A ball of density `rho` is dropped from a height on the surface of a non-viscous liquid of density `2rho`. Choose the correct options.

A small ball is dropped from a certain height on the surface of a non-viscous liquid of density less than the density of ball. The motion of the ball is

A plank is floating in a non-viscous liquid as shown, Choose the correct option

A ball of density rho_(0) falls from rest from a point P onto the surface of a liquid of density rho in the time T. It enters the liquid, stops, moves up, and returns to P in a total time 3 T. neglect viscosity, surface tension and splashing find the ratio of (rho)/(rho_(0))

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 )

The liquid inside the container has density rho . Choose the correct option.

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

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 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)?

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