There is an air bubble of radius R inside a drop of water of radius 3R. Find the ratio of gauge pressure at point B to that at point A.

A soap bubble of radius r is placed on another bubble of radius 2r . The radius of the surface common to both the bubbles is

Excess pressure in a soap bubble of radius r is proportional to:

The energy needed for breaking a drop of radius R into n drops each of radius r is

A spherical soap bubble of radius 1 cm is formed inside another of radius 3 cm the radius of single soap bubble which maintains the same pressure difference as inside the smaller and outside the larger soap bubble is ____cm

Figure shows a capillary tube of radius r dipped into water. If the atmosphere pressure is P_0 , the pressure at point A is

The excess pressure inside an air bubble of radius r just below the surface of water is P_(1) . The excess pressure inside a drop of the same radius just outside the surface is P_(2) . If T is surface tension then

What is the surface energy of an air bubble of radius r inside a soap solution with surface tension T ?

Work done in forming a liquid drop of radius R is W_(1) and that of radius 3R is W_(2) . The ratio of work done is

Water is filled in a capillary tube of radius R. If the surface of water is hemispherical (theta = 0) , then find pressure at a point 'A' which is at h depth below the surface.

The excess pressure inside a soap bubble of radius R is (S is the surface tension)