Solve a Gas Law Problem: Find T in °C

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To find the temperature of an ideal gas, the equation PV=nRT is used, where P is pressure, V is volume, n is the number of moles, and R is the gas constant. The initial calculation yielded a temperature of 20.9 K, which was incorrectly converted to -252 °C. Upon reevaluation, it was determined that the arithmetic was performed incorrectly, specifically in the order of operations. The correct calculation resulted in a much higher temperature of approximately 3104 K, indicating a significant error in the initial approach. Accurate arithmetic and proper use of parentheses are crucial for solving gas law problems correctly.
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Homework Statement


If 1.15 moles of an ideal gas has a pressure of 3.60 atm, and a volume of 81.37 L, what is the temperature of the sample in degrees Celsius?

Homework Equations


PV=nRT
p = pressure
v = volume
n = number of moles
r = 0.08206 L atm/(mol K)
T = ?

The Attempt at a Solution


So I did the problem by :
3.60 (81.37) = (1.15)(0.08206)(T)
I found T to be 20.9 degrees K. I converted the temperature from K to C by doing K = C + 273 so 20.9 = C + 273. So the temperate in C is -252 degrees. However, I am still getting this wrong in the online homework. Can anyone help me figure out mistake?
 
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Jennifer_T said:

Homework Statement


If 1.15 moles of an ideal gas has a pressure of 3.60 atm, and a volume of 81.37 L, what is the temperature of the sample in degrees Celsius?

Homework Equations


PV=nRT
p = pressure
v = volume
n = number of moles
r = 0.08206 L atm/(mol K)
T = ?

The Attempt at a Solution


So I did the problem by :
3.60 (81.37) = (1.15)(0.08206)(T)
I found T to be 20.9 degrees K. I converted the temperature from K to C by doing K = C + 273 so 20.9 = C + 273. So the temperate in C is -252 degrees. However, I am still getting this wrong in the online homework. Can anyone help me figure out mistake?
You did the arithmetic incorrectly. That's all.

Chet
 
Chestermiller said:
You did the arithmetic incorrectly. That's all.

Chet

I have done the problem multiple times and am unsure of where my arithmetic problem is.
 
Jennifer_T said:
I have done the problem multiple times and am unsure of where my arithmetic problem is.
Well, your equation should give the correct temperature, which is in the 200's. I guess the only what we can help you further is if you show the individual steps in your arithmetic. What do you get for the product of PV? When you divided that by R what do you get? When you divide that by the number of moles, what do you get?

Chet
 
Chestermiller said:
Well, your equation should give the correct temperature, which is in the 200's. I guess the only what we can help you further is if you show the individual steps in your arithmetic. What do you get for the product of PV? When you divided that by R what do you get? When you divide that by the number of moles, what do you get?

Chet

So I did (3.60)(81.37)/(1.15)(0.08206) into my calculator in order to get T in Kelvins.
 
Jennifer_T said:
So I did (3.60)(81.37)/(1.15)(0.08206) into my calculator in order to get T in Kelvins.
Yes. That's correct. When I did it on my calculator, I got 3104K. That 0.08206 is in the denominator, not in the numerator. You need to be careful with your parenthesis.

Chet
 
I guess the temperature wasn't in the 200s after all. The surface of the sun is about 5700 K, so this gas sample is quite the hot potato.
 
SteamKing said:
I guess the temperature wasn't in the 200s after all. The surface of the sun is about 5700 K, so this gas sample is quite the hot potato.
Ha! I noticed that. That's what I get for trying to do it in my head.

Chet
 

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