Q6/ In a closed system, 0.957 kg of a certain perfect gas initially has a pressure of 15 bar, volume of 0.08 m3 is cooled to temperature of 60 °C while the volume remains constant. Take Cp = 0.92 kJ/kg K and Cv = 0.657 kJ/kg K. Determine: (a) The initial temperature of the gas, (b) The final pressure of the gas, (c) The change in internal energy during the process, %3D %3D
Q6/ In a closed system, 0.957 kg of a certain perfect gas initially has a pressure of 15 bar, volume of 0.08 m3 is cooled to temperature of 60 °C while the volume remains constant. Take Cp = 0.92 kJ/kg K and Cv = 0.657 kJ/kg K. Determine: (a) The initial temperature of the gas, (b) The final pressure of the gas, (c) The change in internal energy during the process, %3D %3D
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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![Q6/ In a closed system, 0.957 kg of a certain perfect gas initially has a pressure of 15
bar, volume of 0.08 m3 is cooled to temperature of 60 °C while the volume remains
constant. Take Cp = 0.92 kJ/kg K and Cv = 0.657 kJ/kg K. Determine:
(a) The initial temperature of the gas,
(b) The final pressure of the gas,
(c) The change in internal energy during the process,
(d) The work energy transferred during the process,
(e) The heat energy transferred during the process.
%3D
00 4 kI 0 kL.90 4 kJ)](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F63485070-ef51-4b6e-96cb-fe4d362330a2%2Fbd18c341-709f-4f9a-af55-f1193b9bf581%2Fgi40za6_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Q6/ In a closed system, 0.957 kg of a certain perfect gas initially has a pressure of 15
bar, volume of 0.08 m3 is cooled to temperature of 60 °C while the volume remains
constant. Take Cp = 0.92 kJ/kg K and Cv = 0.657 kJ/kg K. Determine:
(a) The initial temperature of the gas,
(b) The final pressure of the gas,
(c) The change in internal energy during the process,
(d) The work energy transferred during the process,
(e) The heat energy transferred during the process.
%3D
00 4 kI 0 kL.90 4 kJ)
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