Several spherical drops of radius r of a liquid of surface tension T coalesce to form a single drop of radius R and volume V. The energy released in the process is`nvT [(1)/(r ) -(1)/(R )]` where n = ---

If n drops of liquid, each with surface energy E, join to form a single drop, then

If a number of little droplets of water, all of the same radius r, coalesce to form a single drop of radius R, the rise in temperature will be given by (18 T)/( eta rho s) ((1)/(r ) - (1)/(R )) where T is the surface tension of water, rho is density of water and n is a dimensionless constant. Find eta .

When ‘n’ identical droplets are combined to form a big drop, then the energy will be released If n identical small droplets each of radius r merge to form a big drop of radius R and the energy released in this process is absorbed by the big drop then rise in temperature (T be the surface tension, d be the density and S be the specific heat of the liquid droplets)