The rectangular loop of wire shown in the figure (Figure 1) has a mass of 0.17 g per centimeter of length
The rectangular loop of wire shown in the figure (Figure 1) has a mass of 0.17 g per centimeter of length and is pivoted about side ab on a frictionless axis. The current in the wire is 8.3 A in the direction shown.
Part A
Find the magnitude of the magnetic field parallel to the y-axis that will cause the loop to swing up until its plane makes an angle of 30.0° with the yz-plane.
Part B
Find the direction of the magnetic field parallel to the y-axis that will cause the loop to swing up until its plane makes an angle of 30.0 with the yz-plane.
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The rectangular loop of wire shown in the figure (Figure 1) has a mass of 0.17 g per centimeter of length
Problem 27.69 3 of 15 The rectangular loop of wire shown in the figure (Figure 1)...
Problem 27.69 3 of 15 The rectangular loop of wire shown in the figure (Figure 1) has a mass of 0.11 g per centimeter of length and is pivoted about side ab on a frictionless axis. The current in the wire is 8.1 A in the direction shown Part A Find the magnitude of the magnetic field parallel to the y-axis that will cause the loop to swing up until its plane makes an angle of 30.0° with the yz-plane...
Problem #4 (20 points): A squa of 0.1 g per centimeter of length and is pivoted about side ab on ...
Problem #4 (20 points): A squa of 0.1 g per centimeter of length and is pivoted about side ab on a frictionless axis. The current I in the wire is 10 A in the direction shown by the arrows. Find the magnitude and direction of the magnetic field parallel to the y-axis that will cause the loop to swing up until its plane makes an angle of 30 with the yz-plane. Show details of your work. re loop abcd of...
A rectangular loop has dimensions 0.505 m by 0.260 m. The loop is hinged along the...
A rectangular loop has dimensions 0.505 m by 0.260 m. The loop
is hinged along the x-axis and lies in the xy-plane (see the figure
below). A uniform magnetic field of 1.45 T is directed at an angle
of 40.0° with respect to the positive y-axis and lies parallel
everywhere to the yz-plane. The loop carries a current of 0.855 A
in the direction shown. (Ignore gravitation.)
(a) In what direction is magnetic force exerted on wire segment
ab?
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2. A rectangular loop of wire, with dimensions shown in the figure helow carries a current...
2. A rectangular loop of wire, with dimensions shown in the figure helow carries a current of 2.0 A and is placed in a 0.80 T magnetic field. The magnetic field runs horizontally from left to right in the plane of the paper. The loop rotates in the magnetic field. Assume that the dimensions given in the figure are exact. (a) At one point in its rotation, the loop is perpendicular to the magnetic field. What is the magnitude of...
A flat rectangular loop of wire is placed between the poles of amagnet, as shown...
A flat rectangular loop of wire is placed between the poles of a
magnet, as shown in the figure. It has dimensions w =
0.60 m and L = 1.0 m, and carries a current I = 2.0 A in the
direction shown. The magnetic field due to the magnet is uniform
and of magnitude 0.80 T. The loop rotates in the magnetic field and
at one point the plane of the loop is parallel to the field, as
shown.A)...
As shown in the figure, a rectangular loop with a length of 20.0 cm and a...
As shown in the figure, a rectangular loop with a length of 20.0 cm and a width w of 15.0 cm has 20 turns and carries a current of 0.130 A counterclockwise around the loop when viewed from the positive x axis. A horizontal (parallel to the x-z plane) magnetic field of magnitude 0.0510 T is oriented at an angle of 65.0° relative to the perpendicular to the loop (the positive x axis). (Assume the length and width are measured...
A rectangular loop of wire that is 58 cm wide and 12 cm long is placed...
A rectangular loop of wire that is 58 cm wide and 12 cm long is placed in a region where the magnetic field is B = 1.1 T. Suppose the wire loop lies in the x–y plane and that the magnetic field makes an angle of 70° with the z axis. Find the magnitude of the magnetic flux.
A circular wire loop of radius 1.13 m is placed in a magnetic field of magnitude...
A circular wire loop of radius 1.13 m is placed in a magnetic field of magnitude 0.495 T. The normal to the plane of the loop makes an angle of 30.0° with the magnetic field (see figure a). The current in the loop is 1.95 A in the direction shown. a)Find the magnetic moment of the loop and the magnitude of the torque at this instant
A rectangular loop of wire has a length 2a in the x direction and a width...
A rectangular loop of wire has a length 2a in the x direction and a width 2b in the y direction. The loop lies in the z = 0 plane and is centered at the origin. Assuming that the loop carries a current of I Amps counterclockwise, as viewed from the positive z axis, find the magnetic field vector H at the center of the loop. Hint: Consider how the contributions from opposite sides of the rectangle compare, to save...
A wire loop is in the x-y plane as shown. A current I is in the...
A wire loop is in the x-y plane as shown. A current I is in the loop. A uniform magnetic field B has magnitude B0 and is in the y-z plane and makes an angle of 30degree with the z axis (60degree with the y-axis). Find the magnetic force on the left wire (FL) right wire (FR) front wire (Ff) back wire (Fbk) Find the total force on the wire.
Problem 27.69 3 of 15 The rectangular loop of wire shown in the figure (Figure 1) has a mass of 0.11 g per centimeter of length and is pivoted about side ab on a frictionless axis. The current in the wire is 8.1 A in the direction shown Part A Find the magnitude of the magnetic field parallel to the y-axis that will cause the loop to swing up until its plane makes an angle of 30.0° with the yz-plane...
Problem #4 (20 points): A squa of 0.1 g per centimeter of length and is pivoted about side ab on a frictionless axis. The current I in the wire is 10 A in the direction shown by the arrows. Find the magnitude and direction of the magnetic field parallel to the y-axis that will cause the loop to swing up until its plane makes an angle of 30 with the yz-plane. Show details of your work. re loop abcd of...
A rectangular loop has dimensions 0.505 m by 0.260 m. The loop
is hinged along the x-axis and lies in the xy-plane (see the figure
below). A uniform magnetic field of 1.45 T is directed at an angle
of 40.0° with respect to the positive y-axis and lies parallel
everywhere to the yz-plane. The loop carries a current of 0.855 A
in the direction shown. (Ignore gravitation.)
(a) In what direction is magnetic force exerted on wire segment
ab?
direction...
2. A rectangular loop of wire, with dimensions shown in the figure helow carries a current of 2.0 A and is placed in a 0.80 T magnetic field. The magnetic field runs horizontally from left to right in the plane of the paper. The loop rotates in the magnetic field. Assume that the dimensions given in the figure are exact. (a) At one point in its rotation, the loop is perpendicular to the magnetic field. What is the magnitude of...
A flat rectangular loop of wire is placed between the poles of a
magnet, as shown in the figure. It has dimensions w =
0.60 m and L = 1.0 m, and carries a current I = 2.0 A in the
direction shown. The magnetic field due to the magnet is uniform
and of magnitude 0.80 T. The loop rotates in the magnetic field and
at one point the plane of the loop is parallel to the field, as
shown.A)...
As shown in the figure, a rectangular loop with a length of 20.0 cm and a width w of 15.0 cm has 20 turns and carries a current of 0.130 A counterclockwise around the loop when viewed from the positive x axis. A horizontal (parallel to the x-z plane) magnetic field of magnitude 0.0510 T is oriented at an angle of 65.0° relative to the perpendicular to the loop (the positive x axis). (Assume the length and width are measured...
A wire loop is in the x-y plane as shown. A current I is in the loop. A uniform magnetic field B has magnitude B0 and is in the y-z plane and makes an angle of 30degree with the z axis (60degree with the y-axis). Find the magnetic force on the left wire (FL) right wire (FR) front wire (Ff) back wire (Fbk) Find the total force on the wire.
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