Temperature change with gasses.

AI Thread Summary
The discussion focuses on the relationship between temperature and gas behavior, specifically using the ideal gas law (PV=nRT). It highlights that Celsius and Kelvin scales are directly related, impacting pressure and volume calculations. The calculations show that a temperature increase from 100°C to 200°C corresponds to a change from 373K to 473K, resulting in a ratio of 1.3 when comparing the two states. The conclusion confirms the correctness of the calculations presented. Understanding these principles is essential for analyzing gas behavior under temperature changes.
littlejon
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Homework Statement



phys 5.png

Homework Equations


pv=nRT

The Attempt at a Solution


Celsius and kelvin read the same so that means the pressure does not change because the gasses volume does not. C
 
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Show more work.
y = x
therefore
y = 2x?
 
100 ceclius = 373k 200 celecius = 473k

473/373 = 1.3
 
Ok, now what happens when you divide PV from state B by PV from state A? what's the ratio?
 
littlejon said:
100 ceclius = 373k 200 celecius = 473k

473/373 = 1.3
This result is correct.

Chet
 

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