A body of density `rho` is dropped from reat from a height h into a lake of density `sigma(sigmagtrho)`. The maximum depth the body sinks inside the liquid is (neglect viscous effect of liquid)

A body of density rho is dropped from rest from height h (from the surface of water) into a lake of density of water sigma(sigmagt rho) . Neglecting all disspative effects, the acceleration of body while it is in the take is

body of density rho is dropped from height h into a liquid having density sigma(sigmagt rho) .If the body just touches the of the container, then the distance of fallen would be proprotional to (Neglect viscous forces)

A small body of density rho' is dropped from rest at a height h into a lake of density rho , where rhogtrho’ . Which of the following statements is/are correct if all dissipative effects are neglected (neglect viscosity)?

A body of density d_(2) is dropped from rest at a height x into a beaker having a liquid of density d_(1)(d_(2)gtd_(1)) . Which of the following is/are true?

A boll made up of a cork material of relative density (1)/(2) , is dropped from rest from a height 20 m into a lake. Neglecting all dissipative forces, calculate the maximum dept to which the body sinks before returning to float on the surface (poission ratio is zero)

A ball of density rho is dropped from a height on the suraca of a non-visous liquid of dinsity 2rho . Choose the correct options.

An object of density sigma(ltrho) is dropped from rest at a height h into a liquid of density rho kept in a tall vertical cylindrical container. Neglect all dissipative effects and assume that there is no spilling of the liquid. The time taken by the object to reach the starting point (from which it is dropped) is

A body sinks in a liquid if its density is ________the density of the liquid.

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

A body of density 2.5 g//cm^(3) is let free in a liquid of density 1.25 g//cm^(3) . The downward acceleration of the of the body while sinking in the liquid is . _______