Water flows steadily from an open tank as shown in the figure. The elevation of
Homework Answers
By Torricelli Theorem
velocity is indepedent from hight and equal to object(which fall down)
V= 
=(2*9.8*2)^1/2=6.260 m/s
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Water flows steadily from an open tank as shown in the figure.
The elevation of...
Water flows steadily from a large tank as shown in the figure. The height of water...
Water flows steadily from a large tank as shown in the figure. The height of water in the tank is H = 4 m represents the height from the centerline of the horizontal pipe to the surface of the water in the tank. The water flows out of the tank through a pipe with diameter of 4 cm. The stream of water flows through a bend (= 30 degrees, L = 2.88 m) and exits as a free jet through...
Water flows steadily from the large open tank shown in the figure below. If viscous effects...
Water flows steadily from the large open tank shown in the
figure below. If viscous effects are negligible, determine (a) the
flowrate, Q, (b) the mercury manometer reading, h.
4. 1m 1.9m 0.07m Mercury 0.09m
Question 2 Water is draining from a pressurized tank as shown in the figure. The exit...
Question 2 Water is draining from a pressurized tank as shown in the figure. The exit velocity is given by Ve=(2p/p+2gh)1/2 where p is the pressure in the tank, p is the water density, and h is the elevation of the water surface above the outlet. Constant pressure supply Control surface Exit e The depth of the water in the tank is 1.7 m. The tank has a cross-sectional area of 1.8 m2, and the exit area of the pipe...
Friction losses in expansion, contraction, and pipe fittings Example An elevated storage tank contains water at...
Friction losses in expansion, contraction, and pipe fittings Example An elevated storage tank contains water at 15°C as shown in Figure. It is desired to have a discharge rate at point 2 of 28.8 m3/h. What must be the height H of the surface of the water in the tank relative to the discharge point? The pipe is commercial steel pipe (roughness of pipe surface e = 0.045 mm). Water density and viscosity at 15°C is 999 kg/m2 and 1.1.10-3...
Water flows with speed v1 inside a long pipe and exits from the right into the...
Water flows with speed v1 inside a long pipe and exits from the right into the air with a speed v2= 9.2 m/s, as shown in the figure. The cross-sectional area of the opening on the right is 7.0 cm2, while the rest of the pipe has a cross-section of 14.0 cm2. The vertical standing column of water has height h= 4.3 m (not drawn to scale). What is the elevation Ay in meters from the base of the pipe...
Water flows with speed inside a long pipe and exits from the right into the air...
Water flows with speed inside a long pipe and exits from the right into the air with a speed v 2 =9.2 m/s , as shown in the figure. The cross sectional area of the opening on the right is 7.0 cm ^ 2 while the rest of the pipe has a section of 14.0 cm ^ 2 . The vertical standing column of water has height h = 4.3m (not drawn to scale). What is the elevation meters from...
Please show detailed work and write clearly. Thank you. Q2) Water flows steadily with negligible viscous...
Please show detailed work and write clearly. Thank you.
Q2) Water flows steadily with negligible viscous effects through a pipe as shown in the figure below. If the pipe cross section area is 0.2 m2 and the difference in manometers level (h)-7 cm (0.07 m), find the flow rate in the pipe.
A tank, which is open to the atmosphere, is filled with water to a level h...
A tank, which is open to the atmosphere, is filled with water to a level h and allowed to drain through an orifice at the bottom, as shown in the figure below. The cross-sectional area of the tank is At and the cross-sectional area of the orifice is Ao. Assume that the cross-sectional area of the tank is much greater than the cross-sectional area of the orifice (Ar>>Ao) and that the exit losses are negligible. 4) Use Reynolds Transport Theorem...
Water flows steadily from a large tank as shown in the figure. The height of water in the tank is H = 4 m represents the height from the centerline of the horizontal pipe to the surface of the water in the tank. The water flows out of the tank through a pipe with diameter of 4 cm. The stream of water flows through a bend (= 30 degrees, L = 2.88 m) and exits as a free jet through...
Water flows steadily from the large open tank shown in the
figure below. If viscous effects are negligible, determine (a) the
flowrate, Q, (b) the mercury manometer reading, h.
4. 1m 1.9m 0.07m Mercury 0.09m
Question 2 Water is draining from a pressurized tank as shown in the figure. The exit velocity is given by Ve=(2p/p+2gh)1/2 where p is the pressure in the tank, p is the water density, and h is the elevation of the water surface above the outlet. Constant pressure supply Control surface Exit e The depth of the water in the tank is 1.7 m. The tank has a cross-sectional area of 1.8 m2, and the exit area of the pipe...
Friction losses in expansion, contraction, and pipe fittings Example An elevated storage tank contains water at 15°C as shown in Figure. It is desired to have a discharge rate at point 2 of 28.8 m3/h. What must be the height H of the surface of the water in the tank relative to the discharge point? The pipe is commercial steel pipe (roughness of pipe surface e = 0.045 mm). Water density and viscosity at 15°C is 999 kg/m2 and 1.1.10-3...
Water flows with speed v1 inside a long pipe and exits from the right into the air with a speed v2= 9.2 m/s, as shown in the figure. The cross-sectional area of the opening on the right is 7.0 cm2, while the rest of the pipe has a cross-section of 14.0 cm2. The vertical standing column of water has height h= 4.3 m (not drawn to scale). What is the elevation Ay in meters from the base of the pipe...
Please show detailed work and write clearly. Thank you.
Q2) Water flows steadily with negligible viscous effects through a pipe as shown in the figure below. If the pipe cross section area is 0.2 m2 and the difference in manometers level (h)-7 cm (0.07 m), find the flow rate in the pipe.
A tank, which is open to the atmosphere, is filled with water to a level h and allowed to drain through an orifice at the bottom, as shown in the figure below. The cross-sectional area of the tank is At and the cross-sectional area of the orifice is Ao. Assume that the cross-sectional area of the tank is much greater than the cross-sectional area of the orifice (Ar>>Ao) and that the exit losses are negligible. 4) Use Reynolds Transport Theorem...
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