An ideal gas initially occupying 0.020 m3 at 1.0 MPa is quasistatically expanded inside a piston-cylinder device at a constant pressure until its volume doubles. Next the expansion is continued at constant volume till the pressure reaches half of the initial pressure. Finally it is brought back to the initial state in a polytropic process with exponent n=1.6. (a) Draw the processes on a P-v diagram. (b) Calculate the total work for the processes. (c) Calculate the total heat transferred for the processes. (d) What is the difference between the initial and final temperature?
An ideal gas initially occupying 0.020 m3 at 1.0 MPa is quasistatically expanded inside a piston-cylinder device at a constant pressure until its volume doubles. Next the expansion is continued at constant volume till the pressure reaches half of the initial pressure. Finally it is brought back to the initial state in a polytropic process with exponent n=1.6. (a) Draw the processes on a P-v diagram. (b) Calculate the total work for the processes. (c) Calculate the total heat transferred for the processes. (d) What is the difference between the initial and final temperature?
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 ideal gas initially occupying 0.020 m3 at 1.0 MPa is quasistatically expanded inside
a piston-cylinder device at a constant pressure until its volume doubles. Next the
expansion is continued at constant volume till the pressure reaches half of the initial
pressure. Finally it is brought back to the initial state in a polytropic process with
exponent n=1.6.
(a) Draw the processes on a P-v diagram.
(b) Calculate the total work for the processes.
(c) Calculate the total heat transferred for the processes.
(d) What is the difference between the initial and final temperature?
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