K, tugi +(li-P)= K2 + Ug2 0 Part B A situation that can be represented by...
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...
Butane gas of density = 2.5567 kg/m^3 flows at speed v1 in a horizontal pipe with cross sectional area A1 = 0.0475 m^2 which widens to a larger still horizontal section of area A2 = 0.0665 m^2 in which it flows at speed v2. If the pressure difference between the two sections is measured accurately to be p2-p1 = 276.1236 Pa, Find (a) speed v1, and (b) the volume flow rate of the gas.
1. Water is flowing in a pipe as shown in the figure. The diameter of the cross section area A1 is twice the diameter of A2. The velocity of flow v1 is 2.00m/s while h and h2 are 5.00 cm and 30.0 cm, respectively. Take the density of water to be 1000. kg/m3 (a) Find v2 (b) Calculate the pressure difference P P2 between the two ends of the pipe 2
Water can be considered as a non-viscous incompressible fluid of density p. A laboratory set-up is such that water flows through a pipe, exhibiting a laminar and steady-state flow. At the top end of the pipe, the flow tube has a cross-sectional area A and point 1 (located on the central streamline) is exposed to the ambient environment. The pipe drops through a A vertical distance h7 while its area decreases to when it reaches point 2 (also on the...
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...
A liquid (p = 1.65 g/cm) flows through a horizontal pipe of varying cross section as in the figure below. In the first section, the cross-sectional area is 10.0 cm², the flow speed is 284 cm/s, and the pressure is 1.20 x 105 Pa. In the second section, the cross-sectional area is 3.50 cm?. (a) Calculate the smaller section's flow speed. (Enter your answer to at least two decimal places.) 2318.37 x Your response differs significantly from the correct answer....
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....
Water moves through a constricted pipe in steady, ideal flow. At the lower point shown in the figure below, the pressure is P1 = 1.70 x 104 Pa, and the pipe diameter is 8.0 cm. At another point y = 0.40 m higher, the pressure is P2 = 1.30 x 104 Pa and the pipe diameter is 4.00 cm. (a) Find the speed of flow in the lower section. m/s (b) Find the speed of flow in the upper section....
A venturi meter is used to measure the flow speed of a fluid in a pipe. The meter is connected between two sections of the pipe (the figure); the cross-sectional area A of the entrance and exit of the meter matches the pipe's cross-sectional area. Between the entrance and exit, the fluid flows from the pipe with speed V and then through a narrow ''throat'' of cross-sectional area a with speed v. A manometer connects the wider portion of the...
diameter the hole. of how 42. Water moves through a constricted pipe in steady, ideal flow. At the lower point shown in Figure P14.42, the pressure is P1.75 X 101 Pa and the pipe diameter is 6.00 cm. At another point y0.250 m higher, the pressure is P2 1.20 X 104 Pa and the pipe diameter is 3.00 cm. Find the speed of flow (a) in the lower section and (b) in the upper section. (c) Find the volume flow...