A water tank standing on the floor has two small holes punched in the vertical wall one above the other. The holes are 2.4 cm and 7.6 cm above the floor. If the jest of water from the holes hit the floor at the same point, then the height of water in the tank is

A water tank placed on the floor has two small holes, pinched in the vertical wall, one above the other. The holes are 3.3 cm and 4.7cm above the floor. If the jets of water issuing out from the holes hit the floor at the same point on the floor, then the height of water in the tank is

A cylindrical tank of height H is completely filled with water. On its vertical side there are two tiny holes, one above the middle at a height h_1 and the other below the middle at a depth h_2 If the jets of water from the holes meet at the same point at the horizontal plane through the bottom of the tank then the ratio h_1//h_2 is :

On the wall of a cylindrical water tank, two holes are made as shown in figure. Water coming out from these holes hits the ground at the same point. What will be the ration h_(1)/h_(2)?

A large tank containing water has a small hole near the bottom of the tank 1.5 m below the surface of water. Explain the principle used in deriving the velocity of water flowing from the hole.

Water stands at a depth H in a tank whose side walls are vertical. A hole is made in one of the walls at a height h below the water surface. The stream of water emerging from the hole strikes the floor at a distance R from the tank, where R is given by

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

A large tank containing water has a small hole near the bottom of the tank 1.5 m below the surface of water. Where must a second hole to be drilled so that the velocity of water leaving this hole is half of water flowing through the first hole?