In the given figure switch is open initially and capacitor `C_2` is unchanged

Potential difference on C1just after closing the switch is

In the given figure switch is open initially and capacitor C_2 is unchanged Energy in C1 is

In the given figure switch is open initially and capacitor C_2 is unchanged Charge on C2 just after closing the switch is

In the circuit shown, all the capacitors are initially uncharged. The current through the battery just after closing the switch 'S' is

Assertion In the figure, just after closing the switch the potential drop across inductor is maximum. Reason The rate of change of current just after closing the switch is maximum.

In the circuit shown in figure, the capacitors are initially uncharged. The current through resistor PQ just after closing the switch is

Initially the capacitor was uncharged Current in the capacitor just after switching on will be ?

In the connection shown in the figure, initially the switch K is open and the capacitor is uncharged. Then the switch is closed, and the capacitor is charged up to the steady state and the switch is opened again. Determine the values indicated by the values indicated by the ammeter just after closing the switch [Given V_0 = 30 V, R_1 = 10k Omega, R_2 = 5kOmega ] . A long time after switch was closed.

In the circuit shown all the ammeters are ideal. (a), If the switch S is open, find the reading of all ammeters and the potential difference across the switch. (b) If the switch S is closed, find the current through all ammeters and the switch also.

At t=0, switch is closed, if initially C_(1) is uncharged and C_(2) is charged to a potential difference 2epsilon then find out following (Given C_(1)=C_(2) =C ) (a) Charge on C_(1) and C_(2) as a function of time. (b) Also plot the graphs for the relations derived in part (a).

In the circuit shown in figure C_(1) = 2 C_(2) . Capacitance C_(1) is charged to a potential of V. The current in the circuit just after the switch S is closed is