Use Moran and Shapiro tables Air passes through a horizontal duct with steady state conditions. The air enters with parameters 290 K, 1 bar, and a volumetric flow rate of 0.25 m³/s, and exits at 325 K, 0.95 bar. The cross sectional area of the duct is constant at 0.04 m². Determine the velocity of the air at the inlet. Air passes through a horizontal duct with steady state conditions. The air enters with parameters 290 K. 1 bar, and a volumetric flow rate of 0.25 m³/s, and exits at 325 K, 0.95 bar. The cross sectional area of the duct is constant at 0.04 m². Determine the velocity, in m/s, at the outlet Air passes through a horizontal duct with steady state conditions. The air enters with parameters 290 K. 1 bar, and a volumetric flow rate of 0.25 m³/s, and exits at 325 K. 0.95 bar. The cross sectional area of the duct is constant at 0.04 m². Determine the mass flow rate in kg/s
Use Moran and Shapiro tables Air passes through a horizontal duct with steady state conditions. The air enters with parameters 290 K, 1 bar, and a volumetric flow rate of 0.25 m³/s, and exits at 325 K, 0.95 bar. The cross sectional area of the duct is constant at 0.04 m². Determine the velocity of the air at the inlet. Air passes through a horizontal duct with steady state conditions. The air enters with parameters 290 K. 1 bar, and a volumetric flow rate of 0.25 m³/s, and exits at 325 K, 0.95 bar. The cross sectional area of the duct is constant at 0.04 m². Determine the velocity, in m/s, at the outlet Air passes through a horizontal duct with steady state conditions. The air enters with parameters 290 K. 1 bar, and a volumetric flow rate of 0.25 m³/s, and exits at 325 K. 0.95 bar. The cross sectional area of the duct is constant at 0.04 m². Determine the mass flow rate in kg/s
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