Four capacitors of capacitance `C`, `2C`, `3C` & `4C` respectively are connected as shown in figure. Battery is deal and all the connected wires have no resistance capcitance or inductance. Initially the switch `S` is open. If at `t=0` switch `S` is closed
The work done by battery after closing, switch is

Four capacitors of capacitance C , 2C , 3C & 4C respectively are connected as shown in figure. Battery is deal and all the connected wires have no resistance capcitance or inductance. Initially the switch S is open. If at t=0 switch S is closed Heat generated is the switch after closing switch is

Four capacitors of capacitance C , 2C , 3C & 4C respectively are connected as shown in figure. Battery is ideal and all the connected wires have no resistance capcitance or inductance. Initially the switch S is open. If at t=0 switch S is closed The charge flown through connector AB after switch is closed is

shows three resistances are connected with switch S initially the switch is open. When the switch S is closed find the current passed through it.

In the given figure that work done by the battery after the switch S is closed is

Consider the situation shown in figure. The switch S is open for a long time and then closed. Find the work done by the battery .

In the circuit shown in figure the switch S is closed at t = 0. A long time after closing the switch

Two inductors are connected in parallel and switch S is closed at t=0

Three identical capacitors and two identical batteries of negligible internal resistance are connected as shown in figure. Neglect the resistance of the wires and all the three switches are initially open. There is no charge on any capacitor initially In the above situation, what is work done by battery 2 due to closing of switch S_1 ?.

When the switch S is closed at t=0 , identify the correct statement just after closing the switch as shown in figure

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