In a piston cylinder system, fluid at 0.8 bar occupying 0.07 m³ is compressed reversibly to a pressure of 9.9 bar and specific volume of 0.6 m3/kg according to the law pv = c. The fluid then expands reversibly according to the law pv² = c to 2.6 bar. A reversible cooling at constant volume then restores the fluid back to initial state. Calculate the mass of fluid present. Give the answer to 3 d.p an provide the unit symbol
In a piston cylinder system, fluid at 0.8 bar occupying 0.07 m³ is compressed reversibly to a pressure of 9.9 bar and specific volume of 0.6 m3/kg according to the law pv = c. The fluid then expands reversibly according to the law pv² = c to 2.6 bar. A reversible cooling at constant volume then restores the fluid back to initial state. Calculate the mass of fluid present. Give the answer to 3 d.p an provide the unit symbol
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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Transcribed Image Text:QUESTION 2
In a piston cylinder system, fluid at 0.8
bar occupying 0.07 m³ is compressed
reversibly to a pressure of 9.9 bar and
3
specific volume of 0.6 m³/kg according
to the law pv = c. The fluid then expands
reversibly according to the law pv² = c to
2.6 bar. A reversible cooling at constant
volume then restores the fluid back to
initial state. Calculate the mass of fluid
present.
Give the answer to 3 d.p an provide the
unit symbol
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