Two inductances `L_(1)` and `L_(2)` are placed far apart and in parallel. Their combined inductance is:

Two coils of self inductance L_(1) and L_(2) are connected in parallel and then connected to a cell of emf epsilon and internal resistance - R. Find the steady state current in the coils.

The inductors of self inductance L_(1) and L_(2) are put in series .

An alternating voltage, of angular frequency omega is induced in electric circuit consistin of inductance L and capacitance C, connected in parallel. Then across the inductance coil

Two coils of self-inductance L_(1) and L_(2) are placed closed to each other so that total flux in one coil is completely linked with other. If M is mutual inductance between them, then

Two inductors L_(1) and L_(2) are connected in parallel and a time varying current flows as shown. the ratio of current i_(1)//i_(2)

Two inductors L_(1) and L_(2) are connected in parallel and a time varying current flows as shown. The ratio of current i_(1)//i_(2) is?

An inductor coil of inductance L is divided into two equal parts and both parts are connected in parallel. The net inductance is :

A circuit contains two inductors of self-inductance L_(1) and L_(2) in series (Fig) If M is the mutual inductence, then the effective inductance of the circuit shows will be

Two coils of self inductance L_1 and L_2 are placed near each other so that the total flux in one coil is partially linked with the other. Their mutual inductance (M) will be given by

Two inductances L_(1) & L_(2) are connected in series & are seperated by a large distance. (a) Show that their equivalent inductance is L_(1)+L_(2) . (b) Why must their seperation be larger ?