Problem 2. A mercury manometer is connected to a pressurized tank as shown. If the gage pressure at the top of the tank is 175 kPa, determine the manometer reading h. The density of water is 1000 kg/m'; assume standard gravity g 9.81 m/s- 175 kPa Air Water 80 cm Mercury SG = 13.6 %3D
Problem 2. A mercury manometer is connected to a pressurized tank as shown. If the gage pressure at the top of the tank is 175 kPa, determine the manometer reading h. The density of water is 1000 kg/m'; assume standard gravity g 9.81 m/s- 175 kPa Air Water 80 cm Mercury SG = 13.6 %3D
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![Problem 2. A mercury manometer is connected
to a pressurized tank as shown. If the gage
pressure at the top of the tank is 175 kPa,
determine the manometer reading h.
The density of water is 1000 kg/m'; assume
standard gravity g 9.81 m/s
175 kPa
Water
Air
80 cm
Mercury
SG = 13.6
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Transcribed Image Text:Problem 2. A mercury manometer is connected
to a pressurized tank as shown. If the gage
pressure at the top of the tank is 175 kPa,
determine the manometer reading h.
The density of water is 1000 kg/m'; assume
standard gravity g 9.81 m/s
175 kPa
Water
Air
80 cm
Mercury
SG = 13.6
Page 1 of 3
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