There is the pond on the mountain.
The height of mountain is H, and the area of the pond is A.
The pipe has cross section a.
the density of the water is ρ, and of the air is ρ_air
what is the precise speed of the water in the pipe?
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There is the pond on the mountain.
The height of mountain is H, and the area...
a pond of height h, base of area a and mass mo is positioned on a...
a pond of height h, base of area a and mass mo is positioned on a mobile cart that can move ... Your question has been answered Let us know if you got a helpful answer. Rate this answer Question: A pond of height h, base of area A and mass Mo is positioned on a mobile cart that can move witho... A pond of height h, base of area A and mass Mo is positioned on a mobile cart...
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...
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...
] In the apparatus shown, water (density ρ) runs through the large section of the horizontal...
] In the apparatus shown, water (density ρ) runs through the large section of the horizontal pipe at speed vi. The horizontal pipe has radius R and ends with a constriction of radius R/3 into atmosphere (pressure po). a) Find the speed v2 of the water coming out of the constriction. Find the pressure pi inside the large portion of the horizontal pipe. c) Find the height of the water in the vertical pipe connected to the horizontal pipe (marked...
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= 6.8m/s. The cross-sectional area of the opening on the right is 6 cm^2, while the rest of the pipe has a cross-section of 12 cm^2. The vertical standing column of water has height of 4.8 m. What is the elevation in meters from the base of the pipe to the opening. Pwater= 1000 kg/m^3
Question 3 1 pts Water flows with speed v1 inside a long pipe and exits from...
Question 3 1 pts Water flows with speed v1 inside a long pipe and exits from the right into the air with a speed v2- 6.8 m/s, as shown in the figure. The cross-sectional area of the opening on the right is 6.0 cm2, while the rest of the pipe has a cross-section of 12.0 cm2. The vertical standing column of water has height h= 4,8 m (not drawn to scale). What is the elevation Ay in meters from the...
These problems are written so that atmospheric buoyancy can (and should) be neglected. 1 Rock the boat (a) Imagine a box of total height H, density p, and horizontal area A. If it is upright but...
These problems are written so that atmospheric buoyancy can (and should) be neglected. 1 Rock the boat (a) Imagine a box of total height H, density p, and horizontal area A. If it is upright but depth D of it is submerged under water of density P, what is the net force on it? (b) If ρ < ρυ, it'll float. At what depth Do will it reach equilibrium? (c) Define y = Do-D to be how far above equilibriurn...
A Venturi meter is a device for measuring the speed of a fluid within a pipe....
A Venturi meter is a device for measuring the speed of a fluid within a pipe. The drawing shows a gas flowing at speed v2 through a horizontal section of pipe whose cross-sectional area is A2-0.0589 m2 The gas has a density of ρ-1.30 kg m3 The Venturi meter has a cross sectiona area of .ם 33m and has been substituted for a section of the larger pipe. The pressure difference between the two sections is P2 P1 154 Pa....
K, tugi +(li-P)= K2 + Ug2 0 Part B A situation that can be represented by...
K, tugi +(li-P)= K2 + Ug2 0 Part B A situation that can be represented by by the qualitative Bernoulli bar chart shown in the figure (Figure 1) is as follows: The flow speed of water in a constricted section of a pipe having cross-sectional area A1 is v1. In the regular section of the pipe, the cross-sectional area is A2 and the flow speed is v2. Determine the pressure in a constricted section of a pipe if the pressure...
Water flows in the horizontal pipe shown in the figure. At point A the area is...
Water flows in the horizontal pipe shown in the figure.
At point A the area is 26.0 cm2 and the
speed of the water is 2.20 m/s. At B the area is 15.0
cm2. The fluid in the manometer is mercury, which has a
density of 13,600 kg/m3. We can treat water as an ideal
fluid having a density of 1000 kg/m3. What is the
manometer reading h?
Question 10 (1 point) Water flows in the horizontal pipe shown in...
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...
] In the apparatus shown, water (density ρ) runs through the large section of the horizontal pipe at speed vi. The horizontal pipe has radius R and ends with a constriction of radius R/3 into atmosphere (pressure po). a) Find the speed v2 of the water coming out of the constriction. Find the pressure pi inside the large portion of the horizontal pipe. c) Find the height of the water in the vertical pipe connected to the horizontal pipe (marked...
Question 3 1 pts Water flows with speed v1 inside a long pipe and exits from the right into the air with a speed v2- 6.8 m/s, as shown in the figure. The cross-sectional area of the opening on the right is 6.0 cm2, while the rest of the pipe has a cross-section of 12.0 cm2. The vertical standing column of water has height h= 4,8 m (not drawn to scale). What is the elevation Ay in meters from the...
These problems are written so that atmospheric buoyancy can (and should) be neglected. 1 Rock the boat (a) Imagine a box of total height H, density p, and horizontal area A. If it is upright but depth D of it is submerged under water of density P, what is the net force on it? (b) If ρ < ρυ, it'll float. At what depth Do will it reach equilibrium? (c) Define y = Do-D to be how far above equilibriurn...
A Venturi meter is a device for measuring the speed of a fluid within a pipe. The drawing shows a gas flowing at speed v2 through a horizontal section of pipe whose cross-sectional area is A2-0.0589 m2 The gas has a density of ρ-1.30 kg m3 The Venturi meter has a cross sectiona area of .ם 33m and has been substituted for a section of the larger pipe. The pressure difference between the two sections is P2 P1 154 Pa....
K, tugi +(li-P)= K2 + Ug2 0 Part B A situation that can be represented by by the qualitative Bernoulli bar chart shown in the figure (Figure 1) is as follows: The flow speed of water in a constricted section of a pipe having cross-sectional area A1 is v1. In the regular section of the pipe, the cross-sectional area is A2 and the flow speed is v2. Determine the pressure in a constricted section of a pipe if the pressure...
Water flows in the horizontal pipe shown in the figure.
At point A the area is 26.0 cm2 and the
speed of the water is 2.20 m/s. At B the area is 15.0
cm2. The fluid in the manometer is mercury, which has a
density of 13,600 kg/m3. We can treat water as an ideal
fluid having a density of 1000 kg/m3. What is the
manometer reading h?
Question 10 (1 point) Water flows in the horizontal pipe shown in...
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