Figure shows a squre loop of side 5 cm being mo ved towards right at a constant speed of `1cm//sec`. The front edge just enters the 20 cm wide magnetic field at t=0 . Find the induced emf in the loop at t=2s and t=10s.

Figure shown a square loop of side l being moved towards right at a constant speed v . The front edge enters th emagnetic field B at t=0 . The width of field is 3l . Sketch induced emf versus time graph.

Figure shows a square loop of resistance 1 Omega of side 1 m being moved towards right at a constant speed of 1m/s. The front edge enters the 3m wide magnetic field (B=1T) at t=0 . Draw the graph of current induced in the loop as time passes. ( Take anticlockwise direction of current as positive )

A square loop of side l being moved towards right at a constant speed v as shown in figure. The front edge enters the magnetic field B at t = 0. The width of field is 4l. Sketch induced emf versus time graph.

A square loop of side 5 cm enters a magnetic field with 1cms^(-1) . The front edge enters the magnetic emf?

A square loop of side 20 cm and resistance 1 Omega is moved towards right with a constant speed v_0 . The right arm of the loop is in a uniform magnetic field of 5 T. The field is perpendicular to the plane of the loop and is going into it. The loop is connected to a network of resistors each of value 4 Omega. What should be the value of v_0 so that a steady current of 2 mA flows in the loop ?

Figure shows a wave pulse at t=0. The pulse moves to the right with a speed of 10cms^-1. Sketch the shape of the string at t=s, 2s and 3s.

A II -shaped conductor is located in a uniform magnetic field perpendicular to the plane of the conductor and varying with time at the rate (dB)/(dt)=0.10 T//s .A conducting connectors starts moving with a constant acceleration w=10 cm//s^(2) along the parallel bars of the conductor.The length of the connector is equal to l=20 cm .Find the emf induced (in mV ) in the loop t=2.0 s after the beginning of the motion.If at the moment t=0 the loop area and the magnetic induction (B) are equal to zero.The self inductance of the loop is to be neglected.

A wire in the form of a circular loop of radius 10 cm lies in a plane normal to a magnetic field of 100 T . If this wire is pulled to take a square shape in the same plane in 0.1 s , find the average induced emf in the loop.

Figure show a square loop of side 0.5 m and resistance 10Omega . The magnetic field has a magnitude B=1.0T . The work done in pulling the loop out of the field slowly and uniformly in 2.0s is

A circular disc of radius 20 cm is rotating with a constant angular speed of 2.0 rad//s in a uniform magnetic field of 0.2 T. Find the e.m.f. induced between the centre and rim of the disc. Given magnetic field is along the axis of rotation of disc.