Pressure `3 m` below the free surface of a liquid is `15KN//m^(2)` in excess of atmosphere pressure. Datermine its density and specific gravity. `[g = 10m//sec^(2)]`

The pressure at depth h below the surface of a liquid of density rho open to the atmosphere is

The pressure at depth h below the surface of a liquid of density rho open to the atmosphere is

The absolute pressure at a depth h below the surface of a liquid of density rho is [Given P_(a) = atmospheric pressure, g = acceleration due to gravity]

The absolute pressure at a depth h below the surface of a liquid of density rho is [Given P_(a) = atmospheric pressure, g = acceleration due to gravity]

Find the pressure 200 m below the surface of the ocean if pressure on the free surface of liquid is one atmosphere. (Density of sea water =1060kg//m^3 ) g = 9.8m//s^2

There is an air bubble of radius 2.0 mm in a liquid of surface tension 0.070 Nm^(-1) and density 10^3 kg m^(-3) The bubble is at a depth of 12.0 cm below the free surface of liquid. By what amount is the pressure inside the bubble is greater then the atmospheric pressure ? Use g =10 m//s^2.

Find the pressure 200 m below the surface of the ocean if pressure on the free surface of liquid is one atmosphere. (Density of sea water = 1060 kg /m^3)

Consider an air bubble of radius 2 mm in a liquid at a depth of 5 cm below the free surface. The density of the liquid is 1000 kg//m ^(3) and the surface tension is 0.1N//m. Then, find the pressure inside the air bubble is greater than the pressure at the free surface of the liquid. (Take , h = 10 m //s^(2))