Three capacitors `3 muF, 6 muF` and `6 muF` are connected in series to source of 120 V. The potential difference in volt, across the `3 muF` capacitor will be

Three capacitors, 3muF,6muF" and 6muF are connected in series to a source of 120V. The potential difference, in volts, across the 3muF capacitor will be

Three capacitors 3muF, 6muF and 6muF are connected in series to a source of 120 V. The potential difference, energy stored and charge of a parallel plate capacitor respectively. The quantities that increase when a dielectric slab is introduced between the plates without disconnecting the battery are

Two capacitors 3muF and 6muF are connected in series across a potential difference of 120V . Then the potential difference across 3muF capacitor is:

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

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 series combination of three capacitors of capacities 1 muF, 2muF and 8 muF is connected to a battery of e.m.f. 13 volt . The potential difference across the plates of 2 muF capacitor will be

A series combination of three capacitors of capacities 1 muF, 2muF and 8 muF is connected to a battery of e.m.f. 13 volt .The potential difference across the plates of 2 muF capacitor will be

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 capacitances 1muF,2muF and 3muF are connected in series (b) What is the ratio of potential differences ?