A network of four capacitors each of 15 mu F capacitance is connected to a 500 V supply as shown in the figure . Determine (a) equivalent capacitance of the network and (b) charge on each capacitor .

A network of four 10 mu F capacitors is connected to a 500 V supply, as shown in Fig. Determine (a) the equivalent capacitance of the network and (b) the charge on each capacitor. (Note, the charge on a capacitor is the charge on the plate with higher potential, equal and opposite to the charge on the plate with lower potential.)

A network of four 20 muF capacitors is connected to a 600 V supply as shoen in the figure. The equivalent capacitance of the network is

The equivalent capacitance for the network shown in the figure is

Four capacitors are connected as shown in the figure. The equivalent capacitance between P and Q is

In the circuit shown in figure find a. the equivalent capacitance and b. the charge stored in each capacitor.

In the circuit shown in figure find a. the equivalent capacitance and b. the charge stored in each capacitor.

In the circuit shown in figure find a. the equivalent capacitance and b. the charge stored in each capacitor.

Three identical capacitors C_(1) , C_(2) and C_(3) of capacitance 6 mu F each are connected to a 12 V battery as shown in Fig. Find (i) charge on each capcitor (ii) equivalent capacitance of the network. (iii) energy stored in the network of capacitors.

A network of resistors is connected to a 16V battery as shown in the following figure. Compute the equivalent resistance of the network.