7. One cubic meter of an ideal gas at 600K and 1000kPa expands to five times its initial volume as follows: (a) By a mechanically, isothermal process (b)By a mechanically reversible, adiabatic process. (c)By an adiabatic, irreversible process in which expansion is against a restraining pressure of 100kPa. For each case, calculate the final temperature (K), pressure (kPa) and determine AU,AH, Q and w (all in Joules) for each process. C= 21 1/mole K, use R=8.314- mole.k . Summarize your answer in table form.

Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
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7. One cubic meter of an ideal gas at 600K and 1000kPa expands to five times its initial volume as follows:
(a) By a mechanically, isothermal process (b)By a mechanically reversible, adiabatic process. (c)By an
adiabatic, irreversible process in which expansion is against a restraining pressure of 100kPa. For each
case, calculate the final temperature (K), pressure (kPa) and determine AU,AH, Q and W (all in Joules)
for each process. C= 21 J/mole °K, use R= 8.314-
Summarize your answer in table form.
mole.k
Transcribed Image Text:7. One cubic meter of an ideal gas at 600K and 1000kPa expands to five times its initial volume as follows: (a) By a mechanically, isothermal process (b)By a mechanically reversible, adiabatic process. (c)By an adiabatic, irreversible process in which expansion is against a restraining pressure of 100kPa. For each case, calculate the final temperature (K), pressure (kPa) and determine AU,AH, Q and W (all in Joules) for each process. C= 21 J/mole °K, use R= 8.314- Summarize your answer in table form. mole.k
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