A capacitor of `20muF` charged upto 500 V is connected in parallel with another capacitor of `10muF`, which is charged upto 200 V. the common potential is

A capacitor of 30 muF charged up to 500 volt is connected in parallel with another capacitor of 15 muF which is charged up to 300V. The common potential is

A capacitor of 20 muF is charged to 500 volts and connected in parallel ith another capacitor of 10 muF and charged to 200 volts. The common potential is

A capacitor of 10 muF charged up to 250 volts is connected in parallel with another capacitor of 5 muF charged up to 100 volts. The common potential is

A capacitorn of 2 muF charged to 50 V is connected in parallel with another capacitor of 1 muF charged to 20 V. The common potential and loss of energy will be

A capacitor of 2muF cahrged to 50V is connected in parallel with another capacitor of 1muF cahrged to 20V . Find common potential, cahrge on each capacitor and the loss the loss of energy.

A capacitor of 30 mu F charged to 100V is connected in parallel to capacitor of 20 mu F charged to 50V .The common potential is ...?

A capacitor 4 muF charged to 50 V is connected to another capacitor of 2 muF charged to 100 V with plates of like charges connected together. The total energy before and after connection in multiples of (10^(-2) J) is

A 20muF capacitor charged to 100 V is connected in parallel to a 10muF capacitor charged to 100 V. find the loss in energy.

4muF capacitor is charged to 150 V and another capacitor of 6muF is charged to 200 V. Then they are connected across each other. Find the potential difference across them. Calculate the heat produced.