In the circuit shown, the switch `S` is shifted to position `2` from position `1` at `t=0`, having been in position `1` for a long time.Find the current in the circuit as a function of time.

In the circuit shows in Fig switch S is shifed to position 2 from position 1 at t = 0 , having been on position 1 for a long time. The current in the circuit just after shifting of switch will be (battery and both the inductors are ideal)

In the given circuit diagram figure, switch S_w is shifted from position 1 to position 2. Then

In given LR circuit the switch S is closed at time t=0 then

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

In the circuit shown in the figure, the switch was kept in position - 1 for a very long time and then at t = 0 it is shifted to position - 2. The current in the circuit immediately after that is i = a/b A, then the value of a + b is

In the circuit shown switch S is connected to position 2 for a long time and then joined to position 1 .The total heat produced in resistance R_(2) is:

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 capacitor is initially uncharged and the two - way switch is connected in the position BC . Find the current through the resistence R as a function of time t . After time t = 4 ms, the switch is connected in the position AC . Find the frequency of oscillation of the capacitor of the circuit in the position, and the maximum charge on the capacitor C . At what time will the energy stored in the capacitor be one-half of the total energy stored in the circuit? It is given L = 2 xx 10^(-4)H, C = 5 mF, R = (In 2)/(10) Omega and emf of the battery = 1 V .

In the circuit shown in figure switch S is thrown to position 1 at t=0 . when the current in the resistort is 1A , it is shifted to position 2. the total heat generated in the circuit after shifting to position 2 is