The capacitance of a capacitor is `3 muF`. If a charge of `108muC`, exists on it, calculate its potential .

The capacitance of a parallel plate capacitor is 2 mu F and the charge on its positive plate is 2 muC . If the charge on its plates is doubled, the capacitance of the capacitor

A charge of 1 muC is given to one plate of a parailel - plate capacitor of capacitance 0.1muF and a charge of 2 muC is given to the other plate . Find the potential difference developed between the plate .

Each capacitance shown in is in muF . Find the charge on 6 muC . .

One plate of a capacitor of capacitance 2muF has total charge +10muC and its other plate has total charge +40mUC . The potential difference between the plates is (in Volt).

In the given circuit it is known that the capacitor A has a capacitance of 2 muF and carries a charge of 40 muC . Capacitor C has a capacitance of 6 muF and carries a charge of 180 muC . The positive plate of both capacitors has been indicated in the Figure. Capacitance of capacitor B is 3 muF . Calculate charge on B after the switch S is closed.

A parallel plate capacitor having a capacitance of 4muF has a charge of 1muF on its plates. If the charge on the plates is increased to 2muF , then the new capacitance of the capacitor will be

A capacitor of capacitance 500muF is charged at the rate of 100muC//s . The time in which the potential difference will become 20V, is :

The capacity of a parallel plate air capacitor is 10muF and it is given a charge of 40muC . The electrical energy stored in the capacitor is

A capacitor of capacitance C is found to store a charge 480 muC when it is connected across a battery of potential difference V. Charge stored in the capacitor becomes 160muC when potential difference is reduced by 160V. Calculate C and V.