In the given arrangement, the loop is moved with constant velocity v in a uniform magnetic field B in a restricted region of width a . The time for which the emf is induced in the circuit is :

In the given arrangement, the loop is moved with consisant velocity in uniform magnetic field B in a restricted a region of width a. The time for which the emf is induced in the cirucit is

A metal rod of length I is moved with velocity v in a uniform magnetic field vec B . Emf is induced between the two ends of rod

The loop shown moves with a velocity v in a uniform magnetic field of magnitude B , directed into the paper. The potential differene between point P and Q is e. Then

A conductor PQ , with PQ=r , moves with a velocity v in a uniform magnetic field of induced B . The emf induced in the rod is

A conductor is moving with velocity v in a region of uniform magnetic field B.The electric field at P inside conductor is

An emf induced in a coil rotating in a uniform magnetic field is given by

A square loop of side d is moved with velocity v hati in an non-uniform magnetic field B_0 /a x hatk then the emf induced shown is?

A glass rod of length l moves with velocity in a uniform magnetic field B. What is the e.m.f. induced in the rod ?

A conducting loop is pulled with a constant velocity towards a region of uniform magnetic field as shown in the figure then the current involved in the loop is ( d gt r ) -

Two straight conducting rails form a right angle where their ends are joined. A conducting bar in contact with the rails starts at the vertex at time t = 0 and moves with constant velocity v along them as shown in Fig. A magnetic field vec(B) is directed into the page. the induced emf in the circuit at any time t is proportional to