Two capacitors `C_(1)=3muF` and `C_(2)=6muF` in series, are connected in parallel to a third capacitor `C_(3)=4muF`. This arrangement is then connected to a battery of e.m.f., =`30V`, as shown. The energy lost by the battery in charging the capacitors

Two capacitors C_(1) = 2 muF and C_(2) = 6 muF in series, are connected in parallel to a third capacitor C_(3) = 4 muF . This arrangement is then connected to a battery of e.m.f = 2V , as shown in the figure. How much energy is lost by the battery in charging the capacitors

Two capacitors 2muF and 4muF are connected in parallel. A third capacitor of 6muF is connected in series. The combination is then connected across a 12V battery. The voltage across 2muF capacitor is:

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

Two capacitors of capacitances 4muF and 6muF are connected in series with a battery of 20 V. find the energy supplied by the battery.

Two capacitrors of 2 muF and 4 muF are connected in parallel. A third capacitor of 6 muF is connected in series. The combaination is connected across a 12 V battery. The voltage across 2 mu F capacitor is

Two capacitrors of 2 muF and 4 muF are connected in parallel. A third capacitor of 6 muF is connected in series. The combaination is connected across a 12 V battery. The voltage across 2 mu F capacitor is

Two capacitors C_(1) and C_(2) are connected to a battery of 6 V as shown in Fig. Find the charge on each capacitor.

Two capacitors 2 muF and 4 muF are connected in parallel. A third capacitor of 6 muF capacity is connected in series. The combination is connected across a 12 V battery. The voltage across a 2 muF capacitor is

Two capacitor of capacitance 4.0muF and 6.0muF' are connected in series with a battery of 20 V . Find the energy supplied by the battery .