Deck 29: Magnetic Fields Due to Currents

A)tesla
B)newton/ampere²
C)weber/meter
D)kilogram.ampere/meter
E)tesla.meter/ampere

A)0 T
B)4.0 * 10^-4 T
C)8.0* 10^-4 T
D)12 *10^-4 T
E)20 * 10^-4 T

A)into the page
B)out of the page
C)to the left
D)to the right
E)zero

A)0 T
B)2.6 x 10^-9 T
C)5.4 x 10^-8 T
D)9.4 x 10^-8 T
E)1.1 x 10^-7 T

A)east
B)up
C)north
D)down
E)west

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

A)0.16 A
B)1.0 A
C)2.0 A
D)4.0 A
E)25 A

A)0 T
B)4.0 * 10^-4 T
C)8.0 * 10^-4 T
D)12 * 10^-4 T
E)20* 10^-4 T

A)0
B)1
C)3
D)5
E)7

A)north
B)south
C)east
D)west
E)the compass will act as an electric motor, hence the needle will keep rotating

A)zero
B)non-zero and along a line connecting the wires
C)non-zero and parallel to the wires
D)non-zero and perpendicular to the plane of the two wires
E)none of the above

A)R
B)1/R
C)1/R²
D)1/R³
E)1/R^3/2

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

A)one ampere per second
B)the quantity of charge which will exert a force of 1 N on a similar charge at a distance of 1 m
C)the amount of current in each of two long parallel wires separated by 1 m, which produces a force of 2 * 10^-7 N per meter
D)the amount of charge which flows past a point in one second when the current is 1 A
E)an abbreviation for a certain combination of kilogram, meter and second

A)in the direction marked "1"
B)in the direction marked "2"
C)in the direction marked "3"
D)out of the page
E)into the page

A)in the direction of the current
B)opposite to the direction of the current
C)leave the wire radially
D)circles concentric with the wire
E)lines similar to those produced by a bar magnet

A)"2 $\mu$ ₀i/R²"
B)" $\mu$ ₀i/2 $\pi$ R"
C)" $\mu$ ₀i/4 $\pi$ R"
D)" $\mu$ ₀i/2R"
E)" $\mu$ ₀i/4R"

A)0 T
B)3.4 x 10^-5 T
C)6.9 x 10^-5 T
D)1.4 x 10^-4 T
E)4.3 x 10^-4 T

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

A)1* 10^-3 N/m, repulsive
B)1 *10^-3 N/m, attractive
C)4* 10^-5 N/m, repulsive
D)4 * 10^-5 N/m, attractive
E)none of these

A)0.20 T.m
B)2.5 *10^-7 T.m
C)3.0 *10^-7 T.m
D)3.8 *10^-6 T.m
E)none of these

A)0.25 mN
B)0.5 mN
C)1 mN
D)2 mN
E)4 mN

A)two-thirds the current in the outer solenoid
B)one-third the current in the outer solenoid
C)twice the current in the outer solenoid
D)half the current in the outer solenoid
E)the same as the current in the outer solenoid

A)clockwise circles as one looks down the axis from the top of the page
B)counterclockwise circles as one looks down the axis from the top of the page
C)toward the top of the page
D)toward the bottom of the page
E)in no direction since B = 0

A)"0"
B)"2 $\pi$ RB $\mu$ ₀"
C)" $\pi$ R²B/ $\mu$ ₀"
D)"RB/2 $\mu$ ₀"
E)"2RB/ $\mu$ ₀"

A)i₁ +, i₂ -, i₃ 0
B)i₁ -, i₂ +, i₃ 0
C)i₁ +, i₂ +, i₃ -
D)i₁ -, i₂ -, i₃ +
E)i₁ +, i₂ -, i₃ -

A)at the inner surface of the shell
B)at the outer surface of the shell
C)inside the shell near the middle
D)in hollow region near the inner surface
E)near the center of the hollow region

A)is on the cylinder axis and carries current i in the same direction as the current in the shell
B)may be anywhere in the hollow region but must be carrying current i in the direction opposite to that of the current in the shell
C)may be anywhere in the hollow region but must be carrying current i in the same direction as the current in the shell
D)is on the cylinder axis and carries current i in the direction opposite to that of the current in the shell
E)does not carry any current

A)surface
B)closed surface
C)path
D)closed path
E)closed path that surrounds all the current producing

A)an infinitesimal piece of the wire that carries current i
B)in the direction of
C)perpendicular to
D)a vector whose magnitude is the length of the wire that carries current i
E)none of the above

A)must be clockwise
B)must be counterclockwise
C)must be such as to follow the magnetic field lines
D)must be along the wire in the direction of the current
E)none of the above

A)tends to get shorter
B)tends to get longer
C)tends to rotate about its axis
D)produces zero magnetic field at its center
E)none of the above

A)" $\pi$ AR²/ $\mu$ ₀"
B)"2 $\pi$ AR/ $\mu$ ₀"
C)"4 $\pi$ AR³/3 $\mu$ ₀"
D)"2 $\pi$ AR²/ $\mu$ ₀"
E)" $\pi$ AR²/2 $\mu$ ₀"

A)the current
B)the number of turns of wire
C)the spacing of the windings
D)the cross-sectional area
E)the direction of the current

A)1 * 10^-3 N/m, repulsive
B)1 * 10^-3 N/m, attractive
C)4 *0 10^-5 N/m, repulsive
D)4 * 10^-5 N/m, attractive
E)none of these

A)2.5 * 10^-6 T.m
B)3.8 *10^-6 T.m
C)6.3 * 10^-6 T.m
D)1.0* 10^-5 .m
E)none of these

A)2F/9
B)4F/9
C)2F/3
D)4F/3
E)6F

A)is on the cylinder axis and carries current i in the same direction as the current in the shell
B)may be anywhere in the hollow region but must be carrying current i in the direction opposite to that of the current in the shell
C)may be anywhere in the hollow region but must be carrying current i in the same direction as the current in the shell
D)is on the cylinder axis and carries current i in the direction opposite to that of the current in the shell
E)does not carry any current

A)north
B)east
C)south
D)west
E)zero

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

A)1/3
B)1
C)2
D)4
E)6

A)1/4
B)1/2
C)1
D)2
E)4

A)R²
B)R
C)1/R
D)1/R²
E)1/R³

A)x = 0, y = a/2
B)x = a/2, y = a/2
C)x = a/2, y = 0
D)x = 0, y = 0
E)x = 0, z = 0

A)at the center of the hole
B)just inside the toroid at its inner surface
C)just inside the toroid at its outer surface
D)at any point inside (the field is uniform)
E)at none of the above

A)21 A·m²
B)6.7 A·m²
C)3.3 A·m²
D)2.6 A·m²
E)1.2 A·m²

A)9.9 * 10^-8 T
B)1.3 *10^-3 T
C)4.2 * 10^-2 T
D)16 T
E)20 T