Drawing a PV Diagram: Solving Homework w/ Work Calculation

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The discussion revolves around a homework problem involving a reversible cycle of an ideal gas, requiring the construction of a PV diagram and calculation of work done. The steps include isothermal expansion, constant pressure compression, isothermal compression, and constant pressure expansion. Participants clarify the relationships between pressure and volume during each step, emphasizing the importance of the ideal gas law (PV = nRT) in understanding these changes. There is confusion about the pressure and volume dynamics, particularly in steps C and D, which leads to further exploration of how these variables interact during isothermal processes. The goal is to accurately plot the cycle and calculate the work done based on the area under the curve in the PV diagram.
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Homework Statement



One mole of an ideal gas at an inital tempreature of 300K and pressure of 4 atm is carried through the following reversible cycle:

a) It expands isothermally until its volume is doubled.
b) It is compressed to its original volume at constant pressure.
c) It is compressed isothermally to a pressure of 4 atm.
d) It expands at constant pressure to its original volume

Make a plot of this cycle process on a PV diagram and calculate the work done by the gas per cycle.

Homework Equations



The Attempt at a Solution



Okay so step a. means that while Vo goes to 2Vo the pressure doubles as well, yes? And step b means that the pressure is the same but the volume goes to Vo. And so then step C should mean that since P is returning to its initial, the gas returns to Vo too, right? But if that's true, then D doesn't make sense since it has already returned to Vo.

Please help! Once I get the diagram correct, I'm just going to use the area to find the work done.
 
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imatreyu said:
Okay so step a. means that while Vo goes to 2Vo the pressure doubles as well, yes?

Take a look at the PV = nRT equation. If T is held constant (isothermal), how must P and V relate to each other?

And step b means that the pressure is the same but the volume goes to Vo. And so then step C should mean that since P is returning to its initial, the gas returns to Vo too, right?

Again, take a look at PV = nRT. What's the current volume and pressure when step C begins? How do P and V vary when the compression (or expansion) is isothermal?
 
Oh okay haha. . .P has to be half. . .

Thank you :)
 

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