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The water in a tank is pressurized by air, and the pressure is measured by a...
Problem5 The water in the tank is pressurized by air, and the pressure is measured by...
Problem5 The water in the tank is pressurized by air, and the pressure is measured by a multi-fluid manometer as shown. Determine the gage pressure of air in the tank if h 0.25 m, h2 0.35 m, and h 0.5m AIR WATER Mercury
((((((please solve it by clear hand write ))))))) The water in a tank is pressurized by...
((((((please solve it by clear hand write )))))))
The water in a tank is pressurized by air, and the pressure is measured by a multifluid manometer as shown in Figure Q5. Determine the gage pressure of air in the tank if h,=0.3 m, ha=0.4 m, and hz=0.5 m. Take the densities of water, oil, and mercury to be 1000 kg/m², 850 kg/m?, and 13,600 kg/m², respectively. [16 marks] 1 Water Mercury Figure Q5
A fluid manometer is open to the atmosphere as shown in figurel. If the gage pressure...
A fluid manometer is open to the atmosphere as shown in figurel. If the gage pressure of the pressurized air is 0.07MPa, find the differential height h3 if hl=60cm and h2= 45cm. Mercury SG: 13.6 Ar! Methane S6= 0.47 Gasoline 56. 0.70 Figure I
A two-liquid pressure gauge is connected to a tank filled with water. In the environment where...
A two-liquid pressure gauge is connected to a tank filled with
water. In the environment where the warehouse is located, Patm =
755 mmHgS. The height of the liquids is h1 = 0.2m h2 = 0.3m h3 =
0.45m and the density of the water is 1000kg / m³, the density of
the oil is 0.85 and the density of the mercury is 13.6. Calculate
the pressure of the air inside the tank.
hava yag h1 h3 su h2 civa
4. A two-liquid pressure gauge is connected to a tank filled with water. In the environment...
4. A two-liquid pressure gauge is connected to a tank filled with water. In the environment where the warehouse is located, Patm = 755 mmHgS. The height of the liquids is h1 = 0.2m h2 = 0.3m h3 = 0.45m and the density of the water is 1000kg / m?, the density of the oil is 0.85 and the density of the mercury is 13.6. Calculate the pressure of the air inside the tank. hava yag h1 h3 h2 civa
4. A two-liquid pressure gauge is connected to a tank filled with water. In the environment...
4. A two-liquid pressure gauge is connected to a tank filled with water. In the environment where the warehouse is located, Patm = 755 mmHgS. The height of the liquids is h1 = 0.2m h2 = 0.3m h3 = 0.45m and the density of the water is 1000kg/m?, the density of the oil is 0.85 and the density of the mercury is 13.6. Calculate the pressure of the air inside the tank. hava yağ h1 h3 su h2 civa
4. A two-liquid pressure gauge is connected to a tank filled with water. In the environment...
4. A two-liquid pressure gauge is connected to a tank filled with water. In the environment where the warehouse is located, Patm = 755 mmHgS. The height of the liquids is h1 = 0.2m h2 = 0.3m h3 = 0.45m and the density of the water is 1000kg/m, the density of the oil is 0.85 and the density of the mercury is 13.6. Calculate the pressure of the air inside the tank. hava yag hl h3 su h2 civa
4. A two-liquid pressure gauge is connected to a tank filled with water. In the environment...
4. A two-liquid pressure gauge is connected to a tank filled with water. In the environment where the warehouse is located, Patm = 755 mmHgS. The height of the liquids is h1 = 0.2m h2 = 0.3m h3 = 0.45m and the density of the water is 1000kg/m, the density of the oil is 0.85 and the density of the mercury is 13.6. Calculate the pressure of the air inside the tank. hava yağ hi h3 su h2 civa
4. A two-liquid pressure gauge is connected to a tank filled with water. In the environment...
4. A two-liquid pressure gauge is connected to a tank filled with water. In the environment where the warehouse is located, Patm = 755 mmHgS. The height of the liquids is h1 = 0.2m h2 = 0.3m h3 = 0.45m and the density of the water is 1000kg / m', the density of the oil is 0.85 and the density of the mercury is 13.6. Calculate the pressure of the air inside the tank. hava yag hi h3 su h2...
Problem5 The water in the tank is pressurized by air, and the pressure is measured by a multi-fluid manometer as shown. Determine the gage pressure of air in the tank if h 0.25 m, h2 0.35 m, and h 0.5m AIR WATER Mercury
((((((please solve it by clear hand write )))))))
The water in a tank is pressurized by air, and the pressure is measured by a multifluid manometer as shown in Figure Q5. Determine the gage pressure of air in the tank if h,=0.3 m, ha=0.4 m, and hz=0.5 m. Take the densities of water, oil, and mercury to be 1000 kg/m², 850 kg/m?, and 13,600 kg/m², respectively. [16 marks] 1 Water Mercury Figure Q5
A fluid manometer is open to the atmosphere as shown in figurel. If the gage pressure of the pressurized air is 0.07MPa, find the differential height h3 if hl=60cm and h2= 45cm. Mercury SG: 13.6 Ar! Methane S6= 0.47 Gasoline 56. 0.70 Figure I
A two-liquid pressure gauge is connected to a tank filled with
water. In the environment where the warehouse is located, Patm =
755 mmHgS. The height of the liquids is h1 = 0.2m h2 = 0.3m h3 =
0.45m and the density of the water is 1000kg / m³, the density of
the oil is 0.85 and the density of the mercury is 13.6. Calculate
the pressure of the air inside the tank.
hava yag h1 h3 su h2 civa
4. A two-liquid pressure gauge is connected to a tank filled with water. In the environment where the warehouse is located, Patm = 755 mmHgS. The height of the liquids is h1 = 0.2m h2 = 0.3m h3 = 0.45m and the density of the water is 1000kg / m?, the density of the oil is 0.85 and the density of the mercury is 13.6. Calculate the pressure of the air inside the tank. hava yag h1 h3 h2 civa
4. A two-liquid pressure gauge is connected to a tank filled with water. In the environment where the warehouse is located, Patm = 755 mmHgS. The height of the liquids is h1 = 0.2m h2 = 0.3m h3 = 0.45m and the density of the water is 1000kg/m?, the density of the oil is 0.85 and the density of the mercury is 13.6. Calculate the pressure of the air inside the tank. hava yağ h1 h3 su h2 civa
4. A two-liquid pressure gauge is connected to a tank filled with water. In the environment where the warehouse is located, Patm = 755 mmHgS. The height of the liquids is h1 = 0.2m h2 = 0.3m h3 = 0.45m and the density of the water is 1000kg/m, the density of the oil is 0.85 and the density of the mercury is 13.6. Calculate the pressure of the air inside the tank. hava yag hl h3 su h2 civa
4. A two-liquid pressure gauge is connected to a tank filled with water. In the environment where the warehouse is located, Patm = 755 mmHgS. The height of the liquids is h1 = 0.2m h2 = 0.3m h3 = 0.45m and the density of the water is 1000kg/m, the density of the oil is 0.85 and the density of the mercury is 13.6. Calculate the pressure of the air inside the tank. hava yağ hi h3 su h2 civa
4. A two-liquid pressure gauge is connected to a tank filled with water. In the environment where the warehouse is located, Patm = 755 mmHgS. The height of the liquids is h1 = 0.2m h2 = 0.3m h3 = 0.45m and the density of the water is 1000kg / m', the density of the oil is 0.85 and the density of the mercury is 13.6. Calculate the pressure of the air inside the tank. hava yag hi h3 su h2...
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