A 22-cm-long, zero-resistance slide wire moves outward, on zero-resistance rails, at a steady speed of 10...
A 22-cm-long, zero-resistance slide wire moves outward, on zero-resistance rails, at a steady speed of 10 m/sm/s in a 0.14 TT magnetic field. On the opposite side, a 1.3 ΩΩ carbon resistor completes the circuit by connecting the two rails. The mass of the resistor is 61 mgmg .
A. What is the induced current in the circuit?
B. How much force is needed to pull the wire at this speed?
C. If the wire is pulled for 10 ss, what is the temperature increase of the carbon? The specific heat of carbon is 710J/(kg⋅C∘)710J/(kg⋅C∘).
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A 22-cm-long, zero-resistance slide wire moves outward, on
zero-resistance rails, at a steady speed of 10...
6) A vertical pair of parallel conducting rails are separated by a width of 22 cm....
6) A vertical pair of parallel conducting rails are separated by a width of 22 cm. They are connected at the bottom by a wire that has resistance 50 m. A uniform magnetic field of strength 2800 mT points perpendicularly to the pair of rails. A 640 gram sliding conducting bar connecting the rails is released from the top and allowed to drop under the influence of gravity. Its acceleration rapidly drops to zero, and the bar continues to fall...
A pair of conducting, parallel, frictionless rails is mounted on an insulating platform. The distance between...
A pair of conducting, parallel, frictionless rails is mounted on an insulating platform. The distance between the rails is L = 0.20 m. The rails are connected on one end by a R = 10.12 resistor. A conducting bar of mass 1.2 kg can slide on the rails without friction. When the conducting bar is at x = 0, the enclosed area of the loop is 0.03 m2. There is zero resistance in the conducting bar or rails. A uniform...
The 10-cm-wide, zero-resistance slide wire shown in the figure is pushed toward the 2.0 ohm resistor...
The 10-cm-wide, zero-resistance slide wire shown in the figure is pushed toward the 2.0 ohm resistor at a steady speed of 0.50 m/s. The magnetic field strength is 0.55 T. (Figure 1) How big is the pushing force? Express your answer with the appropriate units. How much power does the pushing force supply to the wire? Express your answer with the appropriate units.
The 10-cm-wide, zero-resistance slide wire shown in the figure is pushed toward the 2.0 Ohm resistor...
The 10-cm-wide, zero-resistance slide wire shown in the figure is pushed toward the 2.0 Ohm resistor at a steady speed of 0.50 m/s. The magnetic field strength is 0.25 T. (Figure 1) How big is the pushing force? Express your answer with the appropriate units. How much power does the pushing force supply to the wire? Express your answer with the appropriate units.
Review Part A The 10-cm-wide, zero-resistance slide wire shown in the figure is pushed toward the...
Review Part A The 10-cm-wide, zero-resistance slide wire shown in the figure is pushed toward the 2.0 S2 resistor at a steady speed of 0.50 m/s The magnetic field strength is 0.60 T (Figure 1) How big is the pushing force? Express your answer with the appropriate units You may want to review (Page 836) Rearrangement of Equations Involving Multiplication and Division For general problem-solving tips and strategies for this topic, you may want to view a Video Tutor Solution...
6) A vertical pair of parallel conducting rails are separated by a width of 22 cm. They are connected at the bottom by a wire that has resistance 50 m. A uniform magnetic field of strength 2800 mT points perpendicularly to the pair of rails. A 640 gram sliding conducting bar connecting the rails is released from the top and allowed to drop under the influence of gravity. Its acceleration rapidly drops to zero, and the bar continues to fall...
A pair of conducting, parallel, frictionless rails is mounted on an insulating platform. The distance between the rails is L = 0.20 m. The rails are connected on one end by a R = 10.12 resistor. A conducting bar of mass 1.2 kg can slide on the rails without friction. When the conducting bar is at x = 0, the enclosed area of the loop is 0.03 m2. There is zero resistance in the conducting bar or rails. A uniform...
The 10-cm-wide, zero-resistance slide wire shown in the figure is pushed toward the 2.0 ohm resistor at a steady speed of 0.50 m/s. The magnetic field strength is 0.55 T. (Figure 1) How big is the pushing force? Express your answer with the appropriate units. How much power does the pushing force supply to the wire? Express your answer with the appropriate units.
The 10-cm-wide, zero-resistance slide wire shown in the figure is pushed toward the 2.0 Ohm resistor at a steady speed of 0.50 m/s. The magnetic field strength is 0.25 T. (Figure 1) How big is the pushing force? Express your answer with the appropriate units. How much power does the pushing force supply to the wire? Express your answer with the appropriate units.
Review Part A The 10-cm-wide, zero-resistance slide wire shown in the figure is pushed toward the 2.0 S2 resistor at a steady speed of 0.50 m/s The magnetic field strength is 0.60 T (Figure 1) How big is the pushing force? Express your answer with the appropriate units You may want to review (Page 836) Rearrangement of Equations Involving Multiplication and Division For general problem-solving tips and strategies for this topic, you may want to view a Video Tutor Solution...
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