A coil of wire containing 500 circular loops with radius 4.00 cm is placed between the poles of a large electromagnet, where the magnetic field is uniform and at an angle of 600 with the plane of the coil. The field decreases at a rate of 0.200 T/s. What are the magnitude and direction of the induced emf?
A coil of wire containing 500 circular loops with radius 4.00 cm is placed between the poles of a large electromagnet, where the magnetic field is uniform and at an angle of 600 with the plane of the coil. The field decreases at a rate of 0.200 T/s. What are the magnitude and direction of the induced emf?
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Question
Problem 4: A coil of wire containing 500 circular loops with radius 4.00 cm is placed between
the poles of a large
with the plane of the coil. The field decreases at a rate of 0.200 T/s. What are the magnitude
and direction of the induced emf?
Transcribed Image Text:Problem 7: In problem 4 suppose the current i₂ in the outer, surrounding coil is given by i₂
(2.0 X 10 6 A/s)t (currents in wires can indeed increase this rapidly for brief periods). (i) At time
t = 3.0 µs, what average magnetic flux through each turn of the solenoid is caused by the
current in the outer, surrounding coil? (ii) What is the induced emf in the solenoid?
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