A jet of air flows at a velocity of 200 m/s flows at a temperature and pressure of 25°C , 100 kPa respectively towards a wall where the jet flow static and left with a very little velocity. This...


A jet of air flows at a velocity of 200 m/s flows at a temperature and pressure of 25°C , 100<br>kPa respectively towards a wall where the jet flow static and left with a very little velocity.<br>This process is to be adiabatic and reversible. Find the stagnation temperature and pressure<br>using the energy balance and second law of thermodynamics.<br>(A) 45°C and 125.4 kPa<br>(B) 73°C and 146.3 kPa<br>(C) 25°C and 103.5 kPa<br>(D) 57°C and 163.3 kPa<br>

Extracted text: A jet of air flows at a velocity of 200 m/s flows at a temperature and pressure of 25°C , 100 kPa respectively towards a wall where the jet flow static and left with a very little velocity. This process is to be adiabatic and reversible. Find the stagnation temperature and pressure using the energy balance and second law of thermodynamics. (A) 45°C and 125.4 kPa (B) 73°C and 146.3 kPa (C) 25°C and 103.5 kPa (D) 57°C and 163.3 kPa

Jun 07, 2022
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