The tank contains saltwater of specific gravity 1.03. Three watch glasses of different shapes are installed at the side of the tank.
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QS: (20 marks) Salt water flows from the tank A through a hole of diameter 25 mm as shown in Figure Q5. Initially (time t-0) tank A contains salt water with a specific gravity of 1.15 and the tank B contains pure water. Each tank has a diameter of 2 m and an initial depth of 3 m Determine the specific gravity of the salt water in the lower tank as a function of time, from 0 to when tank...
A tank (3mx3mx3m) contains water with height=2m and oil on the vertical side of the tank. Density of water=1000kg/m3 (specific gravity=0.8) with height=1m. Find the total force Select one: O A. 117896.2 N O B. 120364.7 N 0 C. 115365.6 N OD. 118679.2 N E. 119867.4 N
As shown, a round viewing window of diameter D = 0.8 m is situated in a large tank of seawater (specific gravity S = 1.03). The top of the window is 1.2 m below the water surface, and the window is angled at 60° with respect to the horizontal. Find the hydrostatic force acting on the window and locate the corresponding center of pressure (CP).
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5: In an open roof tank, the level transmitter side connected to the tank is: a: The high pressure side b: The low pressure side c: Either side can be connected to the tank 3: In an open roof water tank, the minimum water level is located 5 inches above the level transmitter. The maximum water level is located 50 inches above the level transmitter. The specific gravity of...
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dose question thanks.
5: In an open roof tank, the level transmitter side connected to the tank is: a: The high pressure side b: The low pressure side c: Either side can be connected to the tank 3: In an open roof water tank, the minimum water level is located 5 inches above the level transmitter. The maximum water level is located 50 inches above the level transmitter. The specific gravity of...
A pressure gage at elevation 4.8m on the side of a storage tank containing oil reads 34.7 kPa. Another gage at elevation 2.2m reads 57.5kPa. Compute the specificweight, density, and specific gravity of the oil?
7. The chemical engineering lab contains a 1.5 m rigid tank installed with a paddle wheel. Suppose this tank is filled with 2.7 kg of carbon dioxide at 100 kPa, and that paddle-wheel work is done on the system until the pressure rises to 150 kPa. Determine the entropy change of the system during this process (kJ/K). You may assume that the tank is well-insulated, and that CO2 is an ideal gas with constant specific heats at RT.
The UTC chemical engineering lab contains a 1.5 m3 rigid tank installed with a paddle wheel. Suppose this tank is filled with 2.7 kg of carbon dioxide at 100 kPa, and that paddle-wheel work is done on the system until the pressure rises to 150 kPa. Determine the entropy change of the system during this process (kJ/K). You may assume that the tank is well-insulated, and that CO2 is an ideal gas with constant specific heats at RT.
(1 point) ん 1.2 m 30° The tank shown in the figure contains a fluid with a specific gravity of 1.7. The region above the fluid is filled with vapor. The pressure gauge located at the top of the tank indicates a reading of 8.75 psig. 1. Determine the gauge pressure at the bottom of the tank. 2. Determine the height of the liquid column in the vertical tube Poa gauge TTn
(c) The diagram below shows a tank of oil with one side open to the atmosphere and the other side sealed with air above the oil. The oil has a specific gravity of 0.90. Calculate the gage pressure at points A, C, E, and F. 10 marks Air 15m 30 m Oil 3.0 m