Four capacitors are arranged as shown. All are initially uncharged. A 30 V battery is palced across terminal `PQ` to charge the capacitors and is then removed. The voltage across the terminals RS is then (in volt)

Three capacitors are arranged as shown in. Find the equivalent capactiy across the points A and B. .

Three initially uncharged capacitors are arranged with batteries as shown in. Find the charge on each capacitor. .

Four resistors are connected as shown in the figure. A 6 V battery of negligible resistance is connected across terminal battery of negligible resistance A and C. The potential difference across terminal B and D will be

Several identical capacitors were connected in parallel and charged to a voltage φ_(0) . Subsequently they were reconnected in series with the aid of a switch. What will be the voltage across the terminals? Will the energy of the system change?

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

In the figure an A.C of rms voltage 200 volt is appled to the circuit containing diode and the capacitor and it is being rectified. The maximum potential across the capacitor C in volt will be

Potential different across the terminals of the battery shown in figure is

A capacitor is charged by a battery. The battery is removed and another identical uncharged capacitor is connected in parallel. The total electrostatic energy of resulting system:

A 1muF capacitor and a 2µF capacitor are connected in series across a 1200 V supply line. a. Find the charge on each capacitor and the voltage across them. b. The charged capacitors are disconnected from the line and from each other and reconnected with terminals of like sign together. Find the final charge on each and the voltage across them.

Two capacitors of capacitance C and nC are connected in parallel. A battery of emf V is connected across the combination. Now the battery is removed and a dielectric constant K is inserted filling the space between the plates of capacitor of capacitance C. The final potential difference across the system is