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Deck 12: Magnetic Fields

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Question
In the formula <strong>In the formula </strong> A) must be perpendicular to but not necessarily to B) must be perpendicular to but not necessarily to C) must be perpendicular to but not necessarily to D) all three vectors must be mutually perpendicular E) must be perpendicular to both <div style=padding-top: 35px>

A) <strong>In the formula </strong> A) must be perpendicular to but not necessarily to B) must be perpendicular to but not necessarily to C) must be perpendicular to but not necessarily to D) all three vectors must be mutually perpendicular E) must be perpendicular to both <div style=padding-top: 35px> must be perpendicular to <strong>In the formula </strong> A) must be perpendicular to but not necessarily to B) must be perpendicular to but not necessarily to C) must be perpendicular to but not necessarily to D) all three vectors must be mutually perpendicular E) must be perpendicular to both <div style=padding-top: 35px> but not necessarily to <strong>In the formula </strong> A) must be perpendicular to but not necessarily to B) must be perpendicular to but not necessarily to C) must be perpendicular to but not necessarily to D) all three vectors must be mutually perpendicular E) must be perpendicular to both <div style=padding-top: 35px>
B) <strong>In the formula </strong> A) must be perpendicular to but not necessarily to B) must be perpendicular to but not necessarily to C) must be perpendicular to but not necessarily to D) all three vectors must be mutually perpendicular E) must be perpendicular to both <div style=padding-top: 35px> must be perpendicular to <strong>In the formula </strong> A) must be perpendicular to but not necessarily to B) must be perpendicular to but not necessarily to C) must be perpendicular to but not necessarily to D) all three vectors must be mutually perpendicular E) must be perpendicular to both <div style=padding-top: 35px> but not necessarily to <strong>In the formula </strong> A) must be perpendicular to but not necessarily to B) must be perpendicular to but not necessarily to C) must be perpendicular to but not necessarily to D) all three vectors must be mutually perpendicular E) must be perpendicular to both <div style=padding-top: 35px>
C) <strong>In the formula </strong> A) must be perpendicular to but not necessarily to B) must be perpendicular to but not necessarily to C) must be perpendicular to but not necessarily to D) all three vectors must be mutually perpendicular E) must be perpendicular to both <div style=padding-top: 35px> must be perpendicular to <strong>In the formula </strong> A) must be perpendicular to but not necessarily to B) must be perpendicular to but not necessarily to C) must be perpendicular to but not necessarily to D) all three vectors must be mutually perpendicular E) must be perpendicular to both <div style=padding-top: 35px> but not necessarily to <strong>In the formula </strong> A) must be perpendicular to but not necessarily to B) must be perpendicular to but not necessarily to C) must be perpendicular to but not necessarily to D) all three vectors must be mutually perpendicular E) must be perpendicular to both <div style=padding-top: 35px>
D) all three vectors must be mutually perpendicular
E) <strong>In the formula </strong> A) must be perpendicular to but not necessarily to B) must be perpendicular to but not necessarily to C) must be perpendicular to but not necessarily to D) all three vectors must be mutually perpendicular E) must be perpendicular to both <div style=padding-top: 35px> must be perpendicular to both <strong>In the formula </strong> A) must be perpendicular to but not necessarily to B) must be perpendicular to but not necessarily to C) must be perpendicular to but not necessarily to D) all three vectors must be mutually perpendicular E) must be perpendicular to both <div style=padding-top: 35px>
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Question
A magnetic field exerts a force on a charged particle:

A) always
B) never
C) if the particle is moving across the field lines
D) if the particle is moving along the field lines
E) if the particle is at rest
Question
An electron is moving north in a region where the magnetic field is south. The magnetic force exerted on the electron is:

A) zero
B) up
C) down
D) east
E) west
Question
A magnetic field CANNOT:

A) exert a force on a charge
B) accelerate a charge
C) change the momentum of a charge
D) change the kinetic energy of a charge
E) exist
Question
A hydrogen atom that has lost its electron is moving east in a region where the magnetic field is directed from south to north. It will be deflected:

A) up
B) down
C) north
D) south
E) not at all
Question
An electron enters a region of uniform perpendicular <strong>An electron enters a region of uniform perpendicular fields. It is observed that the velocity of the electron is unaffected. A possible explanation is:</strong> A) is parallel to and has magnitude E/B B) is parallel to C) is perpendicular to both and has magnitude B/E D) is perpendicular to both and has magnitude E/B E) the given situation is impossible <div style=padding-top: 35px> fields. It is observed that the velocity <strong>An electron enters a region of uniform perpendicular fields. It is observed that the velocity of the electron is unaffected. A possible explanation is:</strong> A) is parallel to and has magnitude E/B B) is parallel to C) is perpendicular to both and has magnitude B/E D) is perpendicular to both and has magnitude E/B E) the given situation is impossible <div style=padding-top: 35px> of the electron is unaffected. A possible explanation is:

A) <strong>An electron enters a region of uniform perpendicular fields. It is observed that the velocity of the electron is unaffected. A possible explanation is:</strong> A) is parallel to and has magnitude E/B B) is parallel to C) is perpendicular to both and has magnitude B/E D) is perpendicular to both and has magnitude E/B E) the given situation is impossible <div style=padding-top: 35px> is parallel to <strong>An electron enters a region of uniform perpendicular fields. It is observed that the velocity of the electron is unaffected. A possible explanation is:</strong> A) is parallel to and has magnitude E/B B) is parallel to C) is perpendicular to both and has magnitude B/E D) is perpendicular to both and has magnitude E/B E) the given situation is impossible <div style=padding-top: 35px> and has magnitude E/B
B) <strong>An electron enters a region of uniform perpendicular fields. It is observed that the velocity of the electron is unaffected. A possible explanation is:</strong> A) is parallel to and has magnitude E/B B) is parallel to C) is perpendicular to both and has magnitude B/E D) is perpendicular to both and has magnitude E/B E) the given situation is impossible <div style=padding-top: 35px> is parallel to <strong>An electron enters a region of uniform perpendicular fields. It is observed that the velocity of the electron is unaffected. A possible explanation is:</strong> A) is parallel to and has magnitude E/B B) is parallel to C) is perpendicular to both and has magnitude B/E D) is perpendicular to both and has magnitude E/B E) the given situation is impossible <div style=padding-top: 35px>
C) <strong>An electron enters a region of uniform perpendicular fields. It is observed that the velocity of the electron is unaffected. A possible explanation is:</strong> A) is parallel to and has magnitude E/B B) is parallel to C) is perpendicular to both and has magnitude B/E D) is perpendicular to both and has magnitude E/B E) the given situation is impossible <div style=padding-top: 35px> is perpendicular to both <strong>An electron enters a region of uniform perpendicular fields. It is observed that the velocity of the electron is unaffected. A possible explanation is:</strong> A) is parallel to and has magnitude E/B B) is parallel to C) is perpendicular to both and has magnitude B/E D) is perpendicular to both and has magnitude E/B E) the given situation is impossible <div style=padding-top: 35px> and has magnitude B/E
D) <strong>An electron enters a region of uniform perpendicular fields. It is observed that the velocity of the electron is unaffected. A possible explanation is:</strong> A) is parallel to and has magnitude E/B B) is parallel to C) is perpendicular to both and has magnitude B/E D) is perpendicular to both and has magnitude E/B E) the given situation is impossible <div style=padding-top: 35px> is perpendicular to both <strong>An electron enters a region of uniform perpendicular fields. It is observed that the velocity of the electron is unaffected. A possible explanation is:</strong> A) is parallel to and has magnitude E/B B) is parallel to C) is perpendicular to both and has magnitude B/E D) is perpendicular to both and has magnitude E/B E) the given situation is impossible <div style=padding-top: 35px> and has magnitude E/B
E) the given situation is impossible
Question
An electron and a proton both each travel with equal speeds around circular orbits in the same uniform magnetic field, as shown in the diagram (not to scale).The field is into the page on the diagram.Because the electron is less massive than the proton and because the electron is negatively charged and the proton is positively charged:
<strong>An electron and a proton both each travel with equal speeds around circular orbits in the same uniform magnetic field, as shown in the diagram (not to scale).The field is into the page on the diagram.Because the electron is less massive than the proton and because the electron is negatively charged and the proton is positively charged: </strong> A) the electron travels clockwise around the smaller circle and the proton travels counterclockwise around the larger circle. B) the electron travels counterclockwise around the smaller circle and the proton travels clockwise around the larger circle C) the electron travels clockwise around the larger circle and the proton travels counterclockwise around the smaller circle D) the electron travels counterclockwise around the larger circle and the proton travels clockwise around the smaller circle E) the electron travels counterclockwise around the smaller circle and the proton travels counterclockwise around the larger circle <div style=padding-top: 35px>

A) the electron travels clockwise around the smaller circle and the proton travels counterclockwise around the larger circle.
B) the electron travels counterclockwise around the smaller circle and the proton travels clockwise around the larger circle
C) the electron travels clockwise around the larger circle and the proton travels counterclockwise around the smaller circle
D) the electron travels counterclockwise around the larger circle and the proton travels clockwise around the smaller circle
E) the electron travels counterclockwise around the smaller circle and the proton travels counterclockwise around the larger circle
Question
An electron is launched with velocity <strong>An electron is launched with velocity in a uniform magnetic field The angle \theta between is between 0 and 90<sup>o</sup>. As a result, the electron follows a helix, its velocity vector returning to its initial value in a time interval of:</strong> A) 2 \pi m/eB B) 2 \pi mv/eB C) 2 \pi mv sin \theta /eB D) 2 \pi mv cos \theta /eB E) none of these <div style=padding-top: 35px> in a uniform magnetic field <strong>An electron is launched with velocity in a uniform magnetic field The angle \theta between is between 0 and 90<sup>o</sup>. As a result, the electron follows a helix, its velocity vector returning to its initial value in a time interval of:</strong> A) 2 \pi m/eB B) 2 \pi mv/eB C) 2 \pi mv sin \theta /eB D) 2 \pi mv cos \theta /eB E) none of these <div style=padding-top: 35px> The angle θ\theta between <strong>An electron is launched with velocity in a uniform magnetic field The angle \theta between is between 0 and 90<sup>o</sup>. As a result, the electron follows a helix, its velocity vector returning to its initial value in a time interval of:</strong> A) 2 \pi m/eB B) 2 \pi mv/eB C) 2 \pi mv sin \theta /eB D) 2 \pi mv cos \theta /eB E) none of these <div style=padding-top: 35px> is between 0 and 90o. As a result, the electron follows a helix, its velocity vector <strong>An electron is launched with velocity in a uniform magnetic field The angle \theta between is between 0 and 90<sup>o</sup>. As a result, the electron follows a helix, its velocity vector returning to its initial value in a time interval of:</strong> A) 2 \pi m/eB B) 2 \pi mv/eB C) 2 \pi mv sin \theta /eB D) 2 \pi mv cos \theta /eB E) none of these <div style=padding-top: 35px> returning to its initial value in a time interval of:

A) 2 π\pi m/eB
B) 2 π\pi mv/eB
C) 2 π\pi mv sin θ\theta /eB
D) 2 π\pi mv cos θ\theta /eB
E) none of these
Question
A cyclotron operates with a given magnetic field and at a given frequency. If R denotes the radius of the final orbit, the final particle energy is proportional to:

A) 1/R
B) R
C) R2
D) R3
E) R4
Question
The diagrams show five possible orientations of a magnetic dipole <strong>The diagrams show five possible orientations of a magnetic dipole in a uniform magnetic field For which of these does the magnetic torque on the dipole have the greatest magnitude? </strong> A) I B) II C) III D) IV E) V <div style=padding-top: 35px> in a uniform magnetic field <strong>The diagrams show five possible orientations of a magnetic dipole in a uniform magnetic field For which of these does the magnetic torque on the dipole have the greatest magnitude? </strong> A) I B) II C) III D) IV E) V <div style=padding-top: 35px> For which of these does the magnetic torque on the dipole have the greatest magnitude?
<strong>The diagrams show five possible orientations of a magnetic dipole in a uniform magnetic field For which of these does the magnetic torque on the dipole have the greatest magnitude? </strong> A) I B) II C) III D) IV E) V <div style=padding-top: 35px>

A) I
B) II
C) III
D) IV
E) V
Question
The diagrms show five possible orientations of a magnetic dipole <strong>The diagrms show five possible orientations of a magnetic dipole in a uniform magnetic field For which of these is the potential energy the greatest? </strong> A) I B) II C) III D) IV E) V <div style=padding-top: 35px> in a uniform magnetic field <strong>The diagrms show five possible orientations of a magnetic dipole in a uniform magnetic field For which of these is the potential energy the greatest? </strong> A) I B) II C) III D) IV E) V <div style=padding-top: 35px> For which of these is the potential energy the greatest?
<strong>The diagrms show five possible orientations of a magnetic dipole in a uniform magnetic field For which of these is the potential energy the greatest? </strong> A) I B) II C) III D) IV E) V <div style=padding-top: 35px>

A) I
B) II
C) III
D) IV
E) V
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Deck 12: Magnetic Fields
1
In the formula <strong>In the formula </strong> A) must be perpendicular to but not necessarily to B) must be perpendicular to but not necessarily to C) must be perpendicular to but not necessarily to D) all three vectors must be mutually perpendicular E) must be perpendicular to both

A) <strong>In the formula </strong> A) must be perpendicular to but not necessarily to B) must be perpendicular to but not necessarily to C) must be perpendicular to but not necessarily to D) all three vectors must be mutually perpendicular E) must be perpendicular to both must be perpendicular to <strong>In the formula </strong> A) must be perpendicular to but not necessarily to B) must be perpendicular to but not necessarily to C) must be perpendicular to but not necessarily to D) all three vectors must be mutually perpendicular E) must be perpendicular to both but not necessarily to <strong>In the formula </strong> A) must be perpendicular to but not necessarily to B) must be perpendicular to but not necessarily to C) must be perpendicular to but not necessarily to D) all three vectors must be mutually perpendicular E) must be perpendicular to both
B) <strong>In the formula </strong> A) must be perpendicular to but not necessarily to B) must be perpendicular to but not necessarily to C) must be perpendicular to but not necessarily to D) all three vectors must be mutually perpendicular E) must be perpendicular to both must be perpendicular to <strong>In the formula </strong> A) must be perpendicular to but not necessarily to B) must be perpendicular to but not necessarily to C) must be perpendicular to but not necessarily to D) all three vectors must be mutually perpendicular E) must be perpendicular to both but not necessarily to <strong>In the formula </strong> A) must be perpendicular to but not necessarily to B) must be perpendicular to but not necessarily to C) must be perpendicular to but not necessarily to D) all three vectors must be mutually perpendicular E) must be perpendicular to both
C) <strong>In the formula </strong> A) must be perpendicular to but not necessarily to B) must be perpendicular to but not necessarily to C) must be perpendicular to but not necessarily to D) all three vectors must be mutually perpendicular E) must be perpendicular to both must be perpendicular to <strong>In the formula </strong> A) must be perpendicular to but not necessarily to B) must be perpendicular to but not necessarily to C) must be perpendicular to but not necessarily to D) all three vectors must be mutually perpendicular E) must be perpendicular to both but not necessarily to <strong>In the formula </strong> A) must be perpendicular to but not necessarily to B) must be perpendicular to but not necessarily to C) must be perpendicular to but not necessarily to D) all three vectors must be mutually perpendicular E) must be perpendicular to both
D) all three vectors must be mutually perpendicular
E) <strong>In the formula </strong> A) must be perpendicular to but not necessarily to B) must be perpendicular to but not necessarily to C) must be perpendicular to but not necessarily to D) all three vectors must be mutually perpendicular E) must be perpendicular to both must be perpendicular to both <strong>In the formula </strong> A) must be perpendicular to but not necessarily to B) must be perpendicular to but not necessarily to C) must be perpendicular to but not necessarily to D) all three vectors must be mutually perpendicular E) must be perpendicular to both
must be perpendicular to both must be perpendicular to both must be perpendicular to both
2
A magnetic field exerts a force on a charged particle:

A) always
B) never
C) if the particle is moving across the field lines
D) if the particle is moving along the field lines
E) if the particle is at rest
if the particle is moving across the field lines
3
An electron is moving north in a region where the magnetic field is south. The magnetic force exerted on the electron is:

A) zero
B) up
C) down
D) east
E) west
zero
4
A magnetic field CANNOT:

A) exert a force on a charge
B) accelerate a charge
C) change the momentum of a charge
D) change the kinetic energy of a charge
E) exist
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5
A hydrogen atom that has lost its electron is moving east in a region where the magnetic field is directed from south to north. It will be deflected:

A) up
B) down
C) north
D) south
E) not at all
Unlock Deck
Unlock for access to all 11 flashcards in this deck.
Unlock Deck
k this deck
6
An electron enters a region of uniform perpendicular <strong>An electron enters a region of uniform perpendicular fields. It is observed that the velocity of the electron is unaffected. A possible explanation is:</strong> A) is parallel to and has magnitude E/B B) is parallel to C) is perpendicular to both and has magnitude B/E D) is perpendicular to both and has magnitude E/B E) the given situation is impossible fields. It is observed that the velocity <strong>An electron enters a region of uniform perpendicular fields. It is observed that the velocity of the electron is unaffected. A possible explanation is:</strong> A) is parallel to and has magnitude E/B B) is parallel to C) is perpendicular to both and has magnitude B/E D) is perpendicular to both and has magnitude E/B E) the given situation is impossible of the electron is unaffected. A possible explanation is:

A) <strong>An electron enters a region of uniform perpendicular fields. It is observed that the velocity of the electron is unaffected. A possible explanation is:</strong> A) is parallel to and has magnitude E/B B) is parallel to C) is perpendicular to both and has magnitude B/E D) is perpendicular to both and has magnitude E/B E) the given situation is impossible is parallel to <strong>An electron enters a region of uniform perpendicular fields. It is observed that the velocity of the electron is unaffected. A possible explanation is:</strong> A) is parallel to and has magnitude E/B B) is parallel to C) is perpendicular to both and has magnitude B/E D) is perpendicular to both and has magnitude E/B E) the given situation is impossible and has magnitude E/B
B) <strong>An electron enters a region of uniform perpendicular fields. It is observed that the velocity of the electron is unaffected. A possible explanation is:</strong> A) is parallel to and has magnitude E/B B) is parallel to C) is perpendicular to both and has magnitude B/E D) is perpendicular to both and has magnitude E/B E) the given situation is impossible is parallel to <strong>An electron enters a region of uniform perpendicular fields. It is observed that the velocity of the electron is unaffected. A possible explanation is:</strong> A) is parallel to and has magnitude E/B B) is parallel to C) is perpendicular to both and has magnitude B/E D) is perpendicular to both and has magnitude E/B E) the given situation is impossible
C) <strong>An electron enters a region of uniform perpendicular fields. It is observed that the velocity of the electron is unaffected. A possible explanation is:</strong> A) is parallel to and has magnitude E/B B) is parallel to C) is perpendicular to both and has magnitude B/E D) is perpendicular to both and has magnitude E/B E) the given situation is impossible is perpendicular to both <strong>An electron enters a region of uniform perpendicular fields. It is observed that the velocity of the electron is unaffected. A possible explanation is:</strong> A) is parallel to and has magnitude E/B B) is parallel to C) is perpendicular to both and has magnitude B/E D) is perpendicular to both and has magnitude E/B E) the given situation is impossible and has magnitude B/E
D) <strong>An electron enters a region of uniform perpendicular fields. It is observed that the velocity of the electron is unaffected. A possible explanation is:</strong> A) is parallel to and has magnitude E/B B) is parallel to C) is perpendicular to both and has magnitude B/E D) is perpendicular to both and has magnitude E/B E) the given situation is impossible is perpendicular to both <strong>An electron enters a region of uniform perpendicular fields. It is observed that the velocity of the electron is unaffected. A possible explanation is:</strong> A) is parallel to and has magnitude E/B B) is parallel to C) is perpendicular to both and has magnitude B/E D) is perpendicular to both and has magnitude E/B E) the given situation is impossible and has magnitude E/B
E) the given situation is impossible
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7
An electron and a proton both each travel with equal speeds around circular orbits in the same uniform magnetic field, as shown in the diagram (not to scale).The field is into the page on the diagram.Because the electron is less massive than the proton and because the electron is negatively charged and the proton is positively charged:
<strong>An electron and a proton both each travel with equal speeds around circular orbits in the same uniform magnetic field, as shown in the diagram (not to scale).The field is into the page on the diagram.Because the electron is less massive than the proton and because the electron is negatively charged and the proton is positively charged: </strong> A) the electron travels clockwise around the smaller circle and the proton travels counterclockwise around the larger circle. B) the electron travels counterclockwise around the smaller circle and the proton travels clockwise around the larger circle C) the electron travels clockwise around the larger circle and the proton travels counterclockwise around the smaller circle D) the electron travels counterclockwise around the larger circle and the proton travels clockwise around the smaller circle E) the electron travels counterclockwise around the smaller circle and the proton travels counterclockwise around the larger circle

A) the electron travels clockwise around the smaller circle and the proton travels counterclockwise around the larger circle.
B) the electron travels counterclockwise around the smaller circle and the proton travels clockwise around the larger circle
C) the electron travels clockwise around the larger circle and the proton travels counterclockwise around the smaller circle
D) the electron travels counterclockwise around the larger circle and the proton travels clockwise around the smaller circle
E) the electron travels counterclockwise around the smaller circle and the proton travels counterclockwise around the larger circle
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8
An electron is launched with velocity <strong>An electron is launched with velocity in a uniform magnetic field The angle \theta between is between 0 and 90<sup>o</sup>. As a result, the electron follows a helix, its velocity vector returning to its initial value in a time interval of:</strong> A) 2 \pi m/eB B) 2 \pi mv/eB C) 2 \pi mv sin \theta /eB D) 2 \pi mv cos \theta /eB E) none of these in a uniform magnetic field <strong>An electron is launched with velocity in a uniform magnetic field The angle \theta between is between 0 and 90<sup>o</sup>. As a result, the electron follows a helix, its velocity vector returning to its initial value in a time interval of:</strong> A) 2 \pi m/eB B) 2 \pi mv/eB C) 2 \pi mv sin \theta /eB D) 2 \pi mv cos \theta /eB E) none of these The angle θ\theta between <strong>An electron is launched with velocity in a uniform magnetic field The angle \theta between is between 0 and 90<sup>o</sup>. As a result, the electron follows a helix, its velocity vector returning to its initial value in a time interval of:</strong> A) 2 \pi m/eB B) 2 \pi mv/eB C) 2 \pi mv sin \theta /eB D) 2 \pi mv cos \theta /eB E) none of these is between 0 and 90o. As a result, the electron follows a helix, its velocity vector <strong>An electron is launched with velocity in a uniform magnetic field The angle \theta between is between 0 and 90<sup>o</sup>. As a result, the electron follows a helix, its velocity vector returning to its initial value in a time interval of:</strong> A) 2 \pi m/eB B) 2 \pi mv/eB C) 2 \pi mv sin \theta /eB D) 2 \pi mv cos \theta /eB E) none of these returning to its initial value in a time interval of:

A) 2 π\pi m/eB
B) 2 π\pi mv/eB
C) 2 π\pi mv sin θ\theta /eB
D) 2 π\pi mv cos θ\theta /eB
E) none of these
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9
A cyclotron operates with a given magnetic field and at a given frequency. If R denotes the radius of the final orbit, the final particle energy is proportional to:

A) 1/R
B) R
C) R2
D) R3
E) R4
Unlock Deck
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10
The diagrams show five possible orientations of a magnetic dipole <strong>The diagrams show five possible orientations of a magnetic dipole in a uniform magnetic field For which of these does the magnetic torque on the dipole have the greatest magnitude? </strong> A) I B) II C) III D) IV E) V in a uniform magnetic field <strong>The diagrams show five possible orientations of a magnetic dipole in a uniform magnetic field For which of these does the magnetic torque on the dipole have the greatest magnitude? </strong> A) I B) II C) III D) IV E) V For which of these does the magnetic torque on the dipole have the greatest magnitude?
<strong>The diagrams show five possible orientations of a magnetic dipole in a uniform magnetic field For which of these does the magnetic torque on the dipole have the greatest magnitude? </strong> A) I B) II C) III D) IV E) V

A) I
B) II
C) III
D) IV
E) V
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11
The diagrms show five possible orientations of a magnetic dipole <strong>The diagrms show five possible orientations of a magnetic dipole in a uniform magnetic field For which of these is the potential energy the greatest? </strong> A) I B) II C) III D) IV E) V in a uniform magnetic field <strong>The diagrms show five possible orientations of a magnetic dipole in a uniform magnetic field For which of these is the potential energy the greatest? </strong> A) I B) II C) III D) IV E) V For which of these is the potential energy the greatest?
<strong>The diagrms show five possible orientations of a magnetic dipole in a uniform magnetic field For which of these is the potential energy the greatest? </strong> A) I B) II C) III D) IV E) V

A) I
B) II
C) III
D) IV
E) V
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