6. An ideal Otto cycle using air has the following conditions. At point 1; p1 = 14.5 psia and 80° F. The heat added to the air is 370 BTU per cycle. If the maximum Ibm temperature is 3,400 °R and K = 1.4, Compute the pressure, temperature and volume at each corner of the cycle; the compression ratio, mean effective pressure and the cycle thermal efficiency if c, = 0.172 BTU lb m-°R
6. An ideal Otto cycle using air has the following conditions. At point 1; p1 = 14.5 psia and 80° F. The heat added to the air is 370 BTU per cycle. If the maximum Ibm temperature is 3,400 °R and K = 1.4, Compute the pressure, temperature and volume at each corner of the cycle; the compression ratio, mean effective pressure and the cycle thermal efficiency if c, = 0.172 BTU lb m-°R
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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![6. An ideal Otto cycle using air has the following conditions. At point 1; p1 = 14.5
psia and 80° F. The heat added to the air is 370
%3D
BTU
per cycle. If the maximum
Ibm
temperature is 3,400 °R and K = 1.4, Compute the pressure, temperature and
volume at each corner of the cycle; the compression ratio, mean effective
BTU
pressure and the cycle thermal efficiency if c, = 0.172
lb m-°R](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F6d4462a1-abc9-43d1-9071-e4f88112d286%2F87805660-d751-4505-a96a-0446fac26ac1%2Fqij3bbl_processed.jpeg&w=3840&q=75)
Transcribed Image Text:6. An ideal Otto cycle using air has the following conditions. At point 1; p1 = 14.5
psia and 80° F. The heat added to the air is 370
%3D
BTU
per cycle. If the maximum
Ibm
temperature is 3,400 °R and K = 1.4, Compute the pressure, temperature and
volume at each corner of the cycle; the compression ratio, mean effective
BTU
pressure and the cycle thermal efficiency if c, = 0.172
lb m-°R
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