In a car spark coil, e.m.f 40 kV is induced in the secondary when the primary current changes from 4A to 0 in `10mu s` . Find the mutual inductance between the coils

A solenoid of length 20cm, area of cross- section 4.0 cm^2 and having 4000 turns is placed inside another solenoid of 2000 turns having a cross - sectional area 8.0cm ^2 and length 10 cm . Find the mutual inductance between the solenoids.

The current in a long solenoid of radius R and having n turns per unit length is given by i= i_0 sin omega t . A coil having N turns is wound around it near the centre. Find (a) the induced emf in the coil and (b) the mutual inductance between the solenoid and the coil.

An average emf of 20 V is induced in an inductor when the current in it is changed from 2.5 A in one direction to the same valute in the opposite direction in 0.1 s. Find the self inductance of the inductor.

A coducting circular loop of area 1mm^2 is placed coplanarly with a long, straight wire at a distance of 20 cm from if. The straight wire carries an electric current which changes from 10A to zero is 0.1 s. Find the average emf induced in the loop in 0.1 s.

An average induced emf of 0.20 V appears in a coil when the current in it is changed from 5.0 A in one direction to 5.0 A in the opposite direction in 0.20 s. find the self inductance of the coil.

The solenoids S_(1)andS_(2) are wound on an iron-core of relative permeability 900. The area of their cross-section and their length are the same and are 4 cm 2 and 0.04 m respectively. If the number of turns in S_(1) is 200 and that in S_(2) is 800, calculate the mutual inductance between the coils. The current in solenoid 1 is increased form 2 A to 8A 0.04 second. Calculate the induced emf in solenoid 2.