Two condensers, one of capacitor C and the other of capacity `(C)/(2)`, are connected to a V volt battery, as shown.

The work done in charging fully both the condensers is

Two condensers, one of capacity C and the other of capacity C//2 are connected to a V volt battery, as shown. The work done in charging fully both the condensers is

Two condensers, one of capacity C and the other of capacity C//2 are connected to a V volt battery, as shown. The work done in charging fully both the condensers is

Two condensers, one of capacity C and the other of capacity C//2 are connected to a V volt battery, as shown. The work done in charging fully both the condensers is

Two condensers, one of capacity C and the other of capacity C//2 are connected to a V volt battery, as shown. The work done in charging fully both the condensers is

Two condensers, one of capacity C and the other of capacity C//2 are connected to a V volt battery, as shown. The work done in charging fully both the condensers is

Two capacitors C_1 and C_2 of capacitances C/2 and C/4 are connected to a V volt battery, as shown in figure. The ratio of energy slored in capacitors C_1 and C_2 is

Two condensers of capacities 4mF and 6mF are connected to two cells as shown. Then

Three capacitors C_1 = 3muF, C_2 = 6muF and C_3 = 10muF are connected to a 50 V battery as shown in the figure below: Calculate : The charge on C_1

Three condensers each of capacity C microfarad are connected in series. An exactly similar set is connected in parallel to the first one. The effective capacity of the combination is 4 muF . Then, the value of C in microfard is