A water tank open to the atmosphere at the top has two small holes punched in...

A water tank open to the atmosphere at the top has two small holes punched in...

A water tank open to the atmosphere at the top has two small holes punched in its side, one above the other. The holes are 4.50 cm and 13.1 cm above the floor. How high does water stand in the tank if the two streams of water hit the floor at the same place? cm

A large storage tank, open to the atmosphere at the top and filled with water, develops...

A large storage tank, open to the atmosphere at the top and filled with water, develops a small hole in its side at a point 14.0 m below the water level. If the rate of flow from the leak is 2.20 ✕ 10−3 m3/min, determine the following. (a) Determine the speed at which the water leaves the hole. m/s (b) Determine the diameter of the hole. mm

Two circular holes, one larger than the other, are cut in the side of a large...

Two circular holes, one larger than the other, are cut in the side of a large water tank whose top is open to the atmosphere. The center of one of these holes is located twice as far beneath the surface of the water as the other. The volume flow rate of the water coming out of the holes is the same. (a) Decide which hole is located nearest the surface of the water. The smaller hole The larger hole (b)...

A large water storage tank is open at the top and the side walls are vertical....

A large water storage tank is open at the top and the side walls are vertical. The water in the tank has depth H. A small hole appears in one of the tanks at a height h above the base. (a) At what distance R from the foot of the wall does the emerging stream strikes the horizontal ground. (b) At what height h above the base is the hole if the water reaches its greatest distance from the base...

A large water tank, open at the top, has a small hole in the bottom. When...

A large water tank, open at the top, has a small hole in the bottom. When the water level is 5 m above the bottom of the tank, the speed of the water leaking from the hole: (Use ! = 10 N/kg.) [Hint: Use Bernoulli

A large storage tank, open at the top and filled with water, develops a small hole...

A large storage tank, open at the top and filled with water, develops a small hole in its side at a point 16.8 m below the water level. The rate of flow from the leak is found to be 3.00 10-3 m3/min. (a) Determine the speed at which the water leaves the hole. 22.22 Incorrect: Your answer is incorrect. The water speed at the top of the tank can be assumed to be zero since the flow rate from the...

Two large tanks with the same levels of water inside, one is open to the atmosphere...

Two large tanks with the same levels of water inside, one is open to the atmosphere while the other is closed and pressurized with an inside pressure of 65 k Pa gage . Water is to be pumped to the pressurized tank by a pump with 85% efficiency, placed in a stainless steel pipe connecting the two tanks at the lowest level. The pipe is 9cm in diameter, 100 m long and the volume flow rate is 0.025 m3/s find...

A large tank has a 40.0 cm deep layer of water floating on top of a...

A large tank has a 40.0 cm deep layer of water floating on top of a 60.0 cm deep layer of glycerin. A dense wooden cube has a side length of 2.00 cm and a mass of 9.20×(10^−3) kg. When the cube floats in the tank, what fraction of its volume is below the surface of the glycerin? Express your answer in percent.

Hot water in an open storage tank at 82.2°C is being pumped at a rate of...

Hot water in an open storage tank at 82.2°C is being pumped at a rate of 0.379 m3/min from the tank. The line from the storage tank to the pump suction is 6.1 m of 2-in schedule 40 steel pipe and it contains two elbows. The water discharge line after the pump is 61 m of 2-in pipe and contains two elbows. The water discharges to the atmosphere at a height of 6.1 m above the water level in the...

Water is being pumped at 20°C From an open tank through a 0.03561 m smooth pipe...

Water is being pumped at 20°C From an open tank through a 0.03561 m smooth pipe to a second tank at a higher level. The flow rate is 0.8 kg/s through 40 m of straight pipe with two threaded 90 regular elbows, one fully open globe valve and one half open gate valve. The supply tank maintains a liquid level of 2 m, and the water leaves the system at an elevation of 10 m above the floor. Calculate Reynolds...