The surface tension of water is `7xx10^(-2)` N/m . The work required to break a drop of water of radius 0.5 cm into identical drops , each of radius 1 mm is

Surface tension of soap solution is 2 xx 10^-2 N//m . The work done in producing a soap bubble of radius 2 cm is,

The surface tension of a soap solution is 2.1xx10^(-2) N//m . The work done in blowing a soap bubble of diameter 6.0 cm is

The work done in splitting a drop of water of 1 mm radius into 64 identical droplets is (S.T. of water is 72xx10^(-3) j//m^2)

The surface tension of soap solution is 25 xx 10^-3 N//m . The excess of pressure inside the soap bubble of radius 0.5 cm is.......

The surface tension of soap solution is 2.1xx10^-2 N//m . Then the work done in blowing a soap bubble of diameter 3.0 cm is

The surface tension of water is 7 xx 10^(-2) N/m . Find the height at which water rises in a capillary tube of glass having a bore of uniform radius 0.2 mm. (Density of water = 1000 kg /m^3 , acceleration due to gravity = 9.8 m /s^2 )

The amount of work performed to break a shperical drop of radius 1 mm into million drops of equal radius , is (T=7.2xx10^-2N//m)

A long capillary tube of radius 0.2 mm is placed vertically inside a beaker of water. If the surface tension of water is 7.2xx10^(-2)N//m the angle of contact between glass and water is zero, then determine the height of the water column in the tube.

If surface tension of a soap solution is 1.9xx10^-2 N//m, then the work done in blowing a bubble of 2 cm diameter will be.

The surface tension of water is 0.07 N/m . Find the weight of water supported by surface tension in a capillary tube with a radius of 0.1 mm.