An ideal gas is taken through a quasi-static process described by P = av2, with a = 2.00 atm/m°, as shown in the figure. The gas is expanded to twice its original volume of 1.00 m3. How much work (in MJ) is done on the expanding gas in this process? P = aV? 1.00 m3 2.00 m3 MJ

Elements Of Electromagnetics
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(a) An ideal gas is taken through a quasi-static process described by P = aV², with a = 2.00 atm/m°, as shown in the figure.
The gas is expanded to twice its original volume of 1.00 m³. How much work (in MJ) is done on the expanding gas in this
process?
P= aV²
V
2.00 m³
1.00 m3
MJ
(b) What If? How does the work done in part (a) compare to the lowest and highest possible amounts of work that can be
done on this gas between the initial and final states if the pressure always remains between P, and P, and the volume
always remains between V, and V? (Enter your answers as percentages of the work done in part (a).)
lowest
x 100% =
%
W part (a)
highest
x 100% =
%
part (a)
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Transcribed Image Text:(a) An ideal gas is taken through a quasi-static process described by P = aV², with a = 2.00 atm/m°, as shown in the figure. The gas is expanded to twice its original volume of 1.00 m³. How much work (in MJ) is done on the expanding gas in this process? P= aV² V 2.00 m³ 1.00 m3 MJ (b) What If? How does the work done in part (a) compare to the lowest and highest possible amounts of work that can be done on this gas between the initial and final states if the pressure always remains between P, and P, and the volume always remains between V, and V? (Enter your answers as percentages of the work done in part (a).) lowest x 100% = % W part (a) highest x 100% = % part (a) Need Help? Read It Master It
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