The energy stored in an inductor of self-inductance L henry carrying a current of I ampere is

The energy stored in an inductor of self inductance L carrying current l, is given by

Energy stored in a coil of self-inductance 40mH carrying a steady current of 2 A is

In what form is the energy stored in an inductor or A coil of inductance L is carrying a steady current i . What is the nature of its stored energy

Obtain the expression for the magnetic energy stored in an ideal inductor of self inductance L when a current I passes through it. Hence obtain the expression for the energy density of magentic field produced in the inductor.

Calculate the energy stored in an inductor of inductance 50 mH when a current of 2.0 A is passed through it.

Define the term self indutance of a solenoid. Obtained the expresssion for the magnetic energy stored in an inductor or self-inductance L to a build up a certain I through it.

A capacitor is connected across an inductor. At time t = 0 charge on the capacitor is equal to 1/sqrt2q_"max" , where q_"max" is the maximum charge on the capacitor. The time t, at which the energy stored in the capacitor is equal to the energy stored in the inductor is (The inductance of the inductor is L and capacitance of the capacitor is C. Resistance of the circuit is zero)

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

The average power dissipated in a pure inductor L carrying an alternating current of rms value I is .

(a) Describe a simple experiment (or activity) to show that the polarity of emf induced in a coil is always such that it tends to produce a current which opposes the change of magnetic flux that produces it. (b) The current flowing through an inductor of self inductance L is continuously increasing. Plot a graph showing the variation of (i) Magnetic flux versus the current (ii) Induced emf versus dI/Dt (iii) Magnetic potential energy stored versus the current.