Deck 32: Maxwells Equations; Magnetism of Matter

A)uniform
B)proportional to 1/r
C)proportional to r²
D)proportional to 1/r²
E)proportional to r

A)there is only a true current through the xy plane
B)there is only a displacement current through the xy plane
C)there are both true and displacement currents through the xy plane
D)there is neither a true nor a displacement current through the xy plane
E)none of the above are true

A)an infinitesimal displacement of a charge
B)an infinitesimal displacement of a magnetic pole
C)an infinitesimal inductance
D)an infinitesimal surface area
E)none of the above

A)the same as the subscript in
B)integrate clockwise around the path
C)integrate counterclockwise around the path
D)integrate around a closed path
E)integrate over a closed surface

A)can be used to find due to given currents provided there is enough symmetry
B)is false because there are no magnetic poles
C)can be used with open surfaces because there are no magnetic poles
D)
E)none of the above

A)circles
B)ellipses
C)straight lines parallel to the electric field
D)straight lines perpendicular to the electric field
E)none of the above

A)1, 2 and 3 tie, then 4
B)1, 2, 3, 4
C)1, then 2 and 4 tie, then 3
D)4, 3, 1, 2
E)3, then 2 and 4 tie, then 1

A)zero
B)proportional to 1/r
C)proportional to r²
D)proportional to 1/r²
E)proportional to r

A)0 T
B)7.0* 10^-6 T
C)1.1 * 10^-5 T
D)2.3 * 10^-5 T
E)2.8 * 10^-5 T

A)toward you
B)away from you
C)clockwise
D)counterclockwise
E)to your right

A)always
B)never
C)when the capacitor is fully charged
D)while the capacitor is being charged
E)only when the capacitor is starting to be charged

A)zero
B)constant
C)sinusoidal and its amplitude does not depend on the frequency of the source
D)sinusoidal and its amplitude is proportional to the frequency of the source
E)sinusoidal and its amplitude is inversely proportional to the frequency of the source

A)Faraday's law
B)Ampere's law
C)Gauss' law for electricity
D)Gauss' law for magnetism
E)the Lorentz force

A)2 T . m
B)4 $\pi$ * 10^-7 T.m
C)8.85 *10^-12 T.m
D)10^-7 T.m
E)not determined from the given quantities

A)form closed loops
B)start at south poles and end at north poles
C)start at north poles and end at south poles
D)start at both north and south poles and end at infinity
E)do not exist

A)Faraday's law
B)Ampere's law
C)Gauss' law for electricity
D)Gauss' law for magnetism
E)Newton's second law

A)the net charge in any given volume
B)that the line integral of a magnetic field around any closed loop must vanish
C)the magnetic field of a current element
D)that magnetic monopoles do not exist
E)charges must be moving to produce magnetic fields

A)2, 4, 3, 1
B)1, 3, 4, 2
C)4, 3, 2, 1
D)4, 3, 1, 2
E)2, 1, 3, 4

A)1, 2, 3, 4
B)3, 4, 1, 2
C)1, 2, 4, 3
D)4, 3, 2, 1
E)2, 1, 4, 3

A)the path must pierce the area
B)the path must be well-separated from the area
C)the path must be along a field line and the area must be perpendicular to the field line
D)the path must be the boundary of the area
E)the path must lie in the area, away from its boundary

A)
B)
C)
D)
E)none of these

A)only I
B)only II
C)only II and III
D)only III and IV
E)only II, III, IV

A)
B)
C)
D)
E)none of these

A)the capacitor leaks charge across the plates
B)the capacitor is being discharged
C)the capacitor is fully charged
D)the capacitor is fully discharged
E)none of the above are true

A)the numerical value of the electron charge
B)charge is quantized
C)the numerical value of the charge/mass ratio of the electron
D)there are three types of magnetic materials
E)none of the above

A)clockwise around the circumference of the paper
B)counterclockwise around the circumference of the paper
C)from left to right
D)from right to left
E)from top to bottom

A)
B)
C)
D)
E)none of these

A)always in the same direction
B)always in opposite directions
C)always perpendicular to each other
D)never perpendicular to each other
E)none of the above

A)
B)
C)
D)
E)none of these

A)
B)
C)
D)
E)none of these

A)the same as the subscript in
B)integrate clockwise around the path
C)integrate counterclockwise around the path
D)integrate around a closed path
E)integrate over a closed surface

A)
B)
C)
D)
E)

A)5.0 V/m·s
B)12 V/m·s
C)37 V/m·s
D)50 V/m·s
E)4.0 * 10⁷ V/m·s

A)0 A
B)1 * 10^-8 A
C)1 *10^-6 A
D)1 *10^-4 A
E)100 A

A)
B)
C)
D)
E)none of these

A)4.6 x 10^-7 T
B)1.0 x 10^-6 T
C)2.4 x 10^-6 T
D)3.1 x 10^-6 T
E)6.2 x 10^-6 T

A)moving charge
B)a magnetic field
C)a changing magnetic field
D)an electric field
E)a changing electric field

A)tangent to the surface
B)perpendicular to the surface and pointing outward
C)perpendicular to the surface and pointing inward
D)tangent to a field line
E)perpendicular to a field line

A)2 A
B)1 A
C)0.7 A
D)0.5 A
E)0.25 A

A)south
B)north
C)west
D)east
E)not at all since it is a charge and not a pole

A)move toward X but not rotate
B)move away from X but not rotate
C)move toward X and rotate
D)move away from X and rotate
E)rotate but not move toward or away from X

A)The spin angular momentum of the electron can be directly observed, but the spin magnetic dipole moment cannot be.
B)The spin angular momentum of the electron cannot be directly observed, but the spin magnetic dipole moment can be.
C)Both the spin angular momentum and the spin magnetic dipole moment of the electron can be directly observed.
D)Neither the spin angular momentum nor the spin magnetic dipole moment of the electron can be directly observed.
E)Although both the spin angular momentum and the spin magnetic dipole moment can be defined theoretically, neither has any physical meaning at all.

A)Ampere's theory that all magnetic phenomena result from electric currents
B)our inability to divide the magnet into small enough pieces
C)Coulomb's law
D)Lenz' law
E)conservation of charge

A)form closed curves
B)cross one another near the poles
C)are more numerous near the N pole than near the S pole
D)leave the S pole, loop around the outside of the magnet, and enter the N pole
E)none of the above

A)a charged glass rod
B)a compass
C)an electroscope
D)another unmarked magnet
E)iron filings

A)a N pole attracts a S pole
B)stroking an iron bar with a magnet will magnetize the bar
C)when a bar magnet is broken in two, each piece is a bar magnet
D)heating tends to destroy magnetization
E)hammering tends to destroy magnetization

A)the electric force on a given charge
B)the magnetic force on a given moving charge
C)the flux of a given electric field
D)the flux of a given magnetic field
E)none of these

A)The Earth's magnetic field is approximately that of a dipole, and the north magnetic pole is in the northern hemisphere.
B)The Earth's magnetic field is approximately that of a dipole, and the north magnetic pole is in the southern hemisphere.
C)The Earth's magnetic field is approximately that of a monopole, and the north magnetic pole is in the northern hemisphere.
D)The Earth's magnetic field is approximately that of a monopole, and the north magnetic pole is in the southern hemisphere.
E)The Earth's magnetic field is approximately that of a quadrupole, and the north magnetic pole is in the eastern hemisphere.

A)+1/2 only
B)±1/2
C)any half-odd integer
D)any integer
E)It depends on the external magnetic field.

A)10¹⁷ J/T
B)10¹⁹ J/T
C)10²¹ J/T
D)10²³ J/T
E)10²⁵ J/T

A)evr/2
B)ev/r
C)ev/2 $\pi$ r
D)2 $\pi$ er/v
E)2 $\pi$ ev/r

A)translate in the direction of
B)translate in the opposite direction of
C)rotate so as to be at right angles to
D)rotate so as to be vertical
E)none of the above

A)particles with north poles
B)particles with south poles
C)motions of protons within nuclei
D)proton spin angular momentum
E)electron magnetic dipole moments

A)is in the same direction as the spin angular momentum
B)is zero
C)has a magnitude that depends on the orbital angular momentum
D)has a magnitude that depends on the applied magnetic field
E)none of the above

A)zero
B)down
C)up
D)horizontal
E)slightly below the horizontal

A)move toward X but not rotate
B)move away from X but not rotate
C)move toward X and rotate
D)move away from X and rotate
E)rotate but not translate

A)The declination of the Earth's magnetic field is the angle between a horizontal plane and the direction of the field.
B)The declination of the Earth's magnetic field is the angle between a vertical plane and the direction of the field.
C)The inclination of the Earth's magnetic field is the angle between a horizontal plane and the direction of the field.
D)The inclination of the Earth's magnetic field is the angle between the horizontal component of the field direction and the direction to geographic north.
E)Inclination and declination mean the same thing.

A)Maine
B)Florida
C)Maryland
D)New York
E)Iowa

A)the dipole moment is parallel to the field
B)the dipole moment is antiparallel to the field
C)the dipole moment is perpendicular to the field
D)none of the above (the same energy is associated with all orientations)
E)none of the above (no energy is associated with the dipole-field interaction)

A)The force on 1 is toward the magnet and the force on 2 is away from the magnet
B)The force on 1 is away from the magnet and the force on 2 is away from the magnet
C)The forces on 1 and 2 are both toward the magnet
D)The forces on 1 and 2 are both away from the magnet
E)The magnet does not exert a force on either sphere

A)zero
B)half the Bohr magneton
C)a Bohr magneton
D)twice a Bohr magneton
E)none of these

A)increases in proportion to T
B)increases in proportion to T²
C)remains the same
D)decreases in proportion to 1/T
E)decreases in proportion to 1/T²

A)the current will be larger without the core
B)the current will be larger with the core
C)one must do work to remove the core
D)the circuit will do work in expelling the core
E)the stored energy is the same with or without the core

A)the current density in an object
B)the charge density of moving charges in an object
C)the magnetic dipole moment of an object
D)the magnetic dipole moment per unit volume of an object
E)the magnetic field per unit volume produced by an object

A)9.3 x 10^-24 J/T
B)1.4 x 10^-23 J/T
C)1.9 x 10^-23 J/T
D)2.8 x 10^-23 J/T
E)3.5 x 10^-23 J/T

A)greater than and in the opposite direction
B)less than and in the opposite direction
C)greater than and in the same direction
D)less than and in the same direction
E)the same as

A)eL/m
B)eL/2m
C)2eL/m
D)mL/e
E)mL/2

A)1 and 3 tie, then 2 and 4 tie
B)2 and 3 tie, then 1 and 4 tie
C)1 and 2 tie, then 3 and 4 tie
D)3 and 4 tie, then 1 and 2 tie
E)all tie

A)the magnetic energy of the magnetic dipoles decreases
B)the temperature of the substance increases
C)the magnetization decreases, but only slightly
D)the magnetization reverses direction
E)none of the above

A)paramagnetism only
B)diamagnetism only
C)ferromagnetism only
D)only two of the three types of magnetism
E)all three of the types of magnetism

A)0 only
B)0, ±1 only
C)any half-odd integer
D)0, ±1, ±2, …, up to the maximum value for that orbit
E)It depends on the external magnetic field.

A)10^-15 J/T
B)10^-19 J/T
C)10^-23 J/T
D)10^-27 J/T
E)10^-31 J/T

A)ampere
B)ampere.meter
C)ampere.meter²
D)ampere/meter
E)ampere/meter²

A)greater than and in the opposite direction
B)less than and in the opposite direction
C)greater than and in the same direction
D)less than and in the same direction
E)the same as

A)the tendency of electron dipole moments to align with an applied magnetic field
B)the tendency of electron dipole moments to align opposite to an applied magnetic field
C)the exchange force between electrons
D)the force exerted by electron dipole moments on each other
E)the torque exerted by electron dipole moments on each other

A)is in the direction of and has magnitude proportional to L
B)is opposite to the direction of and has magnitude proportional to L
C)is in the direction of and has magnitude proportional to L²
D)is opposite to the direction of and has magnitude proportional to L²
E)does not depend on

A)much less than a Bohr magneton
B)a few Bohr magnetons
C)much greater than a Bohr magneton
D)much greater or much less than a Bohr magneton, depending on the atom
E)not related to the value of the Bohr magneton

A)The force on 1 is toward the magnet and the force on 2 is away from the magnet
B)The force on 1 is away from the magnet and the force on 2 is away from the magnet
C)The forces on 1 and 2 are both toward the magnet
D)The forces on 1 and 2 are both away from the magnet
E)The magnet does not exert a force on either sphere

A)their masses are greater
B)their angular momenta are much less
C)their angular momenta are much greater
D)their charges are much less
E)their radii are much less