A vessel in the form of a truncated cone has base area `a_(1)` and top area `a_(2)`. It is filled to the brim with a liquid. The force at the bottom of the vessel is

Two vessels A and B of different shapes have the same base area and are filled with water up to the same height h (see figure). The force exerted by water on the base is F_(A) for vessel A and F_(B) for vessel B . The respective weights of the water filled in vessels are W_(A) and W_(B) . Then

A uniformly tapering vessel of height h whose lower and upper radii are r and R is completely filled with a liquid of density rho The force that acts on the base of the vessel due of the liquid is

A conical vessel having base area 4xx10^3 m^2 and height 40 cm is filled with a liquid of density 0. 9 grarm/ cm^3 . What is the force acting on the base of the vessel due to the liquid column ? [Use g =10m//s^2 ]

Two identical cylindrical vessels have the same base area but are filled with different volumes of water . The forces on the bases of the two vessels are same .

A cylinder of mass m and density rho hanging from a string is lowered into a vessel of cross-section area s containing a liquid of density sigma (lt rho) unit it is fully immersed. The increase in pressure at the bottom of the vessel is

A cylindrical vessel of hieght h and base area S is filled with water. An orifice of area sltltS is made at the bottom of the vessel. Neglection viscosity find how soon the vessel would be emptied.

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 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.