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

If a vessel containing a fluid of density rho upto height h is accelerated vertically downwards with accelerations a_(0) . Then the pressure by fluid at the bottom of a vessel 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 )

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.

In the arrangement shown two liquids of density rho and 2rho are filled in a container the height of both liquids is h. there are two holes A and B at heights h_(1) and h_(2) from top liquid surface and bottom of the vessel. if V_(1) and V_(2) are the velocities of efflux at the two holes A and B respectively, find the correct graph. Take =alpha((V_(2))/(V_(1)))^(2)

The height to which a cylindrical vessel be filled with a homogenous liquid, to make the average force with which the liquid presses the side of the vessel equal to the force exerted by the liquid on the bottom of the vessel, is equal to.

A cylinderical vessel is filled with water up to height H. A hole is bored in the wall at a depth h from the free surface of water. For maximum range h is equal to

A cylindrical vessel filled with water to a hight H. A vessel has two small holes in the side, from which water iins rushing out horizontal and the two steams stike the ground at the same poin, if the lower hole Q Q is h height above the ground, then the height of hole P above the ground will be