The system shown in figure is in equilibrium . The mass of the container with Liquid is M, density of liquid in the container is `rho` and the volume of the block is V. If the container is now displaced downwards through a distance `x_(0)` and released such that the block remains well inside the liquid then during subsequent motion

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

A block of mass m is attached to two unstretched springs of spring constant k , each as shown. The block is displaced towards right through a distance x and is released The speed of the block as it passes through the mean position will be

A block of mass m is attached to two unstretched springs of spring constants k_1 and k_2 as shown in figure. The block is displaced towards right through a distance x and is released. Find the speed of the block as it passes through the mean position shown.

A block of mass m is attached to two unstretched springs of springs constant k_(1) and k_(2) as shown in figure. The block is displaced towards right through a distance x and is released. Find the speed of the block as it passes through the mean position shown.

A vertical U tube contains a liquid of density rho , length of the liquid in the tube is 2H. The liquid is displaced slightly and released. Show that the liquid will execute SHM. Also find its time period. Take liquid to be ideal.

A container (see figure) contains a liquid upto a height h. The density of the liquid is The gauge pressure at point P is (rho gh )/(x ) . Find the value of x

The velocity of the liquid coming out of a small hole of a vessel containing two different liquids of densities 2rho and rho as shown in the figure is

The velocity of the liquid coming out of a small hole of a vessel containing two different liquids of densities 2rho and rho as shown in the figure is

A solid cube floats in a liquid of density rho with half of its volume submerged as shown. The side length of the cube is a, which is very small compared to the size of the container. Now a liquid of density (rho)/(3) (immiscible with the liquid already in the container) is poured slowly into the container. The column of the liquid of density (rho)/(3) that must be poured so that the cube is fully submerged (with its top surface coincident with the surface of the poured liquid) is :

A container filled with a liquid of density 4p as shown in the figure. The velocity efflux through orifice is ( rho is density of water and g = 10 ms^(-2) )