The current flowing through an inductor of self inductance L is continuously increasing. Plot a graph showing the variation of Induced emf versus dI/dt

(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.

The current flowing through inductor of self inductance L is continously 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.

The current through two inductors of self inductance 12 mH and 30 mH is increasing with time at the same rate. Draw graphs showing the variation of the (a ) e.m.f. induced with the rate of change of current in each inductor. (b) enargy stored in each inductor with the current flowing through it. Compare the energy stored in the coils if power dissipated in the coil is same.

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

When current i passes through an inductor of self inductance L, energy stored in it is 1//2. Li^(2) . This is stored in the

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