A capacitor of capacitance 1`mu`F is charged to a potential of 1V . It is connected in parallel to an inductor of inductance `10^(-3)`H. The maximum current that will flow in the circuit has the value

A capacitor of capacitance 1 muF is charged to a potential of 1 V , it is connected in parallel to an inductor of inductance 10^(-3)H . The maximum current that will flow in the circuit has the value

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)?

A capacitor or capacitance C_(1) is charge to a potential V and then connected in parallel to an uncharged capacitor of capacitance C_(2) . The fianl potential difference across each capacitor will be

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

A capacitor of capacitance 1 mu F is charged to potential 2 V and is connected to an inductor of 1 mH. At an instant when potential difference across. The capacitor is 1 V, the current in the circuit is 10^(-2) sqrt((10x)/(3)) ampere. Find out the value of x.

A capacitor of capacitance 2.0 mu F is charged to a potential difference of 12 V. It is then connected to an uncharged capacitor of capacitance 4.0 mu F . Find (a) the charge flow through connecting wire upto study strate on each of the two capacitors after the connection in mu C (b) The total electrostatic energy stored in both capacitors in mu J (c) the heat produced during the charge transfer from one capacitor to the other in mu J .

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