Figure-5.150 shows LC circuit with initial charge on capacitor `200 mu C`. If at t=0 switch is closed, find the first instant when energy stored in inductor becomes one third that of capacitor.

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

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 .

Initial charge on capacitor of 3 mu C. Find initial current when switched is closed.

The circuit is switched on at t=0 , Find the time when energy stored in inductor becomes 1/n tiimes of maximum energy stored in it:

The circuit shows in Fig. is in the steady state with switch S_(1) closed. At t = 0,S_(1) is opened and switch S_(2) is closed. a. Derive expression for the charge on capacitor C_(2) as a function of time. b. Determine the first instant t , when the energy in the inductor becomes one-third of that in the capacitor.

A capacitor C with a charge Q_(0) is connected across an inductor through a switch S. If at t=0, the switch is closed, then find the instantaneous charge q on the upper plate of capacitor.

Figure-5.102 shows a RL circuit. If at t-0 switch is closed, find the current in inductor as a function of time.

A circuit contains 50 muF capacitor and 20 mH inductor connected together with the help of a key which is open initially. Charge stored in the capacitor is 50 mC. Key is closed at t=0 . Calculate the minimum time interval in which energy stored in the inductor becomes equal to the energy stored in capacitor . Neglect any resistance in the circuit .

The capacitor shown in the figure is initially unchanged, the battery is ideal. The switch S is closed at time t= 0, then the time after which the energy stored in the capacitor becomes one - fourth of the energy stored in it in steady - state is :

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.