Calculate the energy evolved when 8 droplets of water (surface tension `0.072 Nm^(-1)`) of radius `1.2 mm ` each combine into one.

Calculate the amount of energy evolved when 8 droplets of water (Surface tension 0.072 N m^-1) of radius 1/2 mm each combines into one.

Calculate the amount of energy evolved when 8 droplets of water ( surface tension of water =0.072 Nm^(-1) ) of radius 1//2 mm each combine into one.

Calculate the amount of energy evolved when 8 droplets of water ("surface tension" =7 2 "dyne"" "cm^(-1)) of radius 0.5 mm each combine into one.

Calculate the amount of energy evolved when eight drplets of mercury (surface tension 0.55Nm^(-1) ) of radius 1 mm each combine into one.

Calculate the pressure inside a raindrop of diameter 2 mm [ surface tension of water = 0.072 N/m]

Calculate the amount of energy dissipated when 8 drops of water of 0.3 mm radius coalesce from one big drop surface tension of water is 7.2xx10^(-2)Nm^(-1) .

The capillary rise in a tube of diameter 1mm when surface tension of water is 0.06 Nm^-1 is

When 8 droplets of water of radius 0.5 mm combine to form a single droplet. The radius of it is ..........

Calculate the work done when a spherical drop of mercury of radius 1 mm falls from some height and breaks into 27droplets.each of the the same size. The surface tension of mermcury is T= 0.47 N/m.

A small air bubble of 0.1 mm diameter is formed just below the surface of water. If surface tension tension of water is 0.072 Nm^(-1) , the pressure inside the air bubble in kilo pascal is (Atmospheric pressure =1.01xx10^(5)Pa )