Two coaxial coils are very close to each other and their mutual inductance is 5 mH. If a current (50 A) sin 500t is passed in one of the coils, then find the peak value of induced emf in the secondary coil.

Two coaxial coils are very close to each other and their mutual inductance is 10 mH. If a current (60 A) sin 500t is passed in one of the coils, then find the peak value of induced emf in the secondary coil.

Two coil are placed close to each other. The mutual inductance of the pair of coils depends upon.

The coefficient of mutual inductance of the two coils is 0.5 H . If the current is increased from 2 to 3 A in 0.01 sec . In one of them, then the induced e.m.f. in the second coil is :

Coefficient of mutual induction between 2 coils is 0.4 H. If a current of 4A in the primary is cut off in 1/15000 second, the emf induced in the secondary is

The mutual inductance between two coils is 0.5 H .It the current in one coil is changed at the rate of 5 A//s ,what will be the emf induced in the other coil?

The mutual inductance between two coils is 2.5 H . If the current in one coil is changed at the rate of 1 As^(-1) , what will be the emf induced in the other coil?

The coefficient of mutual induction between two coils is 4H. If the current in the primary reduces from 5A to zero in 10^(-3) second then the induced e.m.f in the secondary coil will be

The mutual inductance between two coils is 1.25 henry. If the current in the primary changes at the rate of 80 ampere//second , then the induced e.m.f. in the secondary is

If a current of 10 A changes in one second through a coil, and the induced emf is 20 V, then the self-inductance of the coil is

Two coils have the mutual inductance of 0.05 H. The current changes in the first coil as I=I_(0)sin omegat , where I_(0)=1A and omega=100pi"rad/s" . The maximum emf induced in secondary coil is