We consider a 5.15-L sample of monatomic ideal gas at atmospheric pressure (1 atm = 1.013 × 10° Pa) and 302 K. This initial state would be called point A, if we were to draw the process on a pV diagram (you should!). The gas is then heated at constant volume to 3.00 atm (point B). It then undergoes an isothermal expansion (point C) and is then compressed isobarically to its original state (point A). a. What is the number of moles of the sample? mol b. What are the temperatures at point B? K c. What are the temperatures at point C? K d. What is the volume at point C? e. During the isothermal expansiom (B to C), calculate the following quantities The change in internalonergy AE

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1.013 x 10° Pa) and
We consider a 5.15-L sample of monatomic ideal gas at atmospheric pressure (1 atm
302 K. This initial state would be called point A, if we were to draw the process on a pV diagram (you
should!). The gas is then heated at constant volume to 3.00 atm (point B). It then undergoes an isothermal
expansion (point C) and is then compressed isobarically to its original state (point A).
a. What is the number of moles of the sample?
mol
b. What are the temperatures at point B?
K
c. What are the temperatures at point C?
K
d. What is the volume at point C?
L
e. During the isothermal expansiom (B to C), calculate the following quantities
The change in internal energy AE =
%3D
The work done by the gas is W =
kJ
The heat added to the gas is Q =
kJ
%3D
Transcribed Image Text:1.013 x 10° Pa) and We consider a 5.15-L sample of monatomic ideal gas at atmospheric pressure (1 atm 302 K. This initial state would be called point A, if we were to draw the process on a pV diagram (you should!). The gas is then heated at constant volume to 3.00 atm (point B). It then undergoes an isothermal expansion (point C) and is then compressed isobarically to its original state (point A). a. What is the number of moles of the sample? mol b. What are the temperatures at point B? K c. What are the temperatures at point C? K d. What is the volume at point C? L e. During the isothermal expansiom (B to C), calculate the following quantities The change in internal energy AE = %3D The work done by the gas is W = kJ The heat added to the gas is Q = kJ %3D
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