For the network shown in figure. Compute.
(i). The equivalent capacitance between points and b.
(ii). The charge on each of the capacitors nearest a and b when `V_(ab)=900V`.
(iii). `V_(cd),` when `V_(ab)=900V`.

The equivalent resistance between the points A and B, if V_A gt V_B is

In the circuit shown in the figure, the potential difference between points a and b is V_(a) -V_(b) = 4 V . Find the emf, E of the battery.

Find the potential difference V_a -V_b between the points a and b shown in each part of the figure.

For the network shown in figure, points A, B and C are at potentials of 70 V, zero and 10 V respectively

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.)

In the circuit shown in figure find V_(ab) at 1 s

Find the potential difference V_(a)-V_(b) between the points a and b shown in each part of the figure.

In figure C_1=C_5=8.4muF and C_2=C_3=C_4=4.2muF .The applied potential is V_(ab)=220V (a) What is the equivalent capacitance of the network between points a and b ? (b) Calculate the charge on each capacitor and the potential difference across each capacitor.