n capacitors each of capacity C are joined in parallel. If they are connected to a source of V volts, then the energy stored in the capacitor is

n capacitors, each of capacity C, are connected in parallel and to a source of V volt. Will be the energy stored in the arrangement?

n capacitors, each of capacity C, are connected in series and to a source of V volt. What will be the energy stored in the arrangement?

If there are n capacitors each of capacitance C in series combination connected to a V volt source, then the energy stored in each capacitor is equal to :

Three capacitors each of capacity C are first joined in parallel and then in series. It is found that the difference in their effective capacities when joined in parallel and series respectively is 16muF . What is the capacitance of each capacitor?

If there are n capacitors in parallel connected to V volt source, then the energy stored is equal to

If there are n capacitors in parallel connected to V volt source, then the energy stored is equal to

Effective capacitance of parallel combination of two capacitors C_(1) and C_(2) is 10muF . When the capacitors are individually connected to a voltage source of 1V, the energy stored in the capacitor C_(2) is 4 times of C_(1) . If these capacitors are connected in series, their effective capacitor will be: lt

100 capacitors each having a capacity of 10 muF are connected in parallel and are charged by a potential difference of 100 kV . The energy stored in the capacitors and the cost of charging them, if electrical energy costs 108 paise per kWh , will be

If there are n capacitors in parallel connected to a V volt source, then the energy stored is equal to __________.

A capacitor of capacitance 1/3muF is connected to a battery of 300volt and charged. Then the energy stored in capacitor is