Solving a Problem: Calculating Molar Fraction of Freon in a Tank

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To calculate the molar fraction of freon in a tank containing pure azote, the total number of moles is needed, which includes both freon and azote. The number of moles of freon has been calculated as 7.51161 mol. The volume of azote can be determined from the tank's total volume of 60 gallons, allowing the use of the ideal gas law (PV=nRT) to find the number of moles of azote. Once both values are obtained, the molar fraction can be calculated using the formula for molar fraction. The discussion emphasizes the importance of knowing the volume of azote to proceed with the calculations.
simonak
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Hi,

here's the problem :

A 60 gal tank contain pure Azote at 36,2 psig and 24,2 °C. We add 908,25 g of freon (CF2Cl2) that evaporate completely. If the temperature of the tank is 8,2 °C :

a) What is the molar fraction of the freon.


I've made some calculation, but it always result that I need the volume of the Azote to continue.
 
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Show us your calculations, and we can tell you where the error is.
 
The molar fraction is the (number of mol for the freon) / (total number of mol). I found the number of mol for the freon = 7,51161 mol.

Now I need the total number of mol. So I need the
(number of mol for the freon) + (number of mol for the azote) / (Molar weight of freon) + (Molar weight of azote).

The only thing that is missing is the (number of mol for the azote). And I found 2 ways to find it

1) volumic weight * Volume
2) PV=nRT ===> n = PV/RT ==> M = m/n ==> m = n*M ...

In each case, I don't have the volume of the azote so I cannot continue
 
simonak said:
2) PV=nRT ===> n = PV/RT ==> M = m/n ==> m = n*M ...

In each case, I don't have the volume of the azote so I cannot continue
Initially, you are told that the entire volume of the tank (ie : 60 gall) contains azote (or Nitrogen) at some P, T. So, the volume of nitrogen is 60 gall. From this you can calculate n as you've proposed above.
 
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