Two identical coils each of self-inductance L , are connected in series and are placed so closed to each other that all the flux from one coil links with the other. The total self-inductance of the system is

Two pure inductors each of self inductance L are connected in series, the net inductance is

Two coils of self-inductance 2mH and 8 mH are placed so close together that the effective flux in one coil is completely linked with the other. The mutual inductance between these coil is

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 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 pure inductors each of self-inductance L are connected in parallel but are well separted from each other. The total inductance is

Two identicaly induction coils each of inductance L joined in series are placed very close to each other such that the winding direction of one is exactly opposite to that of the other, what is the net inductance?

Two indentical coils, each of inductance L , are interconnected (a) in series, (b) in parallel. Assuminng the mutual insducane of the coils to be negliglible, find the inductance fo the system in both cases.

Two identical solenoid coils, each of self inductancen L are connected in series. Their turns are in the same sense, and the distance between them is such that the coefficient of coupling is half . Then the equivalent inductance of the combination is ___