MC: Chemistry Ideal Gas vs Real Gas

AI Thread Summary
At constant temperature, increasing the volume of a real gas allows it to behave more like an ideal gas because the average distance between molecules becomes greater. This reduces the frequency of collisions among molecules and with the container walls, aligning with ideal gas behavior. The discussion highlights that real gases approximate ideal behavior at low pressures and larger volumes. The correct answer to the homework question is option C, as it reflects the increased separation of molecules. Understanding the relationship between volume, pressure, and molecular interactions is crucial in distinguishing real gas behavior from ideal gas behavior.
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Homework Statement



24. At constant temperature, the behavior of a sample of a real gas more closely approximates that of an ideal gas as its volume is increased because the:
a. Collisions with the walls of the container become less frequent
b. Average molecular speed decreases
c. Average distance between molecules becomes greater
d. Average molecular kinetic energy decreases


Homework Equations



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The Attempt at a Solution


I know when volume is increased, pressure is decreased (due to constant temp). And real gases behave most like ideal gases at low pressure. And real gases have small volume.. so I'm confused.
Through process of elimination I came to the answer of C. I'd like to know if it is correct and/or if there is a better way of approaching the problem.

Thanks so much! =]
 
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Ideal gases have no size - if you have a container of real molecules what can you do to make their physical size less important?
 
separate them so they experience no charge/attraction on each other?
I still feel like the answer is C, am i incorrect?The only possible choices are A and C

kinetic energy is effected by temp and speed has nothing to do with volume..?
 
Correct - at larger volumes (ie lower pressure) the the molecules take up a smaller percentage of the container and so are less likely to hit each other.
 

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