fluid is flowing horizontally from point 1 to point 2 as shown below. if the pressure at point 1 is 20 psi, find the pressure at point 2 in psi, if the velocity at point 1 is 11 ft/s and the velocity at point 2 is 41 ft/s. the specific gravity of the oil is 0.9. there is no energy loss or added in the system
fluid is flowing horizontally from point 1 to point 2 as shown below. if the pressure...
Question 14 1 pts A fluid enters a tee flowing horizontally. In the tee, the flow splits, with half the flow turning upwards and the other half downwards. The fluid enters the 6" diameter inlet at speed 6 feet/second and at pressure 10 psi. If the fluid is SAE 30 oil, determine in pounds the horizontal component of the force required to hold the tee in place.
fluid mechanics please fast 1. (15 points) Water (p-1g/cm) is flowing in pipes shown in Figure below. Use Bernoull's equation to calculate velocity of water at point B. - Fluid velocity in the large diameter pipe is 1m/s. - Pressure at point 2 is measured with U-tube mercury manometer (Pmercury-13,600kg/m) - h1-0.3m, h2-6cm - assume that the acceleration gravity g-10m/s 2 Manometer shows 0.7kPa pressure Ji h1
The following device transfers from a hot fluid to a cold fluid. The hot water (1-2) and cold water (3-4) do not mix with each other 2 lbm/s of hot water enters state 1 at (140F, 15 psi) with a velocity of 5 ft/s and leaves state 2 (100F, 14.7 psi) with a velocity of 4 ft/s. Cold air enters at state 3 (60F, 20 psi) with a velocity of 10 ft/s and leaves at state 4 (80F, 17 psi)...
Will rate! A fluid is flowing out of the vented tank shown below. There is a partially closed valve at the end of the outlet with a minor loss coefficient of K. If the outlet is open to atmospheric pressure, what is the fluid velocity coming out of the outlet? Express your solution for v in terms of h, g (gravity), and K. Include only minor losses. The length of the valve on the outlet is very small in comparison...
For the following circuit; if: The pressure drop from point A to B is 9 psi, The pressure drop from point C to D is 10 psi, The pressure drop from point D to E is 72 psi, And the pressure drop from E to F is 120 psi What is the Temperature Rate of Rise for the oil in the reservoir, if the reservoir contains 15 gallons of fluid, the pump flow is 15 GPM, the fluid has a...
2. The kinetic viscosity of a hydraulic oil is 110cP. The oil is flowing in a 20-mm diameter commercial steel pipe with the length of 45-m. If the velocity of oil is 4-m/s and specific gravity is 0.9 find the following a. Reynolds number b. Friction factor c. Head losses. 2. The kinetic viscosity of a hydraulic oil is 110cP. The oil is flowing in a 20-mm diameter commercial steel pipe with the length of 45-m. If the velocity of...
1) Fluid with 65 Ibm/ftA3 density is flowing steadily through the rectangular box shown. Given A1-50.5 ft 2, A)-50.1 ft2, Aj-50.6 ft 2, V 10 i ft/s, and V2 20 j ft/s, determine velocity V3. 2 3 1.60% Problem1
The rotor shown below rotates with an angular velocity of 2000 rpm. Assume that the fluid enters in the radial direction and the relative velocity is tangent to the blades across the entire rotor. Find the exit normal velocity (ft/s) and exit velocity of the blade in terms of inlet. Draw the inlet and outlet velocity triangles. Is the device a pump or a turbine? Explain. Hint: create a velocity triangle at (1) and (2) and compare them. Does the...
glavily UI 0.00! (3.)A 20 in3 sample of oil is compressed in a 2.5 in diameter cylinder until the force applied increased from 1000 lb to 2000 lb. If the bulk modulus equals 300,000 psi, find the change in volume of the oil. 4. For the pipe shown below, calculate: a. The flow rate at point 2 b. The velocity of the fluid at point 1 and point 2 c. The pressure of the fluid at point 2 A2 =...
At a point in a horizontal pipeline, the pressure of the water flowing at a velocity of 4.6 m/s is 117.3 kPaa; at another point close by, where the pipe has a smaller section, the pressure is 110.4kPaa. a.) Neglecting losses, find the velocity of the flow at the point. b.) If the head loss is .20m, find the velocity at the second point.