A capacitor of `2muF` is charged as shown in the figure. When the switch S is turned to position 2, the percentage of its stored energy dissipated is-

A capacitor of 2 muF is charged as shown in the figure. When the switch S is turned to position 2, the percentage of its stored energy dissipated is

A capacitor of 2 mu F is charged as shown in the diagram. When the switch S is turned to position 2, the percentage of its stored energy dissipated is:

A 2muF capacitor is charged as shown in the figure. The percentage of its stored energy disispated after the switch S is turned to poistion 2 is

The charge on 3 muF capacitor shown in the figure is

Three capacitors each of capacitance C = 2muF are connected with a battery of emf 30 V as shown in the figure . When the switch S is closed , the heat generated in the circuit will be

For the circuit shown in the figure, find the charge stored on capacitor in steady state.

Initially the 900muF capacitor is charged to 100 V and the 100muF capacitor is uncharged in the figure shown. Then the switch S_(2) is closed for a time t_(1) , after which it is opened and at the same instant switch S_(1) is closed for a time t_(2) and then opened. It is now found that the 100muF capacitor is charged to 300 V. If t_(1) and t_(2) minimum possible values of the time intervals, then findout (t_(1))/(t_(2))

Two capacitors A and B are connected in series with a battery as shown in the figure. When the switch S is closed and the two capacitors get charged fully, then

Two capacitors A and B are connected in series with a battery as shown in the figure. When the switch S is closed and the two capacitors get charged fully, then

Two capacitors A and B are connected in series with a battery as shown in the figure. When the switch S is closed and the two capacitors get charged fully, then