A constant current exists in an inductor coil connected to a battery. The coil is short circuited and the battery is removed. Show that the charge flown through the coil after the short circuiting is the same as that which flows in one time constant before the short circuiting.

A circuit consists of a coil, a switch and a battery, all in series. The internal resistance of the battery is negligible compared with that of the coil. The switch is originally open. It is thrown closed, after a time interval Deltat . The current in the circuit reaches 80.0% of its final value. The switch then remains closed for a time interval much longer than Deltat . The wires connected to the terminals of the battery are then short circuited with another wire and removed from the battery, so that the current is uninterrupted. At an instant that is a time interval Deltat . After the short circuit, the current is what percentage of its maximum value? a)20% b) 8% c) 4% d)10 %

An inductor-resistance -battery circuit is switched on at t = 0. find the emf of the battery in one time constant .

A coil of inductance 1.0 H and resistance 100 Omega is connected to a battery of emf 12 V. Find the energy stored in the magnetic field associated with the coil at an instant 10 ms after the circuit is switched on.

Determine the current through the battery in the circuit shown in figure. (a) immediately after the switch S is closed (b) after a long time.

A coil of inductance 8.4 mH and resistance 6 Omega is connected to a 12 V battery. The current in the coil is 1.0 A at approximately the time.

A coil carrying a steady current is short-circuited. The current in it decreases alpha times in time t_(0) . The time constant of the circuit is

An inductor of 3H is connected to a battery of emf 6V through a resistance of 100 Omega . Calculate the time constant. What will be the maximum value of current in the circuit ?

In the circuit shown in figure switch S is closed at time t=0 . The charge which passes through the battery in one time constant is

What should be the value of E_1//E_2 so that current flowing through 7 Omega resistor could be increased by short- circuiting the battery of emf E_2 ?

A coil having an inductance L and a resistance R is connected to a battery of emf epsilon . Find the time elapsed before, the magnetic field energy stored in the circuit reaches half its maximum value.