An oxygen gas R = 0.2598 KJ/kg°k and k = 1.395. If 4 kg of oxygen undergo a reversible non flow constant pressure process from initial volume =1.2 cubic meter and initial pressure = 690 kPa to a state where final temperature = 600°C. What is the initial temperature ? 797.10 °K 796.77 °K 786.76°K 876.50°K Other: Determine the constant volume specific heat. 0.6568 KJ/Kg-°K 0.5897 KJ/Kg-°K 0.6580 KJ/Kg-°K 0.6577 KJ/Kg-°K Determine the Change in Internal Energy. 199.54 KJ 200.55 KJ 198.45 KJ 200.60 KJ
An oxygen gas R = 0.2598 KJ/kg°k and k = 1.395. If 4 kg of oxygen undergo a reversible non flow constant pressure process from initial volume =1.2 cubic meter and initial pressure = 690 kPa to a state where final temperature = 600°C. What is the initial temperature ? 797.10 °K 796.77 °K 786.76°K 876.50°K Other: Determine the constant volume specific heat. 0.6568 KJ/Kg-°K 0.5897 KJ/Kg-°K 0.6580 KJ/Kg-°K 0.6577 KJ/Kg-°K Determine the Change in Internal Energy. 199.54 KJ 200.55 KJ 198.45 KJ 200.60 KJ
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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An oxygen gas R = 0.2598 KJ/kg°k and k = 1.395. If 4 kg of oxygen undergo a reversible non flow constant pressure process from initial volume =1.2 cubic meter and initial pressure = 690 kPa to a state where final temperature = 600°C.
What is the initial temperature ?
797.10 °K
796.77 °K
786.76°K
876.50°K
Other:
Determine the constant volume specific heat.
0.6568 KJ/Kg-°K
0.5897 KJ/Kg-°K
0.6580 KJ/Kg-°K
0.6577 KJ/Kg-°K
Determine the Change in Internal Energy.
199.54 KJ
200.55 KJ
198.45 KJ
200.60 KJ
Please show complete solution with derivation of formulas
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