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

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)

n droplets of equal size and each of radius r coalesce to form a bigger drop of radius R. the energy liberated is equal to

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

If a number of little droplets of water of surface tension sigma all of the same radius r combine to form a single drop of radius R and the energy released in converted into kinetic energy find the velocity acquired by the bigger drop.

Some drops each of radius r coalesce to form a large drop of radius R . The surface tension T. Find the change in surface energy per unit volume?

n identical drops each of radius r combine into a big drop of radius R.The energy loss during this formation is 3E where E is the energy of the bigger drop.The value of 'n' is :

n identical drops each of radius r combine into a big drop of radius R.The energy loss during this formation is 3E where E is the energy of the bigger drop.The value of 'n' is

Several spherical drops of a liquid each of radius r coalesce to form a single drop of radius R. If T is the surface tension, then the energy liberated will be -

A number of small drops of mercury adiabatically coalesce to form a single drop. The temperature of the drop will