The figure shows a arrangement of capacitors and a battery.

The potential of the points B and D are (if `V_(C) = 0`)

The figure shows a arrangement of capacitors and a battery. If the potential of C is zero, then

The figure shows a arrangement of capacitors and a battery. Identify the correct statements

Shows a diagonal symmetric arrangement of capacitors and a battery. . If the potential of C is zero, then identify the incorrect statement.

Figure shows a part of network of a capacitor and resistors. The potential indicated at A, B and C are with respect to the ground. The charge on the capacitor on the capacitor in steady state is

The arrangement shows a part of complete circuit. The potentials at point A and B are V_(1) and V_(2) respectively . Find the potential at point P. Strategy : The two capacitors C_(1) and C_(2) are connected in series . Therefore the charge on both of the capacitors is same . Let the potential at P is V .

In the circuit diagram shown in Figure , the potentials of the points B, C and D are respectively -

In the circuit shown in figure four capacitors are connected to a battery. Determine the potential difference V_(M)-V_(N) between· points M and N of the circuit. Find the conditions under which it is equal to zero.

In the circuit diagram shown in figure, the potentials of the points B, C and D are respectively.

Four equal capacitors , each with a capacitance (C) are connected to a battery of E.M.F 10 volts as shown in the adjoining figure. The mid point of the capacitor system is connected to earth. Then the potentials of B and D are respectively -