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

In the circuit shown in figure charge stored in the capacitor of capacity 5muf is

Two capacitors A and B with capacities 3muF and 2muF are charged to a potential difference of 100 V and 180V , respectively. The plates of the capacitors are connected as show in figure with one wire of each capacitor free. The upper plate of A is positive and that of B is negastive. An uncharged 2muF capcitor C with lead wires falls on the free ends to complete the circuit. Calculate a. the final charge on the three capacitors. b. the amount of electrostatic energy stored in the system before and after completion of the circuit.

Two cellls, two resistance and two capacitors are connected as shown in figure. The charge on 2muF capacitors is

Two capacitors A and B with capacities 3 muF and 2 muF are charged to a potential differece of 100 V and 180 V , respectively. The plates ot the capacitors are connected as shown in, with one wire free from each capacitor. The upper plate of A is positive and that of B is negative An uncharged 2muF capacitor C with lead wires falls on the free ends to complete the circuit. i. Calculate the final charge on the three capacitors, ii. Find the amount of electrostatic energy stored in the system before and after the completion of the circuit. .

In the circuit shown in figure, the charge stored on a capacitor of capacitance 3muF is

Two capacitors A and B with capacities C_1 and C_2 are charged to potential difference of V_1 and V_2 respectively. The plates of the capacitors are connected as shown in the figure with one wire free from each capacitor. The upper plate of A is positive and that of B is negative. An uncharged capacitor of capacitance C_3 and lead wires falls on the free ends to complete circuit, then

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.

The charge on 3 muF capacitor shown in the figure is

Several capacitors are connected as shown in. If the charge on the 5 muF capacitor is 120 muC , the potential between points A and D is .

32 capacitor are connected in a circuit as shown in the figure. The capacitance of each capacitor is 3muF . Find equivalent capacitance across AB in muF .