A circuit containing capacitors `C_(1)` and `C_(2)` as shown in the figure are in steady state with key `K_(1)` closed.At the instant `t=0`, if `K_(1)` is opened and `K_(2)` is closed then the maximum current in the circuit will be:

A circuit containing capacitors C_(1) and C_(2) shown in Fig. is in the steady state with key K_(1) closed. At the instant t = 0, K_(1) is opened and K_(2) is closed. The angular frequency of oscillation of the circuit is

A circuit containing two capacitor C_(1) and C_(2) shown in figure is in steady state with switch K_(1) closed and K_(2) open. At the instant t=0,K_(1) is opened and K_(2) is closed. The correct statements are.

A circuit containing capacitors C_1 and C_2 , shown in the figure is in the steady state with key K_1 and K_2 opened. At the instant t = 0 , K_1 is opened and K_2 is closed. (a) Find the angular frequency of oscillations of L- C circuit. (b) Determine the first instant t , when energy in the inductor becomes one third of that in the capacitor. (c) Calculate the charge on the plates of the capacitor at that instant.

Shown in the figure is an R-L circuit. Just after the key (K) is closed

The circuit shown in figure is in the steady state with switch S_(1) closed. At t=0, S_(1) is opened and switch S_(2) is closed. Find the first instant t, when energy in inductor becomes one third of that in capacitor

An inductor (L =0.03 H) and a resistor (R = 0.15kOmega) are connected in series to a battery of 15 V EMF in a circuit shown below. The key K_1 has been kept closed for a long time. Then at t=0 The key K_(1) is opened and Key K_(2) is closed simultaneously. At t =1 ms, the current in the circuit will be (e^(5) = 150)

The circuit shown in figure is in the steady state with switch S_(1) closed.At t=0 , S_(1) is opened and switch S_(2) is closed. The first instant t when energy in inductor becomes one third of that in capacitor is equal to (pi xx 10^(-5))/x sec . Then finout value of x .

In the circuit shown in the figure The steady state currents i_(1)and i_(2) in the coils after the switch S is closed are

In the circuit shows in Fig. switch k_(2) is open and switch k_(1) is closed at t = 0 . At time t = t_(0) , switch k_(1) is opened and switch k_(2) is simultaneosuly closed. The variation of inductor current with time is

For given circuit charge on capacitor C, and C_(2) in steady state will be equal to