Calculate the ratio of current flowing through the battery at t = 0 and ` t =oo` (t = 0 is the time of closing of the switch)

In the circuit shown in Fig. currrent through the battery at t = 0 and t = oo is

As shown in the figur a battery of emf in is conneced to an inductor L and resistance R in series . The swith is closed at t =0 . The total charge that flows form the battery between t 0 and t= t_(c) ( t_(c) is the time constant of the circuit )is :

As shown in the figure, a battery of emf is connected to an inductor L and resistance R in series. The switch is closed at . The total charge that flows from the battery, between t=t_e and t=2t_e ( t_e is the time constant of the circuit) is:

As shown in the figure, a battery of emf epsilon is connected to an inductor L and resistance R in series. The switch is closed at t=0 . The total charge that flows from the battery, between t=t_e and t=2t_e ( t_e is the time constant of the circuit) is:

The ratio of initial to final current through the battery when the switch is closed in the figure is

Consider the circuit shown in figure.(a) find the current through the battery a long time after the switch S is closed. (b) Suppose the switch is again opened at t = 0. What is the time constant of the discharging circuit? (c ) Find t current through the inductor after one time constant.

In the circuit shown in figure the switch S is closed at t = 0. A long time after closing the switch

In the circuit shows in Fig. the initail current through the inductor at t = 0 is I_(0) . After a time t = L//R , the switch is quickly shifted to position 2. a. Plot a graph showing the variation of current with time. b. Calculate the value of current in the inductor at t = (3)/(2) (L)/(R ) .

The switch shown in the circuit is closed al t = 0, The current drawn from the battery by the circuit at t = 0 and 1 = oo are in the ratio

In the given circuit (Fig), key K is switched on the at t = 0 . The ratio of current i through the cell at t = 0 to that at t = oo will be