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Consider the system shown in the figure. When the pins fall away, the gas expands against a constant external pressure to 1 atm. How much work was performed on the surroundings? Calculate univ S for this irreversible process, and determine the additional work T S univ that could have been extracted had the expansion to the same final pressure been carried out reversibly. (Alternatively, think of a way to carry out a reversible expansion and calculate

Consider the system shown in the figure. When the pins fall away, the gas expands against a constant external pressure to 1 atm. How much work was performed on the surroundings? Calculate univ S for this irreversible process, and determine the additional work T S univ that could have been extracted had the expansion to the same final pressure been carried out reversibly. (Alternatively, think of a way to carry out a reversible expansion and calculate

Elements Of Electromagnetics
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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1) Consider the system shown in the figure. When the pins fall away, the gas expands against a
constant external pressure to 1 atm. How much work was performed on the surroundings?
Calculate univ S for this irreversible process, and determine the additional work T S univ
that could have been extracted had the expansion to the same final pressure been carried
out reversibly. (Alternatively, think of a way to carry out a reversible expansion and calculate
the reversible work. The difference between the reversible work and the work you
calculated for the irreversible process above is the additional work.) 

lo mdes Satm Pext = latm T=300k
Transcribed Image Text:lo mdes Satm Pext = latm T=300k
Expert Solution
Step 1-Given Data

Number of moles of the gas, n=10 

Initial pressure Pi= 5atm

External Pressure Pext = 1 atm

T = 300 K

 

To Find:-

Work Done.

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