States will always, le PRT FELE B. The water in a tank is pressurized by air, and the pressure is measured by multifluid Components. manometer as shown in the Figure 1. The tank is located on the mountain at an altitude of 1400 m at atmospheric pressure of 85.6 kPa. Determine the air pressure in the tank? AIR WATER Mercury Figure 1 sh3 Given: h_ = 0.1m h₂ = 0.2m h₂ = 0.35m Pwater = 1000 kg/m³ Poil = 850 kg/m² Pmercury = 13600 kg/m³

Question B

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they Posses kinetic 2) Potential energy CPE) -PE within a system arises from the relative positio itions er in a tank is pressured by air, and the pressure is measured by multifluid B. The water in a tank is manometer as shown in the Figure 1. The tank is located on the mountain at an altitude of 1400 m at atmospheric pressure of 85.6 kPa. Determine the air pressure in the tank? AIR WATER A₁ h₂ Mercury Figure 1 energy Oil Constant because energy cannot be destroyed but can charge form - Second law of Fhermodynami ->h3 in any energy transfer, if no energy enters or leaves the system, the potential energy of the states will always, less than inil Given: h_ = 0.1m h₂ = 0.2m h₂ = 0.35m Pwater = 1000 kg/m² Poil = 850 kg/m³ Pmercury = 13600 kg/m³ (10)