Figure here shows the vertical cross-section of a vessel filled with a liquid of density `rho`. The normal thrust per unit area due to liquid on the walls of the vessel at point A, as shown, will be

Figure here shows the vertical cross-section of a vessel filled with a liquid of density rho . The normal thrust per unit area on the walls vessel at point. P , as shown, will be

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 uniformly tapering vessel is filled with a liquid of density 900 km//m^3. The force that acts on the base of the vessel due to the liquid is (g = 10 ms^(-2))

Consider a regular tank of size (lxxb) filled with a liquid of density rho to a height H as shown in figure. Find the force at the base and on the wall of the tank.

A cubical vessel (open from top) of side L is filled with a liquid of density rho . What is the ratio of magnitude of torque on one side wall to the torque on base about the same axis

Figure shows a container filled with a liquid of density rho . Four points A, B, C and D lie on the vertices of a vertical square. Points A and C lie on a vertical line and points B and D lies on a horizontal line. Choose the correct statement(s) about the pressure at the four points.

In the adjacent figure a cylindrical vessel of mass M and cross - sectional area A is placed inverted on a fixed smooth piston of same cross - sectional area fixed to the ground . The space between the cylinder and priston is completely filled with liquid of density rho . There is a small office of cross - sectional area a ( a lt lt A) at the top top portion of this vessel . ( intially length of the liquid column in the vessel is H ) Speed of the liquid with which it comes out of the vessel is

In the adjacent figure a cylindrical vessel of mass M and cross - sectional area A is placed inverted on a fixed smooth piston of same cross - sectional area fixed to the ground . The space between the cylinder and priston is completely filled with liquid of density rho . There is a small office of cross - sectional area a ( a lt lt A) at the top top portion of this vessel . ( intially length of the liquid column in the vessel is H ).Find the speed of the vessel with which it move

A cylindrical vessel of area of cross section A is filled with a liquid up to a height H . A very small hole of area of cross section a is made at the bottom of the vellel. Find the time taken by the vessel to become empty.

A ball of density ais released from rest from the centre of an accelerating sealed cubical vessel completely filled with a liquid of density rho . If the trough moves with a horizontal acceleration veca_(0) find the initial acceleration of the ball.