In a cylindrical vessel containing liquid of density `rho` there are two holes in the side walls at heights of `h_(1)` and `h_(2)` respectively such that the range of efflux at the bottom of the vessel is same. The height of a hole for which the range of efflux would be maximum, will be

A cylindrical vessel contains a liquid of density rho up to height h . The liquid is closed by a piston of mass m and area of cross section A . There is a small hole at the bottom of the vessel. The speed v with which the liquid comes out of the hole is

A cylindrical vessel contains a liquid of density rho up to height h . The liquid is closed by a piston of mass m and area of cross section A . There is a small hole at the bottom of the vessel. The speed v with which the liquid comes out of the hole is

An open vessel containing the liquid upto a height of 15 m. A small hole is made at height of 10 m from the base of the vessel then the initial velocity of efflux is (g = 10 m/ s^2 )

If liquid of density rho is filled in an open cylindrical container to height h, then pressure at bottom

Three vessels containing same liquid, upto the same height h, then pressure at the bottom is ( A_1 > A_2 > A_3 )

Two immiscible liquids of densities rho and 2rho and thickness (heights) h and 2h , respectively, push a vertical plate. Find the total side thrust given by the liquids on the vertical plate.

A wide cylindrical vessel 50cm in height is filled with water and rests on a table. Assuming the viscosity to be negligible, find at what height from the bottom of the vessel a small hole should be perforated for the water jet coming out of it to hit the surface of the table at the maximum distance l_(max) from the vessel. Find l_(max) .

Two identical cylindrical vessel with their bases at the same level each contain a liquid of density rho . The height of the liquid in one vessel is h_(1) and in the other is h_(2) the area of either base is A. What is the work done by gravity is equalising the levels when the two vessels are connected?

A cylinider is filled with non viscous liquid of density d to a height h_(0) and a hole is made at a height h_(1) from the bottom of the cylinder. The velocity issuing out of the hole is

The range R of projectile is same when its maximum heights are h_(1) and h_(2) . What is the relation between R, h_(1) and h_(2) ?