The pressure inside a liquid of density `rho` at a depth h is :

A ball of mass m and density rho is immersed in a liquid of density 3 rho at a depth h and released. To what height will the ball jump up above the surface of liqud ? (neglect the reistance of water and air).

A small ball of density rho is immersed in a liquid of density sigma(gtrho) to a depth h and released. The height above the surface of water up to which the ball will jump is

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

A ball of density rho is released from deep inside of a liquid of density 2 rho . It will move up

A small ball of density rho_(0) is released from the surface of a liquid whose density varies with depth h as rho=(rho_(0))/2(alpha+betah) . Mass of the ball is m. Select the most appropriate one option.

A beaker is filled with a liquid of density rho upto a height h If the beaker is at rest, the mean pressure at the walls is:

A uniform solid sphere of radius R is in equilibrium inside a liquid whose density varies with depth from free surface as rho=rho_(0)(1+h/(h_(0))) where h is depth from free surface. Density of sphere sigma will be :

An object of volume V is submerged in a liquid of density rho . It has flat bottom of area A which is at depth of H in the liquid and a dome shaped top find the total force of liquid acting on the top of the object.

A cone of radius R and height H , is hanging inside a liquid of density rho by means of a string as shown in figure. The force due to the liquid acting on the slant surface of the cone is

In a U-tube if different liquids are filled then we can say that pressure at same level of same liquid is same. Q. In a U-tube 20 cm of a liquid of density rho is on left hand side and 10 cm of another liquid of density 1.5 rho is on right hand side in between them there is a third liquid of density 2rho what is the value of h .