Three capcaitors of capacities `1muF, 2muF` and `3muF` are charged by `10V, 20V` and `30V` respectively. Now positive plates of first two capacitors are connected with the negative plate of third capacitor on one side and negative plates of first wo capacitors are connectes with positive of third capacitor on the other side. Find
a. common potential V
b. final charges on different capacitors.

Two capacitors of capacitances 3 muF and 6 muF , are charged to potentials 2V and 5V respectively. These two charged capacitors are connected in series. Find the potential across each of the two capacitors now.

Two capacitors of 2muF and 3muF are charged to 150 V and 120 V , respectively. The plates of capacitor are connected as shown in the figure. An uncharged capacitor of capacity 1.5muF falls to the free end of the wire. Then

Two capacitors of 2muF and 3muF are charged to 150 V and 120 V , respectively. The plates of capacitor are connected as shown in the figure. An uncharged capacitor of capacity 1.5muF falls to the free end of the wire. Then

Two capacitors of 2muF and 3muF are charged to 150 V and 120 V , respectively. The plates of capacitor are connected as shown in the figure. An uncharged capacitor of capacity 1.5muF falls to the free end of the wire. Then

Two capacitors of capacitance 10 muF and 20 muF are charged to potential 20 V and 10 V respectively. If they are connected to share charges, then loss of energy is

Two capacitors of capacitance 2muF and 5muF are charged to a potential difference 100V and 50 V respectively and connected such that the positive plate of one capacitor is connected to the negative plate of the other capacitor after the switch is closed, the initial current in the circuit is 50 mA. the total resistance of the connecting wires is (in Ohm):

Two capacitors of capacitance 2muF and 5muF are charged to a potential difference 100V and 50 V respectively and connected such that the positive plate of one capacitor is connected to the negative plate of the other capacitor after the switch is closed, the initial current in the circuit is 50 mA. the total resistance of the connecting wires is (in Ohm):

Two capacitors of capacitance 2muF and 3muF respectively are charged to potential difference 20 V and 40 V respectively. Now the capacitors are connected in series with a resistance such that the positively charged plate of one capacitor is connected to the positively charged plate of the other. The initial current through the resistance is I_(0) . The potential difference across the 2muF capacitor at the instant the current has reduced to (I_(0))/(2) is_______ V.

Two capacitors of capacitance 2muF and 3muF respectively are charged to potential difference 20 V and 40 V respectively. Now the capacitors are connected in series with a resistance such that the positively charged plate of one capacitor is connected to the positively charged plate of the other. The initial current through the resistance is I_(0) . The potential difference across the 2muF capacitor at the instant the current has reduced to (I_(0))/(2) is_______ V.

A capacitor of 20mu F and charged to 200V is connected parallel with parallel with another capacitor of 10muF and charged to 400V. Find the common potential.