An ideal gas passes a diffuser. At the diffuser inlet, the temperature is T1 = 350.00 K, the pressure P1 = 100.00 kPa, the velocity V1 = 200.00 m/s, and the inlet area A1 = 0.30 m2. At the exit, the velocity is very small. The specific heat of the ideal gas at the constant pressure is cp = 1.0050 kJ/(kg·K). The gas constant is R = 0.2870 kPa·m3/(kg·K).  Determine the enthalpy per unit mass at the exit, h2

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
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An ideal gas passes a diffuser. At the diffuser inlet, the temperature is T1 = 350.00 K, the pressure P1 = 100.00 kPa, the velocity V1 = 200.00 m/s, and the inlet area A1 = 0.30 m2. At the exit, the velocity is very small. The specific heat of the ideal gas at the constant pressure is c= 1.0050 kJ/(kg·K). The gas constant is R = 0.2870 kPa·m3/(kg·K). 

Determine the enthalpy per unit mass at the exit, h2__________(kJ/kg) 

An ideal gas passes a diffuser. At the diffuser inlet, the temperature is T1 = 350.00 K, the pressure P1 = 100.00 kPa, the velocity V1 = 200.00 m/s, and
the inlet area A1 = 0.30 m². At the exit, the velocity is very small. The specific heat of the ideal gas at the constant pressure is cp = 1.0050 kJ/(kg-K).
The gas constant is R = 0.2870 kPa-m³/(kg-K).
Determine the enthalpy per unit mass at the exit, h2_
(kJ/kg)
Transcribed Image Text:An ideal gas passes a diffuser. At the diffuser inlet, the temperature is T1 = 350.00 K, the pressure P1 = 100.00 kPa, the velocity V1 = 200.00 m/s, and the inlet area A1 = 0.30 m². At the exit, the velocity is very small. The specific heat of the ideal gas at the constant pressure is cp = 1.0050 kJ/(kg-K). The gas constant is R = 0.2870 kPa-m³/(kg-K). Determine the enthalpy per unit mass at the exit, h2_ (kJ/kg)
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