Water is being poured in a vessel at a constant rate `alpha m^(2)//s`. There is a small hole of area a at the bottom of the tank. The maximum level of water in the vessel is proportional to

A point source S is placed at a height h from the bottom of a vessel of height H(lt h) . The vessel is polished at the base. Water is polished at the base. Water is gradually filled in the vessel at a constant rate alpha m^(3)//s . The distance d of image of the source after reflection from mirror from the bottom of the vessel varies with time t as

The level of water in a tank is 5 m high . A hole of the area 10 cm^2 is made in the bottom of the tank . The rate of leakage of water from the hole is

A water tank has the shape of an inverted right circular cone, whose semi-vertical angle is tan ^(-1)((1)/(2)) . Water is poured into it at a constant rate of 5 cu m/min. Then, the rate (in m/min) at which the level of water is rising at the instant when the depth of water in the tank is 10 m is

A tank has a hole at its bottom. The time needed to empty the tank from level h_(1) to h_(2) will be proportional to

In the figure shown, water flows into the open vessel through pipe A at a constant rate. The water can flow out of the vessel by pipe B. The maximum flow-rate fo the water in pipe B is slightly more than that in pipe A. Final height of the water level in the vessel would 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

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

Water flows into a large tank with flat bottom at the rate of 10^(-4) m^(3)s^(-1) . Water is also leaking out of a hole of area 1 cm^(2) at its bottom. If the height of the water in the tank remains steady, then this height is :

A cylindrical tank has a small hole at bottom. At t = 0 , a tap starts to supply water into the tank at a constant rate beta m^3//s . (a) Find the maximum level of water H_(max) in the tank ? (b) At what time level of water becomes h(h lt H_(max)) Given a , area of hole, A : area of tank.

Water is poured into an empty cylindrical tank at a constant rate. In 10 minutes, the height of the water increased by 7 feet. The radius of the tank is 10 feet. What is the rate at which the water is poured?