What is ratio of surface energy of 1 small drop and 1 large drop, if 1000 small drops combined to form 1 large drop

The surface energy of a drop is E. If one thousand such drops coalesce to form a large drop then its surface energy is E_1 . The ratio is E_1 . The ratio (E )/(E_1) is

1000 small water drops each of raius r and charge q coalesce together to form one spherical drop. (A) the ratio of capacitances of big and small drop is 10 (B) the ratio of potential of big and small drop is 100 (c) the ratio of surface charge densities of big and small drop is 10 (D) the ratio of energy stored of big and small drop is 10^(5)

64 identical drops of mercury are charged simultaneously to the same potential of 10 volt. Assuming the drops to be spherical, if all the charged drops are made to combine to form one large drop, then its potential will be

When 10^(6) small drops coalesce to make a larger drop them the drop

when n small drops are made to combine to from a big drop then the big drop's

Twenty seven drops of mercury are charged simultaneously to the same potential of 10V. What will be the potential if all the charge drops are made to combine to form one large drop? Assume the drops to be spherical.

The work done when n small drops of liquid of equal radius combine to form a big drop is proportional to

Calculate the energy released when 1000 small water drops each of same radius 10^(-7)m coalesce to form one large drop. The surface tension of water is 7.0xx10^(-2)N//m .