A magnet is moved towards a coil (i) quickly (ii) slowly, then the induced e.m.f. is

A magnet is moved towards the coil

A magnet is brought towards a coil (i) speedily (ii) slowly then the induced e.m.f.//induced charge will be respectively

A magnet is brought towards a coil (i) speedly (ii) slowly then the induced e.m.f./induced charge will be respectively

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

When a magnet is moved towards a coil the direction of induced current is clockwise. If the magnet is moved away from the coil, the direction of induced current will be

A magnet is brought towards a fixed coil rapidly . Due to this induced emf, current and charge are E, I and Q repectively . If the speed of the magnet is doubled, then wrong statement is __

As shown is the figure , a magnet is brought towards a fixed coil . Due to this the induced emf , current and the charge are E , I and Q respectively . If the speed of the magnet is double then the following statement is wrong

A coil is being moved towards a stationary magnet (i) rapidly (ii) slowly. Induced current in the coil is

The rate of change of magnetic flux linked with the coil is equal to the magnitude of induced e.m.f.' this is the statement of