Air enters a diffuser operating at steady state at 540°R, 15 lbf/in.², with a velocity of 600 ft/s, and exits with a velocity of 60 ft/s. The ratio of the exit area to the inlet area is 8. Assuming the ideal gas model for the air and ignoring heat transfer, determine the temperature, in °R, and pressure, in lbf/in.², at the exit. Part A * Your answer is incorrect. Assuming the ideal gas model for the air and ignoring heat transfer, determine the temperature at the exit, in °R. T₂ = i -1244.63 °R

Structural Analysis
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Author:KASSIMALI, Aslam.
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Chapter2: Loads On Structures
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Air enters a diffuser operating at steady state at 540°R, 15 lbf/in.², with a velocity of 600 ft/s, and exits with a velocity of 60 ft/s. The
ratio of the exit area to the inlet area is 8.
Assuming the ideal gas model for the air and ignoring heat transfer, determine the temperature, in °R, and pressure, in lbf/in.², at the
exit.
Part A
* Your answer is incorrect.
Assuming the ideal gas model for the air and ignoring heat transfer, determine the temperature at the exit, in °R.
T₂ = i -1244.63
°R
Transcribed Image Text:Air enters a diffuser operating at steady state at 540°R, 15 lbf/in.², with a velocity of 600 ft/s, and exits with a velocity of 60 ft/s. The ratio of the exit area to the inlet area is 8. Assuming the ideal gas model for the air and ignoring heat transfer, determine the temperature, in °R, and pressure, in lbf/in.², at the exit. Part A * Your answer is incorrect. Assuming the ideal gas model for the air and ignoring heat transfer, determine the temperature at the exit, in °R. T₂ = i -1244.63 °R
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