In the circuit shown when switch S is open the potential differences across the capacitor are` V_(P)-V_(Q)=V_(0)` and `V_(R)-V_(Q)=(7V_(0))/(2)` .If the switch S is closed. Then energy in the capacitor of capacitance 3C ,when current in the inductor maximum is

In the circuit shown in fig, switch S was closed for long time. At time t-0, the switch is opened again. The maximum potential difference across the plates of the capacitor after the switch is opened is

In the circuit of figure, the battery emf is epsi the resitance is R and the capacitance is C. The switch S is closed for a long time interval, and zero potential difference is measured across the capacitor After the switch is opened. the potential difference across the capacitor reaches a maximum value of DeltaV . What is the value of the inductance?

Two capacitors of capacitance C and 3C are charged to potential difference V_(0) and 2V_(0) , respectively, and connected to an inductor of inductance L as shows in Fig. Initially, the current in the inductor is zero. Now, switch S is closed. Potential difference across capacitor of capacitance 3C when the current in the circuit is maximum is

Two capacitors of capacitance C and 3C are charged to potential difference V_(0) and 2V_(0) , respectively, and connected to an inductor of inductance L as shows in Fig. Initially, the current in the inductor is zero. Now, switch S is closed. Potential difference across capacitor of capacitance C when the current in the circuit is maximum is

In the circuit shown in figure, the capacitor is charged with a cell of 5V .If the switch is closed at t=0 , then at t=12s , charge on the capacitor is

n the circuit shown in the figure, the capacitor C is charged to a potential V_(o) The heat generated and charge flow, in the circuit to when the switch S is closed, is

in a series LCR circuit, what is the phase difference between V_(L) and V_(C) where V_(L) is the potential difference across the inductor and V_(C) is the potential difference across the capacitor?

The potential differences across the resistance, capacitance and inductance are 80 V, 40 V and 100 V respectively in an L-C-R circuit. The power factor of this circuit is

For the circuit shown in the diagram find the value of V_a - V_b after long time closing the switch S_1 :

A capacitor is connected to a 12 V battery through a resistance of (10Omega) .It is found that the potential difference across the capacitor rises to 4.0 V in 1(mu)s. find the capacitance of the capacitor.