When a loop moves towards a stationary magnet with speed `v`, the induced emf in the loop is `E`. If the magnet also moves away from the lop with the same speed, then the emf inducted in the loop is

A magnet is moving towards a coil along its axis and the emf induced in the coil is epsilon . If the coil also strats moving towards the magnet with the same speed, the induced emf will be

In the following figure, the magnet is moved towards the coil with a speed v and induced emf is e. if magnet and coil reced away from one another each moving with speed v , the induced emf in the coil will be

A magnet is moving towards a coil along its axis and the emf induced in the coil is epsilon . If the coil also starts moving towards the magnet with the same speed, the induced emf will be ____

A constant current I flows through a long straight wire as shown in figure. A square loop starts moving towards righ with as constant speed v . a Find induced emf produced i the loop as a function x b. If total resistance of the loop is R , then find induced current in the loop,

A constant current I flows through a long straight wire as shown in figure. A square loop starts moving towards righ with as constant speed v . a Find induced emf produced i the loop as a function x b. If total resistance of the loop is R , then find induced current in the loop,

A circular wire loop of radius r lies in a uniform magnetic field B, with its plane perpendicular to magnetic field. If the loop is deformed to a square shape in the same plane in time t, the emf induced in the loop is

A rectangular closed loop moves horizontally in a uniform magnetic field. i. Will there be any induced current in the loop if the loop is completely in the magnetic field? ii. Will there be any induced current in the loop if the loop is partially out of the magnetic field? iii. Will the induced current in the loop remain if the loop is stationary and the magnetic field changes with time?