Three capacitors of `2.0, 3.0` and `6.0 muF` are connected in series to a `10 V` source. The charge on the `3.0 muF` capacitor is

Three capacitors 2,3 and 6 muF are connected in series to a 10 V source. The charge on 3muF capacitor is

Three capacitors of capacitacnce 1.0, 2.0 and 5.0muF are connected in series to a 10 V source. The potential difference across the 2.0muF capacitor is

A potential difference of 300 volts is applied to a combination of 2.0 muF and 8.0 muF capacitors connected in series. The charge on the 2.0 muF capacitor is

Two capacitors of 10muF and 20 muF are connected in series with a 30 V battery. The charge on the capacitors will be, respectively

Two capacitors of 10muF and 20 muF are connected in series with a 30 V battery. The charge on the capacitors will be, respectively

Three capacitors of capacitance 1.0muF,2.0muF" and "5.0muF are connected in series to a 10V source. The potential difference across the 2.0muF capacitor is

Two capacitors of 10muF and 20muF are connected is series with a 30 V battery. The charge on the capacitors will be respectively

Three capacitors of capacitances 3 muF, 9 muF and 18 muF are connected in series across a 120V supply line. The Charged capacitors are then disconnected from the line and reconnected with plates of same polarities together and n0-external voltage. the charge on 3 muF is

Three capacitors having capacitances 20muF, 30muF and 40muF are conneceted in series with a 12V battary. Find the charge on each of the capacitors. How much work has been done by the battery in charging the capacitors?