If a million tiny droplets of water of the same radius coalesce into one larger drop, the ration of the surface energy of the large drop to the total surface energy of all the droplets 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?

8000 identical water drops are combined to form a big drop then the ratio of the final surface energy to the initial surface energy of all the drops together is

A big water drop is formed by the combination of 'n' small water drops of equal radii. The ratio of the surface energy of 'n' drops to the surface energy of big drop is

A liquid drop having surface energy E is spread into 512 droplets of same size. The final surface energy of the droplets is

A big drop is formed by coalescing 1000 small droplets of water. What will be the change in surface energy? What will be the ratio between the total surface energy of the droplets and the surface energy of the big drop.

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

Two mercury drops (each of radius 'r' ) merge to from bigger drop. The surface energy of the bigger drop, if 'T' is the surface tension, is :

Two mercury drops each of radius r merge to form a bigger drop. Calculate the surface energy released.

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)

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