A mercury drop has potential 'V' on its surface. 1000 such drops combine to form a new drop. Find the potential on the surface of the new drop.

A mercury drop of water has potential 'V' on its surface. 1000 such drops combine to form a new drop. Find the potential on the surface of the new drop.

There are 64 drops charged to a potential 100 volts each. These drops combine to form a bigger drop. Calculate electric potential at the surface of bigger drop.

A spherical drop of water carrying a charge of 3 xx 10^(-10) C has potential of 500V at its surface. When two such drops having same charge and radius combine to from a single spherical drop, what is the potential at the surface of the new drop?

512 identical drops of mercury are charged to a potential of 2V each. The drops are joined to form a single drop. The potential of this drop is ___ V.

125 identical drops each charged to the same potential of 50 volts are combined to from a single drop. The potential of the new drop will be

27 identical drops, each charged to potential 10 volts, combined to form a bigger drop. Find potential of this bigger drop ?

27 spherical drops, each carrying a charge of 10^(-3)muC that are at potential of 1,000 volts are combined to form a bigger drop. What would be the potential of this bigger drop?

1000 tiny mercury droplets coalesce to form a bigger drop .In this process , the temperature of the drop

27 similar drops of mercury are maintained at 10V each. All these spherical drops combine into a single big drop. The potential energy of the bigger drop is ............ times that of a smaller drop.