A sniper fires a rifle bullet into a gasoline tank making a hole `53.0 m` below the surface of gasoline. The tank was sealed at 3.10 atm . The stored gasoline has a density of `660 kgm`. The velocity with which gasoline begins to shoot out of the hole is

A tank containing gasoline is sealed and the gasoline is under pressure P_(0) as shown in the figure. The stored gasoline hs a density of 660 kg m^(-3) . A sniper fires a rifle bullet into the gasoline tank, making a small hole 53 m below the surface of gasoline. The total height of gasoline is 73 m from the base. The jet of gasoline shooting out of the hole strikes the ground at a distance of 80 m from the tank initially. If the pressure above the gasonline surface is (1.39)alpha xx 10^(5)N//m^(2) than alpha is- (The local atmospheric pressure is 10^(5)Nm^(-2) )

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?

There are two holes each along the opposite sides of a wide rectangular tank. The cross section of each hole is 0.01 m^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 the water flows out of the holes is ( density of water = 1000 kg/m^3)

A tank of 5m height is filled with water. Calculate the velocity of efflux through a hole, 3m below the surface of water.

A large tank containing water has a small hole near the bottom of the tank 1.5 m below the surface of water. What is the velocity of water flowing from the hole?