Two coils P and S are wound on a common core.
Their coefficient of mutual induction does not depends on:

An e.m.f of 5 millivolt is induced in a coil when in a nearby placed another coil the current changes by 5 ampere in 0.1 second . The coefficient of mutual induction between the two coils will be :

The induced e.m.f. in a coil does not depend on

The coefficient of self inductance and the coefficient of mutual inductance have

A coil of radius r is placed at the centre of the large coil of radius R where R >> r and coils are in same plane.The coefficient of mutual inductance between the coil is

When current flowing through one coil changes from 0 Amp to 15 Amp in 0.2s, an emf of 750 V is induced in an adjacent coil. Calculate the coefficient of mutual inductances of the two coils.

Two coils A and B are wound on the same iron core as shown in figure. The number of turns in the coil A and B are N_(A) and N_(B) respectively. Identify the correct statement

A current of 10A in the primary coil of a circuit is reduced to zero. If the coefficient of mutual inductance is 3 H and emf induced in the secondary coil is 30 kV, time taken for the change of current is

When the current changes from +2A to -2A in 0.05s , and emf of 8V is induced in a coil. The coefficient of self-induction of the coil is

What is meant by the time constant of an LR circuit? When the current flowing through a coil P decreases from 5 A to 0 in 0.2 seconds, an emf of 60 V is induced across the terminals of an adjacent coil Q. Calculate the coefficient of mutual inductance of the two coils P and Q.

Voltage in the secondary coil of a transfomer does not depend upon