Four capacitors and two batteries are connected as shown in the diagram. If `V_(a)` and `V_(b)` denote the potentials of the points 'a' and 'b' then
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Four capacitors and two batteries are connected as shown in the diagram. The p.d between the points a and b is .

Four capacitors and two batteries are connected as shown in the figure. The potential difference between the points a and b is:

Four capacitors are connected as shown in figuere to a 30 V battery. The potential difference between points a and b

Four capacitors and a battery are connected as shown in. If the potential difference aross the 7 muF capacitor is 6 V , then which of the following statement(s) is//are correct?

Four capacitor and a battery of emf 24 V are connected as shown in the figure. Initially, S is open and the capacitors are uncharged. After S is closed and steady state is attained, the potential difference across the 4 mu f capacitor is 7.5 V . The capacitance in mu f of the capacitor A is. .

Four identical capacitors are connected in series with a 10 V battery as shown in the figure. The point N is earthed. The potentials of points A and B are

Four capacitors are connected inseries a battery of emf 10 V as shown in the figure. The point P is earthed. The potential of point A is equal in magnitude to potetial of points B but opposite in sign is

Two capacitors C_(1) and C_(2) in a circuite are joined as shown. If V_(A)=V_(1),V_(B)=V_(2) , the potemntial of point P is

Five capacitors are connected in series as shown in figure with a battery of emf 20V and the point B is earthed. The potential of point A is

The resistance and batteries are connected as shown in. The potentials at points B,C,D, and E are assigned as shown. Find the potential at point A.