A tank is filled with water and two holes A and B are made in it.- For getting same range, ratio of h' and h is

A tank filled with fresh water has a hole in its bottom and water is flowing out of it. If the size of the hole is increased, then

There are two holes one each along the opposite sides of a wide rectangular tank. The cross section of each hole is 0.01m^(2) and the vertical distance between the holes is one meter. The tank is filled with water. The net force on the tank in newton when water flows out of the holes is (density of water 1000kg//m^(3))

A large open tank is filled with water upto a height H. A small hole is made at the base of the tank. It takes T_1 time to decrease the height of water to H/n(ngt1) and it takes T_(2) time to take out the remaining water. If T_(1)=T_(2) , then the value of n is

A tank if filled with water upto height H. When a hole is made at a distance h below the level of water. What will be the horizontal range of water jet ?

A rectangular tank is placed on a horizontal ground and is filled with water to a height H above the base. A small hole is made on one vertical side at a depth D below the level of the water in the tank. The distance x from the bottom of the tank at which the water jet from the tank will hit the ground is

A cylindrical tank has a hole of diameter 2r in its bottom. The hole is covered wooden cylindrical block of diameter 4r, height h and density rho//3 . Situation I: Initially, the tank is filled with water of density rho to a height such that the height of water above the top of the block is h_1 (measured from the top of the block). Situation II: The water is removed from the tank to a height h_2 (measured from the bottom of the block), as shown in the figure. The height h_2 is smaller than h (height of the block) and thus the block is exposed to the atmosphere. Find the minimum value of height h_1 (in situation 1), for which the block just starts to move up?

A cylindrical tank has a hole of diameter 2r in its bottom. The hole is covered wooden cylindrical block of diameter 4r, height h and density rho//3 . Situation I: Initially, the tank is filled with water of density rho to a height such that the height of water above the top of the block is h_1 (measured from the top of the block). Situation II: The water is removed from the tank to a height h_2 (measured from the bottom of the block), as shown in the figure. The height h_2 is smaller than h (height of the block) and thus the block is exposed to the atmosphere. In situation 2, if h_2 is further decreased, then

A cylindrical tank has a hole of diameter 2r in its bottom. The hole is covered wooden cylindrical block of diameter 4r, height h and density rho//3 . Situation I: Initially, the tank is filled with water of density rho to a height such that the height of water above the top of the block is h_1 (measured from the top of the block). Situation II: The water is removed from the tank to a height h_2 (measured from the bottom of the block), as shown in the figure. The height h_2 is smaller than h (height of the block) and thus the block is exposed to the atmosphere. Find the minimum value of height h_1 (in situation 1), for which the block just starts to move up?

A tank is filled with water upto a height H. A hole is punched in one of the walls at a depth h_1 below the water surface. (a) Find the distance from the foot of the wall at which the stream strikes the floor. (6) Is it possible to make second hole at another depth so that this second stream also has the same range? If so find its depth ?

A large tank filled with water to a height h is to be emptied through a small hole at the bottom. The ratio of times taken for the level of water to fall from h to (h)/(2) and from (h)/(2) to zero is