Find the change in magnetic flux (in Wb) in an inductor of 10H in which the emf induced is 300 V in `10^(-2)s`.

A coil with an average diameter of 0.04 m is placed perpendicular to a magnetic field of 4000T. If induced emf is 22V when the magnetic field is changed to 2000T in 2s. What is the number of turns in the coil?

A horizontal conducting rod 10 m long extending from east to west is falling with a speed 5.0 m . s^(-1) at right angles to the horizontal component of the Earth's magnetic field, 0.3xx10^(-4)Wb.m^(-2) . Find the instantaneous value of the emf induced in the rod.

At time t the magnetic flux is given by- phi = 5t^3- 100t + 300 . What will.be the induced emf after 3 sec?

A proton with a speed of 2xx10^(7)m.s^(-1) enters a magnetic field of flux density 1.5Wb.m^(-2) , making an angle of 30^(@) with the field. The force acting on the proton is

A proton with a speed of 2xx10^7 m.s-1 enters a magnetic field of flux density 1.5 Wb.m^-2 , making an angle of 30^@ with the field. The force acting on the proton is

A coil has a number of turns n and area A. It is placed at an angle 60^@ with the direction of magnetic field . If B is change in magnetic field with time then what will be induced e.m.f in the coil?

A rod of length l is moved horizontally with a uniform velocity v in a direction perpendicular to its length through a region in which a uniform magnetic field is acting vertically downward. Derive an expression for the emf induced across the ends of the rod.

The current in a coil increases by 10 A in 0.01s. If the average emf induced in the coil is 100 V, find out the self-inductance of the coil and the flux linked with it.

If a rate of change of current of 2 A.s^(-1) induces an emf of 10 mV in a solenoid, what is the self-inductance of the solenoid?