7. A rod of length L = 10.0 cm is forced to move at constant speed v = 5.00 m/s along horizontal rails. The rod,rails, and connecting strip at the right form a conducting loop. The rod has resistance 0.400 2; the rest of theloop has negligible resistance. A current I = 10.0 A through the long straight wire at distance a = 10.0 mm fromthe loop sets up a (nonuniform) magnetic field through the loop. Find the emf and the current induced in theloop.a

Concept used: Faraday's law of electromagnetic induction is used. Magnetic field is provided by long…

A rod of length L = 10.0 cm is forced to move at constant speed v = 5.00 m/s along horizontal rails. The rod, rails, and connecting strip at the right form a conducting loop. The rod has resistance 0.400 0; the rest of the loop has negligible resistance. A current I = 10.0 A through the long straight wire at distance a = 10.0 mm from the loop sets up a (nonuniform) magnetic field through the loop. Find the emf and the current induced in the loop.

A rod of length L = 10.0 cm is forced to move at constant speed v = 5.00 m/s along horizontal rails. The rod, rails, and connecting strip at the right form a conducting loop. The rod has resistance 0.400 0; the rest of the loop has negligible resistance. A current I = 10.0 A through the long straight wire at distance a = 10.0 mm from the loop sets up a (nonuniform) magnetic field through the loop. Find the emf and the current induced in the loop.

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Question

7. A rod of length L = 10.0 cm is forced to move at constant speed v = 5.00 m/s along horizontal rails. The rod,
rails, and connecting strip at the right form a conducting loop. The rod has resistance 0.400 2; the rest of the
loop has negligible resistance. A current I = 10.0 A through the long straight wire at distance a = 10.0 mm from
the loop sets up a (nonuniform) magnetic field through the loop. Find the emf and the current induced in the
loop.
a

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