In an L-R circuit connected to a battery of constant emf E, switched is closed at time t=0. If denotes the induced emf across inductor and I the current in the circuit at any time t. Then which of the following graphs shown the variation of e with i?

In an L-R circuit connected to a battery of constant e.m.f. E switch S is closed at time t=0. If e denotes the magnitude of induced e.m.f. across inductor and i the current in the circuite at any time t. Then which of the following graphs shows the variation of e with i ?

Switch S of the circuit shows in Fig. is closed at t = 0 . If e denotes the induced emf in L and i the current flowing through the circuit at time t , then which of the following graphs correctly represents the variation of e with i ?

Switch S of the circuit shows in Fig is closed at t = 0 . If e denotes the induced emf in L and I is the current flowing through the circuit the circuit at time t , which of the following graphs is//are correct?

Switch is closed at t = 0 then the current in the circuit at t = L/2R is

In the circuit shown in figure, the switch S is closed at t=0 . If V_L is the voltge induced across the inductor and i is the instantaneous current, the correct variation of V_L versus is given by

In the circuit shown, switch S is closed at time t = 0 . Find the current through the inductor as a function of time t .

In the following circuit the switch is closed at t=0 .Intially there is no current in inductor.Find out current the inductor coil as a function of time.

In adjacent circuit, switch S is closed at t = 0. The time at which current in the circuit becomes half of the steady current is

At t=0 , switch S is closed. Find time constant of the circuit and current through inductor as a function of time t .

An uncharged capacitor of capacitance C is connected with a battery of EMF V and a resistance R. The switch is closed at t=0 . The time instant at which the current in the circuit is (V)/(4R) is t=