Two insulated wires, each 3.00 m long, are taped together to form a two-wire unit that...
Two insulated wires, each 3.00 m long, are taped together to form a two-wire unit that is 3.00 m long. One wire carries a current of 7.00 A; the other carries a smaller current I in the opposite direction. The two wire unit is placed at an angle of 74.0° relative to a magnetic field whose magnitude is 0.360 T. The magnitude of the net magnetic force experienced by the two-wire unit is 3.13 N. What is the current I?
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Two insulated wires, each 3.00 m long, are taped together to
form a two-wire unit that...
Two insulated current-carrying wires (wire 1 and wire 2) are bound together with wire ties to...
Two insulated current-carrying wires (wire 1 and wire 2) are bound together with wire ties to form a two-wire unit. The wires are 2.95 m long and are stretched out horizontally parallel to each other. Wire 1 carries a current of I, = 8.00 A and the other wire carries a current I, in the opposite direction. The two-wire unit is placed in a uniform magnetic field of magnitude 0.400 T such that the angle between the direction of I,...
As shown in the figure, two frictionless conducting rails (#1 and #2) are attached to a...
As shown in the figure, two frictionless conducting rails (#1 and #2) are attached to a 20.0° incline such that the inside edges are 80.0 cm apart. A copper bar with a mass of 0.237 kg slides (without friction) at a constant speed down the conducting rails. Sliding bar Conducting rails If there is a vertical magnetic field of 0.0406 T in magnitude in the region of the incline, determine the magnitude of the current I that flows through the...
Two long, parallel wires are separated by 2.0 m . Each wire has a 25-A current,...
Two long, parallel wires are separated by 2.0 m . Each wire has a 25-A current, but the currents are in opposite directions . a) Determine the magnitude of the net magnetic field midway between the wires. b) Determine the magnitude of the net magnetic field at a point 1 m to the side of one wire and 3.0 m from the other wire. The point is in the same plane as the wires.
Two long, thin parallel wires are placed 12.0 cm apart, as shown below. Each wire carries...
Two long, thin parallel wires are placed 12.0 cm apart, as shown below. Each wire carries a 28 A current, but the currents are flowing in opposite directions. Determine the magnetic field vector at the point P, which is 10.4 cm from one wire, and 6.0 cm from the other. Please help me find the magnitude and the direction (θ).
The magnetic field 37.0 cm away from a long, straight wire carrying current 7.00 A is...
The magnetic field 37.0 cm away from a long, straight wire carrying current 7.00 A is 3780 nT. (a) At what distance is it 378 nt? cm (b) At one instant, the two conductors in a long household extension cord carry equal 7.00-A currents in opposite directions. The two wires are 3.00 mm apart. Find the magnetic field 37.0 cm away from the middle of the straight cord, in the plane of the two wires. ni (c) At what distance...
Two long, straight wires are parallel and 42 cm apart. (a) If each wire carries a...
Two long, straight wires are parallel and 42 cm apart. (a) If each wire carries a current of 55 A in the same direction, what is the magnitude of the magnetic force per meter (in N/m) exerted on each wire? ren
Consider two long and parallel current carrying wires that are a distance 3.00 m away from...
Consider two long and parallel current carrying wires that are a distance 3.00 m away from each other, and carrying 78.0 mA and 30.0 mA currents. Part A Assume that the origin of the coordinate system is on the 30.0 mA wire and its positive x axis is directed towards the 78.0 mA wire that is perpendicular to the wires. If these currents are in the opposite direction, find all locations where the net magnetic field of the two wires...
Two long parallel wires are side by side – separated by 5 mm. Each wire carries 50. amps in the s...
Two long parallel wires are side by side – separated by 5 mm. Each wire carries 50. amps in the same direction. Calculate the magnetic field magnitude each wire induces at the location of the other wire. What is the force on each wire (magnitude and direction) per unit meter of length? How would this change if the currents were flowing in opposite directions?
2. (1 point) Two infinitely long vertical wires are separated by a distance of 1m. One...
2. (1 point) Two infinitely long vertical wires are separated by a distance of 1m. One wire carries an upwards going current of 2 A, while the other carries the same current in the opposite direction. What is the magnitude of the magnetic field half way between the two wires? 2h, I
Two long, straight, parallel wires separated by a distance d carry currents in opposite directions as...
Two long, straight, parallel wires separated by a distance d carry currents in opposite directions as shown in the figure. The bottom wire carries a current of 6.0 A. Point C is at the midpoint between the wires and point O is a distance 0.50d below the 6-A wire as suggested in the figure. The total magnetic field at point O is zero tesla. a. Determine the value of the current, I, in the top wire. Determine the magnitude of...
Two insulated current-carrying wires (wire 1 and wire 2) are bound together with wire ties to form a two-wire unit. The wires are 2.95 m long and are stretched out horizontally parallel to each other. Wire 1 carries a current of I, = 8.00 A and the other wire carries a current I, in the opposite direction. The two-wire unit is placed in a uniform magnetic field of magnitude 0.400 T such that the angle between the direction of I,...
As shown in the figure, two frictionless conducting rails (#1 and #2) are attached to a 20.0° incline such that the inside edges are 80.0 cm apart. A copper bar with a mass of 0.237 kg slides (without friction) at a constant speed down the conducting rails. Sliding bar Conducting rails If there is a vertical magnetic field of 0.0406 T in magnitude in the region of the incline, determine the magnitude of the current I that flows through the...
The magnetic field 37.0 cm away from a long, straight wire carrying current 7.00 A is 3780 nT. (a) At what distance is it 378 nt? cm (b) At one instant, the two conductors in a long household extension cord carry equal 7.00-A currents in opposite directions. The two wires are 3.00 mm apart. Find the magnetic field 37.0 cm away from the middle of the straight cord, in the plane of the two wires. ni (c) At what distance...
Two long, straight wires are parallel and 42 cm apart. (a) If each wire carries a current of 55 A in the same direction, what is the magnitude of the magnetic force per meter (in N/m) exerted on each wire? ren
Consider two long and parallel current carrying wires that are a distance 3.00 m away from each other, and carrying 78.0 mA and 30.0 mA currents. Part A Assume that the origin of the coordinate system is on the 30.0 mA wire and its positive x axis is directed towards the 78.0 mA wire that is perpendicular to the wires. If these currents are in the opposite direction, find all locations where the net magnetic field of the two wires...
2. (1 point) Two infinitely long vertical wires are separated by a distance of 1m. One wire carries an upwards going current of 2 A, while the other carries the same current in the opposite direction. What is the magnitude of the magnetic field half way between the two wires? 2h, I
Two long, straight, parallel wires separated by a distance d carry currents in opposite directions as shown in the figure. The bottom wire carries a current of 6.0 A. Point C is at the midpoint between the wires and point O is a distance 0.50d below the 6-A wire as suggested in the figure. The total magnetic field at point O is zero tesla. a. Determine the value of the current, I, in the top wire. Determine the magnitude of...
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