Two capacitors each of capacity `2muF` are connected in parallel. This system is connected in series with a third capacitance of `12muF` capacity . The equivalent capacity of the system will be

The equivalent capacity in the system of capacitance will be

Three capacitors each of capacitance 1 muF are connected in parallel. To this combination, a fourth capacitor capacitance 1 muF is connected in series. The resultant capacitance of the system is

Two capacitors have a capacitance of 5 muF when connected in parallel and 1.2 muF when connected in series. Calculate their capacitance.

Three capacitors each of capacitor 2muF are connected in series. Find resultance capacity in farad.

Two capacitors of capacities 2muF each are connected in series. The effective capacitance in muF is

Two capacitor each of capacity 4muF are connected in series and third capacitor of capacity 4muF is connected in parallel with the combination. The equivalent capacitance of the arrangement is

Three capacitors each of capacity 10muF are connected in parallel. This combination is connected to a capacitor of capacity C in series so that the effective capacity is 12muF . Find the value of C.

Two capacitors of capacitances 3muF and 5muF respectively are connected in parallel and this combination is connected in series with a third capacitor of capacitance 2muF . A potential difference of 100 V is applied across the entire combination. The charge and the potential difference across the third capacitor is

Two capacitors each having capacitance of 2muF is connected in series what will the effective capacitance of these capacitors ?

When threee capacitors of equal capacities are connected in parallel and one of the same capacity is connected in series withs its combination . The resultant capacity is 3.75 muF . The capacity of each capacitor is