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`

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

The current through an inductor of 1H is given by i =3t sin t . Find the voltage across the inductor.

The current through an inductor of 1H is given by i =3tsin t . Find the voltage across the inductor.

In an inductor of inductance L=100mH , a current of I=10A is flowing. The energy stored in the inductor is

In an inductor of inductance L=100mH , a current of I=10A is flowing. The energy stored in the inductor is

In an inductor, the current / varies with time to l = 5A + 16.(A//s)t . If-induced emf in the induct is 5 mV, the self inductance of the inductor is

The current in a 90mH inductor changes with time as i=1.0t^2-6t , where I is in amperes and t is in seconds.

Define self-inductance of a coil. Obtain the expression for the energy stored in an inductor L connected across a source of emf.

At the instant when the current in an inductor magnitude of the self-induced emf is 0.0640 A//s , the magnitude fo the self- induced emf is 0.0160 V . (a) What is the inductance of the inductor? (b) If the inductor is a solenoid with 400 turns, what is the average magnetic flux through each turn when the current is 0.720A ?