A cylindrical massless container of cross sectional area A have a fluid filled up to height h and have a small orifice of area a in wall near its bottom. Find minimum coefficient between container and ground so that container does not move

A cylindrical container of cross-section area, A is filled up with water upto height 'h' Water may exit through a tap of cross sectional area 'a' in the bottom of container. Find out (a) Velocity of water just after opening of tap. (b) The area of cross-section of water stream coming out of tape at depth h_(0) below tap in terms of 'a' just after opening of tap. (c) Time in which conainer becomes empty. (Given : ((a)/(A))^(1//2) = 0.22, h = 20 cm , h_(0) = 20 cm

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 wide tank of cross-section area A, containing a liquid to a height H, has an orifice at its base of area A/3 . The initial velocity of top surface of liquid is

A fixed container of height H with large cross-sectional area A is completely filled with water. Two small orifice of cross-sectional area a are made, one at the bottom and the other on the vertical side of the container at a distance H/2 from the top of the container find the time taken by the water level to reach a height of H/2 from the bottom of the container.

A cylindrical vessel of area of cross-section A is filled with water to a height H. It has capillary tube of length l and radius r fitted horizontally at its bottom. If the coeffiecient of viscosity of water is eta , then time required in which level will fall to a height (H)/(2) is (density of water is rho )

An observer observer a fish moving upwards in a cylindrical container of cross section area 1 m^(2) filled with water up to a height of 5 m . A hole is present at the botton of the container having cross section areea 1//1000 m^(2) . Find out the speed of the image of fish observed by observer when the botton hole is just opened. (Given: The fish is moving with the speed of 6 m//s towards the observer, mu of water =4//3 )

A cylindrical vessel of area of cross-section A and filled with liquid to a height of h_(1) has a capillary tube of length l and radius r protuding horizontally at its bottom. If the viscosity of liquyid is eta and density rho . Find the time in which the level of water in the vessel falls to h_(2) .

A cylindrical vessel of cross section A contains water to a height h. There is a hole in the bottom of radius 'a'. The time in which it will be emptied is:

An open tank of cross sectional area A contains water up to height H. It is kept on a smooth horizontal surface. A small orifice of area A_(0) is punched at the bottom of the wall of the tank. Water begins to drainout. Mass of the empty tank may be neglected. (i) Prove that the tank will move with a constant acceleration till it is emptied. Find this acceleration. (iii) Find the find speed acquired by the tank when it is completely empty.