of the page. Which diagram below correctly represents the direction of the magnetic field on either side of the sheet?</strong> A) B) C) D) E) <div style=padding-top: 35px>
B)
<strong>A thin infinitely large current sheet lies in the y-z plane. Current of magnitude J<sub>s</sub> per unit length along the z axis travels in the y-axis direction, which is up out of the page. Which diagram below correctly represents the direction of the magnetic field on either side of the sheet?</strong> A) B) C) D) E) <div style=padding-top: 35px>
C)
<strong>A thin infinitely large current sheet lies in the y-z plane. Current of magnitude J<sub>s</sub> per unit length along the z axis travels in the y-axis direction, which is up out of the page. Which diagram below correctly represents the direction of the magnetic field on either side of the sheet?</strong> A) B) C) D) E) <div style=padding-top: 35px>
D)
<strong>A thin infinitely large current sheet lies in the y-z plane. Current of magnitude J<sub>s</sub> per unit length along the z axis travels in the y-axis direction, which is up out of the page. Which diagram below correctly represents the direction of the magnetic field on either side of the sheet?</strong> A) B) C) D) E) <div style=padding-top: 35px>
E)
<strong>A thin infinitely large current sheet lies in the y-z plane. Current of magnitude J<sub>s</sub> per unit length along the z axis travels in the y-axis direction, which is up out of the page. Which diagram below correctly represents the direction of the magnetic field on either side of the sheet?</strong> A) B) C) D) E) <div style=padding-top: 35px>
Question
The following statements all refer to the human brain when mental activity is occurring. Which statement is correct?

A) In order to detect electric currents in the brain, you must open the skull and make direct electrical contact with the brain.
B) The electric currents in the brain can be detected outside the brain by detecting the magnetic fields they produce.
C) The electric currents in the brain can be mapped by shaving a person's head and dropping iron filings on the head.
D) The electric currents in the brain produce an aura that can be detected visually.
E) The electric currents in the brain cannot be detected by any means.
Question
Equal currents of magnitude I travel out of the page in wire M and into the page in wire N. Eight directions are indicated by letters A through H. <strong>Equal currents of magnitude I travel out of the page in wire M and into the page in wire N. Eight directions are indicated by letters A through H. The direction of the magnetic field at point P is</strong> A) A. B) B. C) C. D) D. E) E. <div style=padding-top: 35px> The direction of the magnetic field at point P is

A) A.
B) B.
C) C.
D) D.
E) E.
Question
On the average, in a ferromagnetic domain permanent atomic magnetic moments are aligned ____ to one another.

A) antiparallel
B) parallel
C) perpendicular
D) alternately parallel and antiparallel
E) randomly relative
Question
Two parallel and coaxial current loops of radius a are placed a distance 2L apart. The current in each ring circulates in the same direction. At a point on the axis half way between the loops the magnetic field in T has magnitude

A) 0.
B)
<strong>Two parallel and coaxial current loops of radius a are placed a distance 2L apart. The current in each ring circulates in the same direction. At a point on the axis half way between the loops the magnetic field in T has magnitude</strong> A) 0. B) . C) . D) . E) . <div style=padding-top: 35px> .
C)
<strong>Two parallel and coaxial current loops of radius a are placed a distance 2L apart. The current in each ring circulates in the same direction. At a point on the axis half way between the loops the magnetic field in T has magnitude</strong> A) 0. B) . C) . D) . E) . <div style=padding-top: 35px> .
D)
<strong>Two parallel and coaxial current loops of radius a are placed a distance 2L apart. The current in each ring circulates in the same direction. At a point on the axis half way between the loops the magnetic field in T has magnitude</strong> A) 0. B) . C) . D) . E) . <div style=padding-top: 35px> .
E)
<strong>Two parallel and coaxial current loops of radius a are placed a distance 2L apart. The current in each ring circulates in the same direction. At a point on the axis half way between the loops the magnetic field in T has magnitude</strong> A) 0. B) . C) . D) . E) . <div style=padding-top: 35px> .
Question
Two parallel and coaxial current loops of radius a are placed a distance 2L apart. When you look along the axis at the loops, the current in one is clockwise, and counterclockwise in the other. At a point on the axis half way between the loops the magnetic field in T has magnitude

A) 0.
B)
<strong>Two parallel and coaxial current loops of radius a are placed a distance 2L apart. When you look along the axis at the loops, the current in one is clockwise, and counterclockwise in the other. At a point on the axis half way between the loops the magnetic field in T has magnitude</strong> A) 0. B) . C) . D) . E) . <div style=padding-top: 35px> .
C)
<strong>Two parallel and coaxial current loops of radius a are placed a distance 2L apart. When you look along the axis at the loops, the current in one is clockwise, and counterclockwise in the other. At a point on the axis half way between the loops the magnetic field in T has magnitude</strong> A) 0. B) . C) . D) . E) . <div style=padding-top: 35px> .
D)
<strong>Two parallel and coaxial current loops of radius a are placed a distance 2L apart. When you look along the axis at the loops, the current in one is clockwise, and counterclockwise in the other. At a point on the axis half way between the loops the magnetic field in T has magnitude</strong> A) 0. B) . C) . D) . E) . <div style=padding-top: 35px> .
E)
<strong>Two parallel and coaxial current loops of radius a are placed a distance 2L apart. When you look along the axis at the loops, the current in one is clockwise, and counterclockwise in the other. At a point on the axis half way between the loops the magnetic field in T has magnitude</strong> A) 0. B) . C) . D) . E) . <div style=padding-top: 35px> .
Question
At a point in space where the magnetic field is measured, the magnetic field produced by a current element

A) points radially away in the direction from the current element to the point in space.
B) points radially in the direction from the point in space towards the current element.
C) points in a direction parallel to the current element.
D) points in a direction parallel to but opposite in direction to the current element.
E) points in a direction that is perpendicular to the current element and perpendicular to the radial direction.
Question
Equal currents of magnitude I travel out of the page in wires M and N. Eight directions are indicated by letters A through H. <strong>Equal currents of magnitude I travel out of the page in wires M and N. Eight directions are indicated by letters A through H. The direction of the magnetic field at point P is</strong> A) E. B) F. C) G. D) H. E) A. <div style=padding-top: 35px> The direction of the magnetic field at point P is

A) E.
B) F.
C) G.
D) H.
E) A.
Question
Equal currents of magnitude I travel into the page in wire M and out of the page in wire N. Eight directions are indicated by letters A through H. <strong>Equal currents of magnitude I travel into the page in wire M and out of the page in wire N. Eight directions are indicated by letters A through H. The direction of the magnetic field at point P is</strong> A) C. B) E. C) F. D) G. E) H. <div style=padding-top: 35px> The direction of the magnetic field at point P is

A) C.
B) E.
C) F.
D) G.
E) H.
Question
When a microwave filter consisting of vertical parallel metal rods is in the absorbing position, oscillating currents are set up in the rods. At any one instant, the current in each rod has the same magnitude and direction. At that instant

A) the rods will try to move apart horizontally.
B) the rods will try to move together horizontally.
C) the rods will try to shift vertically upwards.
D) the rods will try to shift vertically downwards.
E) the rods will not be affected because the source of current is not a battery.
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Deck 30: Sources of the Magnetic Field
1
Two long parallel wires each carry a current of 5.0 A directed to the east. The two wires are separated by 8.0 cm. What is the magnitude of the magnetic field at a point that is 5.0 cm from each of the wires?

A) 72 μT
B) 48 μT
C) 24 μT
D) 96 μT
E) 32 μT
24 μT
2
Two long parallel wires separated by 5.0 mm each carry a current of 60 A. These two currents are oppositely directed. What is the magnitude of the magnetic field at a point that is between the two wires and 2.0 mm from one of the two wires?

A) 2.0 mT
B) 10 mT
C) 8.0 mT
D) 1.6 mT
E) 7.2 mT
10 mT
3
Each of two long straight parallel wires separated by a distance of 16 cm carries a current of 20 A in the same direction. What is the magnitude of the resulting magnetic field at a point that is 10 cm from each wire?

A) 57 μT
B) 80 μT
C) 64 μT
D) 48 μT
E) 40 μT
48 μT
4
If a = 2.0 cm, b = 5.0 cm, and I = 20 A, what is the magnitude of the magnetic field at the point P? <strong>If a = 2.0 cm, b = 5.0 cm, and I = 20 A, what is the magnitude of the magnetic field at the point P? </strong> A) 4.5 μT B) 7.5 μT C) 9.0 μT D) 6.0 μT E) 3.6 μT

A) 4.5 μT
B) 7.5 μT
C) 9.0 μT
D) 6.0 μT
E) 3.6 μT
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5
One long wire carries a current of 30 A along the entire x axis. A second long wire carries a current of 40 A perpendicular to the xy plane and passes through the point (0, 4, 0) m. What is the magnitude of the resulting magnetic field at the point y = 2.0 m on the y axis?

A) 4.0 μT
B) 5.0 μT
C) 3.0 μT
D) 7.0 μT
E) 1.0 μT
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6
A straight wire (length = 8.0 m) is bent to form a square. If the wire carries a current of 20 A, what is the magnitude of the magnetic field at the center of the square?

A) 17 μT
B) 14 μT
C) 11 μT
D) 20 μT
E) 36 μT
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7
A 2.0-cm length of wire centered on the origin carries a 20-A current directed in the positive y direction. Determine the magnetic field at the point x = 5.0 m on the x-axis.

A) 1.6 nT in the negative z direction
B) 1.6 nT in the positive z direction
C) 2.4 nT in the negative z direction
D) None of the above
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8
Each of two parallel wires separated by 6.0 mm carries a 40-A current. These two currents are in the same direction. Determine the magnitude of the magnetic field at a point that is 5.0 mm from each of the wires.

A) 2.6 mT
B) zero
C) 1.9 mT
D) 1.6 mT
E) 3.2 mT
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9
Two long parallel wires carry unequal currents in the same direction. The ratio of the currents is 3 to 1. The magnitude of the magnetic field at a point in the plane of the wires and 10 cm from each wire is 4.0 μT. What is the larger of the two currents?

A) 5.3 A
B) 3.8 A
C) 4.5 A
D) 3.0 A
E) 0.5 A
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10
Three long wires parallel to the x axis carry currents as shown. If I = 20 A, what is the magnitude of the magnetic field at the origin? <strong>Three long wires parallel to the x axis carry currents as shown. If I = 20 A, what is the magnitude of the magnetic field at the origin? </strong> A) 37 μT B) 28 μT C) 19 μT D) 47 μT E) 58 μT

A) 37 μT
B) 28 μT
C) 19 μT
D) 47 μT
E) 58 μT
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11
A long straight wire carries a current of 40 A in a region where a uniform external magnetic field has a 30-μT magnitude and is parallel to the current. What is the magnitude of the resultant magnetic field at a point that is 20 cm from the wire?

A) 70 μT
B) 40 μT
C) 10 μT
D) 50 μT
E) 36 μT
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12
Two long straight wires carry currents perpendicular to the xy plane. One carries a current of 50 A and passes through the point x = 5.0 cm on the x axis. The second wire has a current of 80 A and passes through the point y = 4.0 cm on the y axis. What is the magnitude of the resulting magnetic field at the origin?

A) 200 μT
B) 600 μT
C) 450 μT
D) 300 μT
E) 400 μT
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13
A segment of wire of total length 3.0 m carries a 15-A current and is formed into a semicircle. Determine the magnitude of the magnetic field at the center of the circle along which the wire is placed.

A) 1.6 μT
B) 4.9 μT
C) 1.0 μT
D) 9.8 μT
E) 15 μT
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14
Two long parallel wires separated by 4.0 mm each carry a current of 24 A. These two currents are in the same direction. What is the magnitude of the magnetic field at a point that is between the two wires and 1.0 mm from one of the two wires?

A) 4.8 mT
B) 6.4 mT
C) 3.2 mT
D) 9.6 mT
E) 5.3 mT
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15
Two long straight parallel wires separated by a distance of 20 cm carry currents of 30 A and 40 A in opposite directions. What is the magnitude of the resulting magnetic field at a point that is 15 cm from the wire carrying the 30-A current and 25 cm from the other wire?

A) 51 μT
B) 33 μT
C) 72 μT
D) 64 μT
E) 46 μT
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16
Each of two parallel wires separated by 8.0 mm carries a 20-A current. These two currents are oppositely directed. Determine the magnitude of the magnetic field at a point that is 5.0 mm from each of the wires.

A) 2.0 mT
B) 1.6 mT
C) 1.3 mT
D) 1.8 mT
E) 1.0 mT
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17
Two long parallel wires carry unequal currents in opposite directions. The ratio of the currents is 3 to 1. The magnitude of the magnetic field at a point in the plane of the wires and 10 cm from each wire is 4.0 μT. What is the larger of the two currents?

A) 0.5 A
B) 1.0 A
C) 1.5 A
D) 2.0 A
E) 3.0 A
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18
If a = 1.0 cm, b = 3.0 cm, and I = 30 A, what is the magnitude of the magnetic field at point P? <strong>If a = 1.0 cm, b = 3.0 cm, and I = 30 A, what is the magnitude of the magnetic field at point P? </strong> A) 0.62 mT B) 0.59 mT C) 0.35 mT D) 0.31 mT E) 0.10 mT

A) 0.62 mT
B) 0.59 mT
C) 0.35 mT
D) 0.31 mT
E) 0.10 mT
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19
A segment of wire of total length 2.0 m is formed into a circular loop having 5.0 turns. If the wire carries a 1.2-A current, determine the magnitude of the magnetic field at the center of the loop.

A) 79 μT
B) 69 μT
C) 59 μT
D) 89 μT
E) 9.4 μT
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20
Two very long parallel wires carry currents in the positive x direction. One wire (current = 15 A) is coincident with the x axis. The other wire (current = 50 A) passes through the point (0, 4.0 mm, 0). What is the magnitude of the magnetic field at the point (0, 0, 3.0 mm)?

A) 3.8 mT
B) 2.7 mT
C) 2.9 mT
D) 3.0 mT
E) 0.6 mT
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21
The figure shows a cross section of three parallel wires each carrying a current of 5.0 A out of the paper. If the distance R = 6.0 mm, what is the magnitude of the magnetic force on a 2.0-m length of any one of the wires? <strong>The figure shows a cross section of three parallel wires each carrying a current of 5.0 A out of the paper. If the distance R = 6.0 mm, what is the magnitude of the magnetic force on a 2.0-m length of any one of the wires? </strong> A) 2.5 mN B) 3.3 mN C) 2.2 mN D) 2.9 mN E) 1.7 mN

A) 2.5 mN
B) 3.3 mN
C) 2.2 mN
D) 2.9 mN
E) 1.7 mN
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22
Two long parallel wires are separated by 2.0 cm. The current in one of the wires is three times the other current. If the magnitude of the force on a 2.0-m length of one of the wires is equal to 60 μN, what is the greater of the two currents?

A) 2.0 A
B) 1.0 A
C) 3.0 A
D) 9.0 A
E) 1.5 A
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23
The figure shows a cross section of three parallel wires each carrying a current of 24 A. The currents in wires B and C are out of the paper, while that in wire A is into the paper. If the distance R = 5.0 mm, what is the magnitude of the force on a 4.0-m length of wire A? <strong>The figure shows a cross section of three parallel wires each carrying a current of 24 A. The currents in wires B and C are out of the paper, while that in wire A is into the paper. If the distance R = 5.0 mm, what is the magnitude of the force on a 4.0-m length of wire A? </strong> A) 15 mN B) 77 mN C) 59 mN D) 12 mN E) 32 mN

A) 15 mN
B) 77 mN
C) 59 mN
D) 12 mN
E) 32 mN
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24
What is the magnitude of the magnetic field at point P if a = R and b = 2R? <strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E)

A)
<strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E)
B)
<strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E)
C)
<strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E)
D)
<strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E)
E)
<strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E)
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25
The figure shows a cross section of three parallel wires each carrying a current of 20 A. The currents in wires A and B are out of the paper, while that in wire C is into the paper. If the distance R = 5.0 mm, what is the magnitude of the force on a 2.0-m length of wire A? <strong>The figure shows a cross section of three parallel wires each carrying a current of 20 A. The currents in wires A and B are out of the paper, while that in wire C is into the paper. If the distance R = 5.0 mm, what is the magnitude of the force on a 2.0-m length of wire A? </strong> A) 23 mN B) 64 mN C) 32 mN D) 46 mN E) 55 mN

A) 23 mN
B) 64 mN
C) 32 mN
D) 46 mN
E) 55 mN
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26
A long straight wire (diameter = 2.0 mm) carries a current of 25 A. What is the magnitude of the magnetic field 0.50 mm from the axis of the wire?

A) 5.0 mT
B) 10 mT
C) 0.63 mT
D) 2.5 mT
E) 0.01 mT
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27
Three long, straight, parallel wires each carry a current of 10 A in the positive x direction. If the distance between each wire and the other two is 10 cm, what is the magnitude of the magnetic force on a 20-cm length of either of the wires?

A) 57 μN
B) 40 μN
C) 69 μN
D) 50 μN
E) 20 μN
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28
What is the magnitude of the magnetic field at point P if a = R and b = 2R? <strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E)

A)
<strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E)
B)
<strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E)
C)
<strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E)
D)
<strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E)
E)
<strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E)
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29
A long straight wire (diameter = 2.0 mm) carries a current of 40 A. What is the magnitude of the magnetic field 1.5 mm from the axis of the wire?

A) 3.0 mT
B) 12 mT
C) 5.3 mT
D) 7.4 mT
E) 8.0 mT
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30
In the figure, if a = 2.0 cm, b = 4.0 cm, and I = 2.0 A, what is the magnitude of the magnetic field at point P? <strong>In the figure, if a = 2.0 cm, b = 4.0 cm, and I = 2.0 A, what is the magnitude of the magnetic field at point P? </strong> A) 49 μT B) 39 μT C) 50 μT D) 69 μT E) 13 μT

A) 49 μT
B) 39 μT
C) 50 μT
D) 69 μT
E) 13 μT
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31
A hollow cylindrical (inner radius = 1.0 mm, outer radius = 3.0 mm) conductor carries a current of 80 A parallel to its axis. This current is uniformly distributed over a cross section of the conductor. Determine the magnitude of the magnetic field at a point that is 2.0 mm from the axis of the conductor.

A) 8.0 mT
B) 3.0 mT
C) 5.3 mT
D) 16 mT
E) 1.2 mT
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32
The segment of wire (total length = 6R, including the incoming and outgoing portions of the wire) is formed into the shape shown and carries a current I. What is the magnitude of the resulting magnetic field at the point P? <strong>The segment of wire (total length = 6R, including the incoming and outgoing portions of the wire) is formed into the shape shown and carries a current I. What is the magnitude of the resulting magnetic field at the point P? </strong> A) B) C) D) E)

A)
<strong>The segment of wire (total length = 6R, including the incoming and outgoing portions of the wire) is formed into the shape shown and carries a current I. What is the magnitude of the resulting magnetic field at the point P? </strong> A) B) C) D) E)
B)
<strong>The segment of wire (total length = 6R, including the incoming and outgoing portions of the wire) is formed into the shape shown and carries a current I. What is the magnitude of the resulting magnetic field at the point P? </strong> A) B) C) D) E)
C)
<strong>The segment of wire (total length = 6R, including the incoming and outgoing portions of the wire) is formed into the shape shown and carries a current I. What is the magnitude of the resulting magnetic field at the point P? </strong> A) B) C) D) E)
D)
<strong>The segment of wire (total length = 6R, including the incoming and outgoing portions of the wire) is formed into the shape shown and carries a current I. What is the magnitude of the resulting magnetic field at the point P? </strong> A) B) C) D) E)
E)
<strong>The segment of wire (total length = 6R, including the incoming and outgoing portions of the wire) is formed into the shape shown and carries a current I. What is the magnitude of the resulting magnetic field at the point P? </strong> A) B) C) D) E)
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33
What is the magnitude of the magnetic field at point P in the figure if a = 2.0 cm, b = 4.5 cm, and I = 5.0 A? <strong>What is the magnitude of the magnetic field at point P in the figure if a = 2.0 cm, b = 4.5 cm, and I = 5.0 A? </strong> A) 87 μT, into the paper B) 87 μT, out of the paper C) 0.23 mT, out of the paper D) 0.23 mT, into the paper E) 23 μT, into the paper

A) 87 μT, into the paper
B) 87 μT, out of the paper
C) 0.23 mT, out of the paper
D) 0.23 mT, into the paper
E) 23 μT, into the paper
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34
Three long, straight, parallel wires all lie in the yz plane and each carries a current of 20 A in the positive z direction. The two outer wires are each 4.0 cm from the center wire. What is the magnitude of the magnetic force on a 50-cm length of either of the outer wires?

A) 1.0 mN
B) 0.50 mN
C) 1.1 mN
D) 1.5 mN
E) 2.0 mN
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35
Two long parallel wires are separated by 6.0 mm. The current in one of the wires is twice the other current. If the magnitude of the force on a 3.0-m length of one of the wires is equal to 8.0 μN, what is the greater of the two currents?

A) 0.20 A
B) 0.40 A
C) 40 mA
D) 20 mA
E) 0.63 A
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36
What is the magnitude of the magnetic field at point P if a = R and b = 2R? <strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E)

A)
<strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E)
B)
<strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E)
C)
<strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E)
D)
<strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E)
E)
<strong>What is the magnitude of the magnetic field at point P if a = R and b = 2R? </strong> A) B) C) D) E)
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37
Two long parallel wires are separated by 4.0 cm. One of the wires carries a current of 20 A and the other carries a 30-A current. Determine the magnitude of the magnetic force on a 2.0-m length of the wire carrying the greater current.

A) 7.0 mN
B) 6.0 mN
C) 8.0 mN
D) 9.0 mN
E) 4.0 mN
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38
The segment of wire (total length including portions of incoming and outgoing wire = 6R) is formed into the shape shown and carries a current I. What is the magnitude of the resulting magnetic field at the point P? <strong>The segment of wire (total length including portions of incoming and outgoing wire = 6R) is formed into the shape shown and carries a current I. What is the magnitude of the resulting magnetic field at the point P? </strong> A) B) C) D) E)

A)
<strong>The segment of wire (total length including portions of incoming and outgoing wire = 6R) is formed into the shape shown and carries a current I. What is the magnitude of the resulting magnetic field at the point P? </strong> A) B) C) D) E)
B)
<strong>The segment of wire (total length including portions of incoming and outgoing wire = 6R) is formed into the shape shown and carries a current I. What is the magnitude of the resulting magnetic field at the point P? </strong> A) B) C) D) E)
C)
<strong>The segment of wire (total length including portions of incoming and outgoing wire = 6R) is formed into the shape shown and carries a current I. What is the magnitude of the resulting magnetic field at the point P? </strong> A) B) C) D) E)
D)
<strong>The segment of wire (total length including portions of incoming and outgoing wire = 6R) is formed into the shape shown and carries a current I. What is the magnitude of the resulting magnetic field at the point P? </strong> A) B) C) D) E)
E)
<strong>The segment of wire (total length including portions of incoming and outgoing wire = 6R) is formed into the shape shown and carries a current I. What is the magnitude of the resulting magnetic field at the point P? </strong> A) B) C) D) E)
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39
A long cylindrical wire (radius = 2.0 cm) carries a current of 40 A that is uniformly distributed over a cross section of the wire. What is the magnitude of the magnetic field at a point which is 1.5 cm from the axis of the wire?

A) 0.53 mT
B) 28 mT
C) 0.30 mT
D) 40 mT
E) 1.9 mT
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40
The figure shows a cross section of three parallel wires each carrying a current of 15 A. The currents in wires A and C are out of the paper, while that in wire B is into the paper. If the distance R = 5.0 mm, what is the magnitude of the force on a 4.0-m length of wire C? <strong>The figure shows a cross section of three parallel wires each carrying a current of 15 A. The currents in wires A and C are out of the paper, while that in wire B is into the paper. If the distance R = 5.0 mm, what is the magnitude of the force on a 4.0-m length of wire C? </strong> A) 90 mN B) 54 mN C) 30 mN D) 18 mN E) 36 mN

A) 90 mN
B) 54 mN
C) 30 mN
D) 18 mN
E) 36 mN
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41
A long solenoid (1500 turns/m) carries a current of 20 mA and has an inside diameter of 4.0 cm. A long wire carries a current of 2.0 A along the axis of the solenoid. What is the magnitude of the magnetic field at a point that is inside the solenoid and 1.0 cm from the wire?

A) 78 μT
B) 55 μT
C) 48 μT
D) 68 μT
E) 2.0 μT
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42
A long wire is known to have a radius greater than 4.0 mm and to carry a current uniformly distributed over its cross section. If the magnitude of the magnetic field is 0.285 mT at a point 4.0 mm from the axis of the wire and 0.200 mT at a point 10 mm from the axis, what is the radius of the wire?

A) 4.6 mm
B) 7.1 mm
C) 5.3 mm
D) 12 mm
E) 10 mm
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43
A long hollow cylindrical conductor (inner radius = 2.0 mm, outer radius = 4.0 mm) carries a current of 24 A distributed uniformly across its cross section. A long wire which is coaxial with the cylinder carries an equal current in the opposite direction. What is the magnitude of the magnetic field 3.0 mm from the axis?

A) 0.82 mT
B) 0.93 mT
C) 0.70 mT
D) 0.58 mT
E) 0.40 mT
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44
A conducting rod with a square cross section (3.0 cm × 3.0 cm) carries a current of 60 A that is uniformly distributed across the cross section. What is the magnitude of the (line) integral <strong>A conducting rod with a square cross section (3.0 cm × 3.0 cm) carries a current of 60 A that is uniformly distributed across the cross section. What is the magnitude of the (line) integral around a square path (1.5 cm × 1.5 cm) if the path is centered on the center of the rod and lies in a plane perpendicular to the axis of the rod?</strong> A) 14 μT ⋅ m B) 75 μT ⋅ m C) 19 μT ⋅ m D) 57 μT ⋅ m E) 38 μT ⋅ m around a square path (1.5 cm × 1.5 cm) if the path is centered on the center of the rod and lies in a plane perpendicular to the axis of the rod?

A) 14 μT ⋅ m
B) 75 μT ⋅ m
C) 19 μT ⋅ m
D) 57 μT ⋅ m
E) 38 μT ⋅ m
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45
By using a compass to measure the magnetic field direction at various points adjacent to a long straight wire, you can show that the wire's magnetic field lines are

A) straight lines in space that go from one magnetic charge to another.
B) straight lines in space that are parallel to the wire.
C) straight lines in space that are perpendicular to the wire.
D) circles that have their centers on the wire and lie in planes perpendicular to the wire.
E) circles that have the wire lying along a diameter of the circle.
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46
A current-carrying 2.0-cm long segment of wire is inside a long solenoid (radius = 4.0 cm, n = 800 turns/m, current = 50 mA). The wire segment is oriented perpendicularly to the axis of the solenoid. If the current in the wire segment is 12 A, what is the magnitude of the magnetic force on this segment?

A) 22 μN
B) 16 μN
C) 18 μN
D) 12 μN
E) 0 μN
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47
A long straight wire (diameter = 2.0 mm) carries a current of 30 A. What is the magnitude of the magnetic field 2.5 mm from the axis of the wire?

A) 3.2 mT
B) 2.8 mT
C) 2.4 mT
D) 3.6 mT
E) 3.0 mT
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48
Which diagram correctly shows the magnetic field lines created by a circular current loop in which current flows in the direction shown?

A)
<strong>Which diagram correctly shows the magnetic field lines created by a circular current loop in which current flows in the direction shown?</strong> A) B) C) D) E)
B)
<strong>Which diagram correctly shows the magnetic field lines created by a circular current loop in which current flows in the direction shown?</strong> A) B) C) D) E)
C)
<strong>Which diagram correctly shows the magnetic field lines created by a circular current loop in which current flows in the direction shown?</strong> A) B) C) D) E)
D)
<strong>Which diagram correctly shows the magnetic field lines created by a circular current loop in which current flows in the direction shown?</strong> A) B) C) D) E)
E)
<strong>Which diagram correctly shows the magnetic field lines created by a circular current loop in which current flows in the direction shown?</strong> A) B) C) D) E)
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49
A long solenoid (n = 1200 turns/m, radius = 2.0 cm) has a current of a 0.30 A in its winding. A long wire carrying a current of 20 A is parallel to and 1.0 cm from the axis of the solenoid. What is the magnitude of the resulting magnetic field at a point on the axis of the solenoid?

A) 0.60 mT
B) 0.85 mT
C) 52 μT
D) 0.40 mT
E) 0.75 mT
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50
A conducting hollow cylinder (inner radius = a, outer radius = b) carries a current of 40 A that is uniformly distributed over the cross section of the conductor. If a = 3.0 mm and b = 6.0 mm, what is the magnitude of the (line) integral <strong>A conducting hollow cylinder (inner radius = a, outer radius = b) carries a current of 40 A that is uniformly distributed over the cross section of the conductor. If a = 3.0 mm and b = 6.0 mm, what is the magnitude of the (line) integral around a circular path (radius = 5.0 mm) centered on the axis of the cylinder and in a plane perpendicular to that axis?</strong> A) 50 μT ⋅ m B) 30 μT ⋅ m C) 22 μT ⋅ m D) 37 μT ⋅ m E) 47 μT ⋅ m around a circular path (radius = 5.0 mm) centered on the axis of the cylinder and in a plane perpendicular to that axis?

A) 50 μT ⋅ m
B) 30 μT ⋅ m
C) 22 μT ⋅ m
D) 37 μT ⋅ m
E) 47 μT ⋅ m
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51
A long hollow cylindrical conductor (inner radius = 2.0 mm, outer radius = 4.0 mm) carries a current of 12 A distributed uniformly across its cross section. A long wire which is coaxial with the cylinder carries an equal current in the same direction. What is the magnitude of the magnetic field 3.0 mm from the axis?

A) 1.1 mT
B) 1.4 mT
C) 1.7 mT
D) 2.0 mT
E) 0.2 mT
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52
When the number of turns in a solenoid and its length are both doubled, the ratio of the magnitude of the new magnetic field inside to the magnitude of the original magnetic field inside is:

A) 0.25
B) 0.50
C) 1
D) 2
E) 4
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53
A long, straight wire (radius = 2.0 mm) carries a current of 2.0 A distributed uniformly over a cross section perpendicular to the axis of the wire. What is the magnitude of the magnetic field at a distance of 1.0 mm from the axis of the wire?

A) 0.40 mT
B) 0.80 mT
C) 0.10 mT
D) 0.20 mT
E) 0.75 mT
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54
A long solenoid (diameter = 5.0 cm) is wound with 960 turns per meter of thin wire through which a current of 300 mA is maintained. A wire carrying 12 A is inserted along the axis of the solenoid. What is the magnitude of the magnetic field at a point 2.0 cm from the axis?

A) 0.41 mT
B) 0.48 mT
C) 0.38 mT
D) 0.56 mT
E) 0.24 mT
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55
A single circular (radius = R) loop of wire is located in the yz plane with its center at the origin. The loop has a clockwise current as seen from the point (+R, 0, 0). The direction of the magnetic field at the point

A) (0, 0, 0) is −i and at the point (+R, 0, 0) is −i.
B) (0, 0, 0) is −i and at the point (0, +2R, 0) is −i.
C) (0, 0, 0) is +i and at the point (+R, 0, 0) is +i.
D) (0, 0, 0) is +i and at the point (0, +2R, 0) is +i.
E) None of the above
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56
A solenoid 4.0 cm in radius and 4.0 m in length has 8 000 uniformly spaced turns and carries a current of 5.0 A. Consider a plane circular surface (radius = 2.0 cm) located at the center of the solenoid with its axis coincident with the axis of the solenoid. What is the magnetic flux through this surface? (1 Wb = 1 T ⋅ m2)

A) 63 μWb
B) 16 μWb
C) 0.25 mWb
D) 10 μWb
E) 5.0 μWb
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57
A long solenoid (1000 turns/m) carries a current of 25 mA and has an inside radius of 2.0 cm. A long wire which is parallel to and 4.0 cm from the axis of the solenoid carries a current of 6.0 A. What is the magnitude of the magnetic field at a point on the axis of the solenoid?

A) 51 μT
B) 61 μT
C) 43 μT
D) 81 μT
E) 1.4 μT
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58
A long wire carries a current of 3.0 A along the axis of a long solenoid (radius = 3.0 cm, n = 900 turns/m, current = 30 mA). What is the magnitude of the magnetic field at a point 2.0 cm from the axis of the solenoid? Neglect any end effects.

A) 34 μT
B) 64 μT
C) 30 μT
D) 45 μT
E) 4.0 μT
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59
A hollow cylindrical (inner radius = 2.0 mm, outer radius = 4.0 mm) conductor carries a current of 24 A parallel to its axis. This current is uniformly distributed over a cross section of the conductor. Determine the magnitude of the magnetic field at a point that is 5.0 mm from the axis of the conductor.

A) 0.96 mT
B) 1.7 mT
C) 0.55 mT
D) 1.2 mT
E) 0.40 mT
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60
Gauss's Law states that the net electric flux, <strong>Gauss's Law states that the net electric flux, , through any closed surface is proportional to the charge enclosed: . The analogous formula for magnetic fields is:</strong> A) . B) . C) . D) . E) . , through any closed surface is proportional to the charge enclosed: <strong>Gauss's Law states that the net electric flux, , through any closed surface is proportional to the charge enclosed: . The analogous formula for magnetic fields is:</strong> A) . B) . C) . D) . E) . . The analogous formula for magnetic fields is:

A)
<strong>Gauss's Law states that the net electric flux, , through any closed surface is proportional to the charge enclosed: . The analogous formula for magnetic fields is:</strong> A) . B) . C) . D) . E) . .
B)
<strong>Gauss's Law states that the net electric flux, , through any closed surface is proportional to the charge enclosed: . The analogous formula for magnetic fields is:</strong> A) . B) . C) . D) . E) . .
C)
<strong>Gauss's Law states that the net electric flux, , through any closed surface is proportional to the charge enclosed: . The analogous formula for magnetic fields is:</strong> A) . B) . C) . D) . E) . .
D)
<strong>Gauss's Law states that the net electric flux, , through any closed surface is proportional to the charge enclosed: . The analogous formula for magnetic fields is:</strong> A) . B) . C) . D) . E) . .
E)
<strong>Gauss's Law states that the net electric flux, , through any closed surface is proportional to the charge enclosed: . The analogous formula for magnetic fields is:</strong> A) . B) . C) . D) . E) . .
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61
A long wire lies in a tangle on the surface of a table, as shown below. When a current is run through the wire as shown, the largest component of the magnetic field at X points <strong>A long wire lies in a tangle on the surface of a table, as shown below. When a current is run through the wire as shown, the largest component of the magnetic field at X points </strong> A) into the table. B) out of the table. C) parallel to the nearest segment of wire. D) antiparallel to the nearest segment of wire. E) along a circle which has its center at the center of the overall loop.

A) into the table.
B) out of the table.
C) parallel to the nearest segment of wire.
D) antiparallel to the nearest segment of wire.
E) along a circle which has its center at the center of the overall loop.
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62
A solenoid consists of 100 circular turns of copper wire. Parts of three turns, A, B and C, are shown below. <strong>A solenoid consists of 100 circular turns of copper wire. Parts of three turns, A, B and C, are shown below. When a current flows through the coil,</strong> A) both A and C are repelled by B. B) A is attracted to B; C is repelled by B. C) neither A nor C is attracted to or repelled by B. D) A is repelled by B; C is attracted to B. E) both A and C are attracted to B. When a current flows through the coil,

A) both A and C are repelled by B.
B) A is attracted to B; C is repelled by B.
C) neither A nor C is attracted to or repelled by B.
D) A is repelled by B; C is attracted to B.
E) both A and C are attracted to B.
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63
The magnetic moment of an electron (charge = −e; mass = me) moving in a circular orbit of radius r with speed v about a nucleus of mass mN is proportional to

A) r.
B) v.
C) vr.
D) evr.
E) mNvr.
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64
Equal currents of magnitude I travel into the page in wires M and N. Eight directions are indicated by letters A through H. <strong>Equal currents of magnitude I travel into the page in wires M and N. Eight directions are indicated by letters A through H. The direction of the magnetic field at point P is</strong> A) B. B) C. C) D. D) E. E) F. The direction of the magnetic field at point P is

A) B.
B) C.
C) D.
D) E.
E) F.
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65
Two solenoids are each made of 2 000 turns of copper wire per meter. Solenoid I is 2 m long, while solenoid II is 1 m long. When equal currents are present in the two solenoids, the ratio of the magnetic field BI along the axis of solenoid I to the magnetic field BII along the axis of solenoid II, BI/BII, is

A) 1/4.
B) 1/2.
C) 1.
D) 2
E) 4.
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66
A toroid is made of 2 000 turns of wire of radius 2.00 cm formed into a donut shape of inner radius 10.0 cm and outer radius 14.0 cm. When a 30.0-A current is present in the toroid, the magnetic field at a distance of 11.0 cm from the center of the toroid is

A) 0.0857 T.
B) 0.109 T.
C) 0.120 T.
D) 0.600 T.
E) 0.685 T.
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67
A 0.50-m long solenoid consists of 1 000 turns of copper wire wound with a 4.0 cm radius. When the current in the solenoid is 18 A, the magnetic field at a point 1.0 cm from the central axis of the solenoid is

A) 0.090 mT.
B) 0.36 mT.
C) 23 mT.
D) 36 mT.
E) 45 mT.
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68
If you were to travel parallel to an infinitely long straight wire with current I at the same velocity as the electrons in the wire at a distance a from the wire, the magnitude of the magnetic field (according to your measuring instruments) would be

A) 0.
B)
<strong>If you were to travel parallel to an infinitely long straight wire with current I at the same velocity as the electrons in the wire at a distance a from the wire, the magnitude of the magnetic field (according to your measuring instruments) would be</strong> A) 0. B) . C) . D) . E) . .
C)
<strong>If you were to travel parallel to an infinitely long straight wire with current I at the same velocity as the electrons in the wire at a distance a from the wire, the magnitude of the magnetic field (according to your measuring instruments) would be</strong> A) 0. B) . C) . D) . E) . .
D)
<strong>If you were to travel parallel to an infinitely long straight wire with current I at the same velocity as the electrons in the wire at a distance a from the wire, the magnitude of the magnetic field (according to your measuring instruments) would be</strong> A) 0. B) . C) . D) . E) . .
E)
<strong>If you were to travel parallel to an infinitely long straight wire with current I at the same velocity as the electrons in the wire at a distance a from the wire, the magnitude of the magnetic field (according to your measuring instruments) would be</strong> A) 0. B) . C) . D) . E) . .
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69
Two current loops are coaxial and coplanar. One has radius a and the other has radius 2a. Current 2I in the outer loop is parallel to current I in the inner loop. The magnitude of the magnetic field at the center of the two loops is

A) 0.
B)
<strong>Two current loops are coaxial and coplanar. One has radius a and the other has radius 2a. Current 2I in the outer loop is parallel to current I in the inner loop. The magnitude of the magnetic field at the center of the two loops is</strong> A) 0. B) . C) . D) . E) . .
C)
<strong>Two current loops are coaxial and coplanar. One has radius a and the other has radius 2a. Current 2I in the outer loop is parallel to current I in the inner loop. The magnitude of the magnetic field at the center of the two loops is</strong> A) 0. B) . C) . D) . E) . .
D)
<strong>Two current loops are coaxial and coplanar. One has radius a and the other has radius 2a. Current 2I in the outer loop is parallel to current I in the inner loop. The magnitude of the magnetic field at the center of the two loops is</strong> A) 0. B) . C) . D) . E) . .
E)
<strong>Two current loops are coaxial and coplanar. One has radius a and the other has radius 2a. Current 2I in the outer loop is parallel to current I in the inner loop. The magnitude of the magnetic field at the center of the two loops is</strong> A) 0. B) . C) . D) . E) . .
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70
Two solenoids of equal length are each made of 2000 turns of copper wire per meter. Solenoid I has a 5.00 cm radius; solenoid II a 10.0 cm radius. When equal currents are present in the two solenoids, the ratio of the magnitude of the magnetic field BI along the axis of solenoid I to the magnitude of the magnetic field BII along the axis of solenoid II, BI/BII, is

A) 1/4.
B) 1/2.
C) 1.
D) 2.
E) 4.
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71
A thin infinitely large current sheet lies in the y-z plane. Current of magnitude Js per unit length along the z axis travels in the y-axis direction, which is up out of the page. Which diagram below correctly represents the direction of the magnetic field on either side of the sheet?

A)
<strong>A thin infinitely large current sheet lies in the y-z plane. Current of magnitude J<sub>s</sub> per unit length along the z axis travels in the y-axis direction, which is up out of the page. Which diagram below correctly represents the direction of the magnetic field on either side of the sheet?</strong> A) B) C) D) E)
B)
<strong>A thin infinitely large current sheet lies in the y-z plane. Current of magnitude J<sub>s</sub> per unit length along the z axis travels in the y-axis direction, which is up out of the page. Which diagram below correctly represents the direction of the magnetic field on either side of the sheet?</strong> A) B) C) D) E)
C)
<strong>A thin infinitely large current sheet lies in the y-z plane. Current of magnitude J<sub>s</sub> per unit length along the z axis travels in the y-axis direction, which is up out of the page. Which diagram below correctly represents the direction of the magnetic field on either side of the sheet?</strong> A) B) C) D) E)
D)
<strong>A thin infinitely large current sheet lies in the y-z plane. Current of magnitude J<sub>s</sub> per unit length along the z axis travels in the y-axis direction, which is up out of the page. Which diagram below correctly represents the direction of the magnetic field on either side of the sheet?</strong> A) B) C) D) E)
E)
<strong>A thin infinitely large current sheet lies in the y-z plane. Current of magnitude J<sub>s</sub> per unit length along the z axis travels in the y-axis direction, which is up out of the page. Which diagram below correctly represents the direction of the magnetic field on either side of the sheet?</strong> A) B) C) D) E)
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72
The following statements all refer to the human brain when mental activity is occurring. Which statement is correct?

A) In order to detect electric currents in the brain, you must open the skull and make direct electrical contact with the brain.
B) The electric currents in the brain can be detected outside the brain by detecting the magnetic fields they produce.
C) The electric currents in the brain can be mapped by shaving a person's head and dropping iron filings on the head.
D) The electric currents in the brain produce an aura that can be detected visually.
E) The electric currents in the brain cannot be detected by any means.
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73
Equal currents of magnitude I travel out of the page in wire M and into the page in wire N. Eight directions are indicated by letters A through H. <strong>Equal currents of magnitude I travel out of the page in wire M and into the page in wire N. Eight directions are indicated by letters A through H. The direction of the magnetic field at point P is</strong> A) A. B) B. C) C. D) D. E) E. The direction of the magnetic field at point P is

A) A.
B) B.
C) C.
D) D.
E) E.
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74
On the average, in a ferromagnetic domain permanent atomic magnetic moments are aligned ____ to one another.

A) antiparallel
B) parallel
C) perpendicular
D) alternately parallel and antiparallel
E) randomly relative
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75
Two parallel and coaxial current loops of radius a are placed a distance 2L apart. The current in each ring circulates in the same direction. At a point on the axis half way between the loops the magnetic field in T has magnitude

A) 0.
B)
<strong>Two parallel and coaxial current loops of radius a are placed a distance 2L apart. The current in each ring circulates in the same direction. At a point on the axis half way between the loops the magnetic field in T has magnitude</strong> A) 0. B) . C) . D) . E) . .
C)
<strong>Two parallel and coaxial current loops of radius a are placed a distance 2L apart. The current in each ring circulates in the same direction. At a point on the axis half way between the loops the magnetic field in T has magnitude</strong> A) 0. B) . C) . D) . E) . .
D)
<strong>Two parallel and coaxial current loops of radius a are placed a distance 2L apart. The current in each ring circulates in the same direction. At a point on the axis half way between the loops the magnetic field in T has magnitude</strong> A) 0. B) . C) . D) . E) . .
E)
<strong>Two parallel and coaxial current loops of radius a are placed a distance 2L apart. The current in each ring circulates in the same direction. At a point on the axis half way between the loops the magnetic field in T has magnitude</strong> A) 0. B) . C) . D) . E) . .
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76
Two parallel and coaxial current loops of radius a are placed a distance 2L apart. When you look along the axis at the loops, the current in one is clockwise, and counterclockwise in the other. At a point on the axis half way between the loops the magnetic field in T has magnitude

A) 0.
B)
<strong>Two parallel and coaxial current loops of radius a are placed a distance 2L apart. When you look along the axis at the loops, the current in one is clockwise, and counterclockwise in the other. At a point on the axis half way between the loops the magnetic field in T has magnitude</strong> A) 0. B) . C) . D) . E) . .
C)
<strong>Two parallel and coaxial current loops of radius a are placed a distance 2L apart. When you look along the axis at the loops, the current in one is clockwise, and counterclockwise in the other. At a point on the axis half way between the loops the magnetic field in T has magnitude</strong> A) 0. B) . C) . D) . E) . .
D)
<strong>Two parallel and coaxial current loops of radius a are placed a distance 2L apart. When you look along the axis at the loops, the current in one is clockwise, and counterclockwise in the other. At a point on the axis half way between the loops the magnetic field in T has magnitude</strong> A) 0. B) . C) . D) . E) . .
E)
<strong>Two parallel and coaxial current loops of radius a are placed a distance 2L apart. When you look along the axis at the loops, the current in one is clockwise, and counterclockwise in the other. At a point on the axis half way between the loops the magnetic field in T has magnitude</strong> A) 0. B) . C) . D) . E) . .
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77
At a point in space where the magnetic field is measured, the magnetic field produced by a current element

A) points radially away in the direction from the current element to the point in space.
B) points radially in the direction from the point in space towards the current element.
C) points in a direction parallel to the current element.
D) points in a direction parallel to but opposite in direction to the current element.
E) points in a direction that is perpendicular to the current element and perpendicular to the radial direction.
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78
Equal currents of magnitude I travel out of the page in wires M and N. Eight directions are indicated by letters A through H. <strong>Equal currents of magnitude I travel out of the page in wires M and N. Eight directions are indicated by letters A through H. The direction of the magnetic field at point P is</strong> A) E. B) F. C) G. D) H. E) A. The direction of the magnetic field at point P is

A) E.
B) F.
C) G.
D) H.
E) A.
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79
Equal currents of magnitude I travel into the page in wire M and out of the page in wire N. Eight directions are indicated by letters A through H. <strong>Equal currents of magnitude I travel into the page in wire M and out of the page in wire N. Eight directions are indicated by letters A through H. The direction of the magnetic field at point P is</strong> A) C. B) E. C) F. D) G. E) H. The direction of the magnetic field at point P is

A) C.
B) E.
C) F.
D) G.
E) H.
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80
When a microwave filter consisting of vertical parallel metal rods is in the absorbing position, oscillating currents are set up in the rods. At any one instant, the current in each rod has the same magnitude and direction. At that instant

A) the rods will try to move apart horizontally.
B) the rods will try to move together horizontally.
C) the rods will try to shift vertically upwards.
D) the rods will try to shift vertically downwards.
E) the rods will not be affected because the source of current is not a battery.
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