The current in ampere through an inductor is
i(10+20t)
Here t is in second. The induced emf in the inductor 4V.
Total flux linked with the inductor at t= 2 is

The current in ampere through an inductor is i(10+20t) Here t is in second. The induced emf in the inductor 4V. The self inductance of the indicator is, L…..H,

The current in ampere in an inductor is given by I=5 +16 t where t is in s. The self induced e.m.f in it is 10mv. The self inductance is

Find the time in which the current changes from 3 A to 1 A through an inductor of 10 H. The emf induced in the inductor is 20 V. Also, find the magnetic flux linked with the inductor.

The current in ampere in an inductor is given by I=4t^2+6t where is in s. The self induced e.m.f in it is 20 mV. The self inductance of the coil t=0

The current (in Ampere) in an inductor is given by l=5+16t , where t in seconds. The selft - induced emf in it is 10mV . Find (a) the self-inductance, and (b) the energy stored in the inductor and the power supplied to it at t =1s

If the current through an inductor of 2 H is given by I = t sin t A , then the voltage across the inductor is

The current in an inductor is given by i=alpha+betat , where t is time. The self-induced emf in it is V . Find (a) the self-inductance (b) the energy stored in the inductor and the power supplied to it at time t=t_(0)

The current through inductor of 2H is given by l=2t cos 2t . The voltage across the inductor is

Current flowing through an inductor as a function of time is given as follows : I = 4 + 16 t. here I is in amperes and t is in seconds. Emf induced in the inductor is 20 mV. Rate of energy supplied to inductor at t = 2 s is

The current through an inductor of 1H is given by i =31 sin t . Find the voltage across the inductor.