In the circuit shown below the switch is closed at `t=0`. For `0 lt t lt R (C_(1)+C_(2))`, the current `I_(1)` in the capacitor `C_(1)` in terms of total current I is

In the circuit shown, the switch is closed at t=0 , the currents I_1, I_2 and I_3 are

In the circuit shown in figure L=10H, R=5Omega, E=15V. The switch S is closed at t=0 . At t=2s the current in the circuit is

In the circuit shown switch S is closed at t=0 . Let i_1 and i_2 be the current at any finite time t then the ratio i_1/i_2

In the circuit shown, the currents i_(1) and i_(2) are

In the circuit shown, the switch 'S' is closed at t = 0 . Then the current through the battery steady state reached is

In the circuit shown in figure switch S is closed at time t=0 Current I from the battery at time t is given by

In the circuit shwon in fig. switch S is closed at time t = 0. Let I_1 and I_2 be the currents at any finite time t, then the ratio I_1// I_2

In the circuit shown if Fig. the switch S is closed at time t = 0. The current through the capacitor and inductor will be equal at time t equal (given R = sqrt(L//C)

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 circuit shown in fig switch S is closed at time t =0. a. What is the current I_(0) leacing the battery at t=0, immediately after the switch is closed? b. What is the current I "long time" later? c. What charge has accmulated on the capacitor after this long time? d. If, finally, swtich S is opened again, how long will it take after the switch is opened for the capactior to lose 80% of its charge?