A small air bubble of radius 'r' is at a depth 'h' below the water surface (density of water`= rho)`. Surface tension of water is T, atmospheric pressure is `p_(0)`. Find pressure inside the air bubble for the condition `r lt lt h`

A small air bubble of radius r in water is at depth h below the water surface. If P_0 is the atmospheric pressure, rho is the density of water and T is the surface tension of water, what is the pressure inside the bubble?

A small air bubble of radius r in water is at a depth h ( r lt lt h ) . If P_(o) is the atmospheric pressure, rho is the density of water and T is the surface tension of water, the excess pressure inside the bubble over the pressure outside it is

An air bubble of radius r in water is at a depth h below the water surface at some instant if P is atmospheric pressure and d & T are the density and surface tension of water, what is the pressure inside the bubble ?

One end of a glass capillary tube with a radius r is immersed into water to a depth of h The surface tension of water is s and atmospheric pressure is p_0 . What pressure is required to blow an air bubble out of the lower end of the tube? Density of water is rho

One end of a glass capillary tube with a radius r is immersed into water to a depth of h The surface tension of water is s and atmospheric pressure is p_0 . What pressure is required to blow an air bubble out of the lower end of the tube? Density of water is rho

An air bubble of radius r in water is at a depth h below the water surface at some instant. If P is atmospheric pressure, d and T are density and surface tension of water respectively . the pressure inside the bubble will be :