In an Isothermal process the temperature stays thes same as the volume and pressure are allowed to change. In such a proces the work is found by (7) W = nRT In , with n as the number of moles, Ras the constant 8.31 J/mole*K. How much work is done in an isothermal process of an ideal gas starting at a pressure of 209 kPa, and 0.0150 m² volume as it expands to a volume of 0.154 m²? Number Units If the gas is then compressed isobarically back to its initial volume and finally returns to the initial pressure and volume ischorically. What is the total work done in this cycle? Number Units
In an Isothermal process the temperature stays thes same as the volume and pressure are allowed to change. In such a proces the work is found by (7) W = nRT In , with n as the number of moles, Ras the constant 8.31 J/mole*K. How much work is done in an isothermal process of an ideal gas starting at a pressure of 209 kPa, and 0.0150 m² volume as it expands to a volume of 0.154 m²? Number Units If the gas is then compressed isobarically back to its initial volume and finally returns to the initial pressure and volume ischorically. What is the total work done in this cycle? Number Units
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:In an Isothermal process the temperature stays thes same as the volume and pressure are allowed to change. In such a proces the work is found by
(7)
W = nRT In
, with n as the number of moles, R as the constant 8.31 J/mole*K. How much work is done in an isothermal process of an ideal gas
starting at a pressure of 209 kPa, and 0.0150 m3 volume as it expands to a volume of 0.154 m3?
Number
Units
If the gas is then compressed isobarically back to its initial volume and finally returns to the initial pressure and volume ischorically. What is the total work
done in this cycle?
Number
Units
P
V
V.
V,
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