In n drops, each of capacitance C, coalesce to form a single big drop, then ratio of the energy stored in the big drop to that in each small drop will be

If n drops, each of capacitance C and charged to a potential V, coalesce to form a big drop, the ratio of the energy stored in the big drop to that in each small drop will be

If n drops of a liquid, form a single drop, then

n number of water droplets, each of radius r , coalese, to form a single drop of radius R . The rise in temperature d theta is

A large number of liquid drops each of radius 'a' coalesce to form a single spherical drop of radius b. The energy released in the process is converted into kinetic energy of the big drops formed. The speed of big drop will be

Two drops of equal radius coalesce to form a bigger drop. What is ratio of surface energy of bigger drop to smaller one?

Eight small drops, each of radius r and having same charge q are combined to form a big drop. The ratio between the potentials of the bigger drop and the smaller drop is

Two small drops of mercury each of radius r form a single large drop. The ratio of surface energy before and after this change is

If 5 small spherical droplet coalesce to form a bigger drop then temperature of bigger drop in comparison to smaller drops will

A large number of droplets, each of radius a, coalesce to form a bigger drop of radius b . Assume that the energy released in the process is converted into the kinetic energy of the drop. The velocity of the drop is sigma = surface tension, rho = density)

When water droplets merge to form a bigger drop