A 30 cm by 10 cm Venturi meter is installed in a system inclined at 30° with the horizontal. The water flows upward through the meter. A differential manometer containing air (ya= 12.0 N/m^3) is attached to inlet base and throat, the deflection of water level in the manometer is 1.20 m. Considering the head contribution of air, determine the actual flow in cubic meters per second. if C = 0.96. Write only the number of your answer to the nearest three decimal places. Don't write the unit cubic meters per second. Use unit weight of water = 9.810 kN/m^3 and acceleration of gravity = 9.81 m/s^2. Flow 30 cm 1.2 m 30° N Air Ya = 12 m3 10 cm

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A 30 cm by 10 cm Venturi meter is installed in a system inclined at 30° with the horizontal. The water flows upward through the meter. A differential manometer containing air (ya= 12.0 N/m^3) is attached to inlet base and throat, the deflection of water level in the manometer is 1.20 m. Considering the head contribution of air, determine the actual flow in cubic meters per second. if C = 0.96. Write only the number of your answer to the nearest three decimal places. Don't write the unit cubic meters per second. Use unit weight of water = 9.810 kN/m^3 and acceleration of gravity = 9.81 m/s^2. Flow 30 cm 1.2 m 30° Air Ya = 12 10 cm N