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Part B (Advanced) The figure below shows a long straight wire (Wire 1) carrying a constant current, I. A second wire (Wire 2), carrying a constant current, 12, is placed near the first wire with dime...
The figure below shows a long straight wire near a rectangular current loop. The current in...
The figure below shows a long straight wire near a rectangular current loop. The current in the wire is 11 = 14.0 A and the current in the loop is 12 30.0 A. The dimensions of the loop are L = 33.0 cm, w = 11.0 cm, and the distance from the loop to the wire is r = 5.50 cm. Determine the magnitude and direction of the total force on the loop magnitude direction --Select 1 30.0 A Supporting...
The figure below shows a long straight wire near a rectangular current loop. The current in...
The figure below shows a long straight wire near a rectangular current loop. The current in the wire is I, = 14.0 A and the current in the loop is I, = 30.0 A. The dimensions of the loop are L = 36.0 cm, w = 12.0 cm, and the distance from the loop to the wire is r = 7.00 cm. Determine the magnitude and direction of the total force on the loop. magnitude direction ( away from the...
The figure below shows a long straight wire near a rectangular current loop. The current in the wire is I1 = 10.0 A and the current in the loop is 12 = 30.0 A
The figure below shows a long straight wire near a rectangular current loop. The current in the wire is I1 = 10.0 A and the current in the loop is 12 = 30.0 A. The dimensions of the loop are L = 39.0 cm,w = 13.0 cm, and the distance from the loop to the wire is r = 5.00 cm. Determine the magnitude and direction of the total force on the loop. magnitude direction
1. The diagram below shows the deflection of a current carrying wire segment in a constant...
1. The diagram below shows the deflection of a current carrying wire segment in a constant magnetic field B pointing into the page (the wire segment is held fixed at its end points.) (a) Which direction does the current flow? Which direction do the electrons flow in the wire? (b) What is the direction of the Lorentz (magnetic) force acting on the electrons? (c) If the wire segment is 1 m long, the current through it is 1 A, and...
4. (a) A long straight wire carrying a current is placed near a current-carrying rectangular loop...
4. (a) A long straight wire carrying a current is placed near
a current-carrying rectangular loop. Describe how, and why, the
loop would move as a result of the magnetic forces from the long
wire. The current in the loop is counterclockwise.
(b) Suppose that you were to put in a different
loop below the long wire (and still in the plane of the page).
Draw the shape of a loop that would...
...experience a total magnetic force of zero...
The figure below shows a rectangular loop of wire moving away from a long straight wire carrying a constant current upward.
The figure below shows a rectangular loop of wire moving away from a long straight wire carrying a constant current upward. What is the direction of the current induced in the loop?
A rectangular loop of wire is placed next to a straight wire. There is a current of 3.5A in both ...
A rectangular loop of wire is placed next to a straight wire. There is a current of 3.5A in both wires. Please find the magnitude and direction of the net force on the loop. 1) What is the direction of magnetic field produced by long wire? 2) What is the force on segment AB due to this magnetic field (magnitude and direction) 3) What is the force on segment CD due to this magnetic field (magnitude and direction) 4) What...
1. The figure on the left shows the current, 1, of a long straight wire coming...
1. The figure on the left shows the current, 1, of a long straight wire coming out of the page. The figure on the right shows the direction of the magnetic field as it passes through the plane of the page for a vertical current-carrying wire (center) For the figure on the left draw the magnetic field of the wire; for the figure on the right indicate the direction of the current. O O Bout I (out)
In In the figure below, the current in the long, straight wire is 11 = 7.00...
In In the figure below, the current in the long, straight wire is 11 = 7.00 A and the wire lies in the plane of the rectangular loop, which carries a current 12 = 10.0 A. The dimensions in the figure are c = 0.100 m, a = 0.150 m, and f = 0.510 m. Find the magnitude and direction of the net force exerted on the loop by the magnetic field created by the wire. magnitude direction- Select-- μΝ...
The semicircular wire segment with radius a is carrying current I, and is placed in the...
The semicircular wire segment with radius a is carrying current I, and is placed in the x - y plane as shown. The wire is inside a uniform magnetic field B = Boi. Find the magnitude and the direction of the to- tal magnetic force acting on the wire segment. +x (HINT: Consider an infinitesimal arc segment ds on the wire to start with.)
The figure below shows a long straight wire near a rectangular current loop. The current in the wire is 11 = 14.0 A and the current in the loop is 12 30.0 A. The dimensions of the loop are L = 33.0 cm, w = 11.0 cm, and the distance from the loop to the wire is r = 5.50 cm. Determine the magnitude and direction of the total force on the loop magnitude direction --Select 1 30.0 A Supporting...
The figure below shows a long straight wire near a rectangular current loop. The current in the wire is I, = 14.0 A and the current in the loop is I, = 30.0 A. The dimensions of the loop are L = 36.0 cm, w = 12.0 cm, and the distance from the loop to the wire is r = 7.00 cm. Determine the magnitude and direction of the total force on the loop. magnitude direction ( away from the...
1. The diagram below shows the deflection of a current carrying wire segment in a constant magnetic field B pointing into the page (the wire segment is held fixed at its end points.) (a) Which direction does the current flow? Which direction do the electrons flow in the wire? (b) What is the direction of the Lorentz (magnetic) force acting on the electrons? (c) If the wire segment is 1 m long, the current through it is 1 A, and...
4. (a) A long straight wire carrying a current is placed near
a current-carrying rectangular loop. Describe how, and why, the
loop would move as a result of the magnetic forces from the long
wire. The current in the loop is counterclockwise.
(b) Suppose that you were to put in a different
loop below the long wire (and still in the plane of the page).
Draw the shape of a loop that would...
...experience a total magnetic force of zero...
A rectangular loop of wire is placed next to a straight wire. There is a current of 3.5A in both wires. Please find the magnitude and direction of the net force on the loop. 1) What is the direction of magnetic field produced by long wire? 2) What is the force on segment AB due to this magnetic field (magnitude and direction) 3) What is the force on segment CD due to this magnetic field (magnitude and direction) 4) What...
1. The figure on the left shows the current, 1, of a long straight wire coming out of the page. The figure on the right shows the direction of the magnetic field as it passes through the plane of the page for a vertical current-carrying wire (center) For the figure on the left draw the magnetic field of the wire; for the figure on the right indicate the direction of the current. O O Bout I (out)
In In the figure below, the current in the long, straight wire is 11 = 7.00 A and the wire lies in the plane of the rectangular loop, which carries a current 12 = 10.0 A. The dimensions in the figure are c = 0.100 m, a = 0.150 m, and f = 0.510 m. Find the magnitude and direction of the net force exerted on the loop by the magnetic field created by the wire. magnitude direction- Select-- μΝ...
The semicircular wire segment with radius a is carrying current I, and is placed in the x - y plane as shown. The wire is inside a uniform magnetic field B = Boi. Find the magnitude and the direction of the to- tal magnetic force acting on the wire segment. +x (HINT: Consider an infinitesimal arc segment ds on the wire to start with.)
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