Two capacitors 2C and 4C initially charged to potential difference of `V_(0) and 3V_(0)` with the potential as show are connected to an inductor of inductance L. Initial curren tin the inductor is zer. Now the swtich 'S' is closed. The maxmimum current in the circuit 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. The maximum current in the inductor 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 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

A capacitor of capacitnace C is charged to a potential difference V and then disconnected from the battery. Now it is connected to an inductor of inductance L at t=0. Then

In the adjacent circuit, the capacitor 'A' of capacitance '3C' and the capacitor 'B' of capacitance 'C' are initially charged by potential drops 4_(varepsilon) and 8_(varepsilon) respectively and connected through and inductor of inductance 'L' with zero initial current as shown. The switch 'S' is closed at t = 0 . then the maximum current through the inductor is

A condenser of capacity C is charged to a potential difference of V_(1) . The plates of the condenser are then connected to an ideal inductor of inductance L . The current through the inductor when the potential difference across the condenser reduces to V_(2) is

A condenser of capacity C is charged to a potential difference of V_(1) . The plates of the condenser are then connected to an ideal inductor of inductance L . The current through the inductor wehnn the potential difference across the condenser reduces to V_(2) is

A capacitor of capacity 2muF is changed to a potential different of 12V . It is then connected across an inductor of inductance 0.6mH What is the current in the circuit at a time when the potential difference across the capacitor is 6.0V ?

A capacitor of capacity 2muF is changed to a potential different of 12V . It is then connected across an inductor of inductance 0.6mH What is the current in the circuit at a time when the potential difference across the capacitor is 6.0V ?

A capacitor of capacity 2muF is charged to a potential difference of 12V. It is then connected across an inductor of inductance 6muH . At an instant when potential difference across the capacitor is 6V, what is the current(in A)?