An ideal gas undergoing an isobaric process initially occupies a volume of 1500 L, pressure of 450 kPa and temperature of 320 °C to a final temperature of 530 °C. Let R= 0.280 kJ/kgK and c,= 1.0 kJ/kgK. Determine:

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
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An ideal gas undergoing an isobaric process initially occupies a volume of
1500 L, pressure of 450 kPa and temperature of 320 °C to a final
temperature of 530 °C. Let R= 0.280 kJ/kgK and c,= 1.0 kJ/kgK. Determine:
Transcribed Image Text:An ideal gas undergoing an isobaric process initially occupies a volume of 1500 L, pressure of 450 kPa and temperature of 320 °C to a final temperature of 530 °C. Let R= 0.280 kJ/kgK and c,= 1.0 kJ/kgK. Determine:
The change in internal energy and enthalpy in kj (total) *
1,568.178kj
O 1,324.104kj
O 1,620.326kj
O 1,468.278 kj
Other:
Heat and work required in kj *
Q = 843.26kj
Q = 823.63kj
Wnf = 239.02 kj
Wnf = 211.23 kj
Wnf = 220.02 kj
Q = 853.65kj
Other:
Transcribed Image Text:The change in internal energy and enthalpy in kj (total) * 1,568.178kj O 1,324.104kj O 1,620.326kj O 1,468.278 kj Other: Heat and work required in kj * Q = 843.26kj Q = 823.63kj Wnf = 239.02 kj Wnf = 211.23 kj Wnf = 220.02 kj Q = 853.65kj Other:
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