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

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

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).

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

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

An object of w and density rho is submerged in liquid of density sigma , its apparent weight will be

A wooden ball of density D is immersed in water of density d to a depth h//2 below the surface of water and then relased. To what height will the ball jump out of water ?

A body of density rho is immersed in a liquid of density rho_(L) .State condition when the body will (i) float (ii) sink in liquid.

A cylindrical block of the density rho is partically immersed in a liwuid of density 3rho . The plane surface of the block remains parallel to the surface of the liquid. The height of the block is 60 m . The block perform SHM when displaced form its mean position [Use g = 9.8 m//s^(2) ]

A drop of liquid of density rho is floating half-immersed in a liquid of density d . If sigma is the surface tension the diameter of the drop of the liquid is

A small ball of density rho is placed from the bottom of a tank in which a non viscous liquid of density 2 rho is filled . Find the time taken by the ball to reach the surface of liquid and maximum height reached above the bottom of container . (Size of the ball and any type of drag force acting on the ball are negligible )