A cylinder of height H and radius R is filled with a liquid of density p . What is the disrupting stress at a heght h? where is it maximum and where minimum ?
[Hint : Disrupting stress is the elastic force per unit length Consider equilibrium of an element of the wall.]

A cylinder is fill ed with a liquid of density p upto a height h. What is the hydrostatic pressure exerted by the liquid on the bottom of the cylinder, if the cylinder is kept in a lifi moving upwa rds with an acceleration a ?

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 large vessel of height H is filled with a liquid of density rho upto the brim. A small hole of radius r is made at the side vertical face, close to the base. The horizontal force is required to stop the gushing of liquid is

A cylinder of radius R, height H and density simga has a hemispherical cut at its bottom. The top of the cyliner is kept at depth h from the liquid surface. If the density of liquid is rho , find the hydrostatic force acting on the hemispherical surface of the cylinder.

A cylindrical vessel of radius r is filled with a homogeneous liquid upto a height h. It is found that the force exerted by the liquid column on the bottom of the cylinder is equal to the force exerted by the liquid on the sides of the cylinder. What is the relation between r and h?

A cone of radius r and height r is under a liquid of density d.its base is parallel to the free surface of the liquid at a depth H from it as shown.What is the net force due to liquid on its curved surface? (neglect atmospheric pressure)

A hollow sphere of radius R is filled completely with an ideal liquid of density rho .Sphere is moving horizontally with an acceleration 2g ,where g is acceleration due to gravity in the space.If minimum pressure of liquid is P_(0) ,then pressure at the centre of sphere is