A pressurized tank contains water with some air above it. As shown on figure below. Multi-fluid manometer is used to determine the pressure at the air-water interface If hi= 0.7 m, hz= 0.4 m, h3= 0.55 m and ha 0.85 m. Also, specific gravity of water= 1 and specific gravity of crude oil = 1.8 and specific gravity of mercury = 12.5 and specific gravity of shale oil = %3D 2.5 Determine the absolute pressure at point 5 in Pascal unit. [Given: g= 9.81 m/s? and atmospheric pressure 101300 Pa] %3D %3D Mercury S.G. 12.5 Water S.G. 1 Crude oil S.G. 18 Shale oil SG. 25
A pressurized tank contains water with some air above it. As shown on figure below. Multi-fluid manometer is used to determine the pressure at the air-water interface If hi= 0.7 m, hz= 0.4 m, h3= 0.55 m and ha 0.85 m. Also, specific gravity of water= 1 and specific gravity of crude oil = 1.8 and specific gravity of mercury = 12.5 and specific gravity of shale oil = %3D 2.5 Determine the absolute pressure at point 5 in Pascal unit. [Given: g= 9.81 m/s? and atmospheric pressure 101300 Pa] %3D %3D Mercury S.G. 12.5 Water S.G. 1 Crude oil S.G. 18 Shale oil SG. 25
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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![A pressurized tank contains water with some air above it. As shown on figure below.
Multi-fluid manometer is used to determine the pressure at the air-water interface
If hi= 0.7 m, hz= 0.4 m, h3= 0.55 m and ha 0.85 m. Also, specific gravity of water= 1 and specific
gravity of crude oil = 1.8 and specific gravity of mercury = 12.5 and specific gravity of shale oil =
%3D
2.5
Determine the absolute pressure at point 5 in Pascal unit.
[Given: g 9.81 m/s? and atmospheric pressure 101300 Pa]
%3D
Mercury
S.G. 12.5
Water
S.G. 1
Crude oil
S.G. 18
Shale oil
SG.
25](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F174f4a63-b37e-45bd-924d-a9f9729cf07c%2F773ed38a-e56a-4ed4-a93a-de1f14f7ebee%2Fhkwg4ke_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A pressurized tank contains water with some air above it. As shown on figure below.
Multi-fluid manometer is used to determine the pressure at the air-water interface
If hi= 0.7 m, hz= 0.4 m, h3= 0.55 m and ha 0.85 m. Also, specific gravity of water= 1 and specific
gravity of crude oil = 1.8 and specific gravity of mercury = 12.5 and specific gravity of shale oil =
%3D
2.5
Determine the absolute pressure at point 5 in Pascal unit.
[Given: g 9.81 m/s? and atmospheric pressure 101300 Pa]
%3D
Mercury
S.G. 12.5
Water
S.G. 1
Crude oil
S.G. 18
Shale oil
SG.
25
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