calculate the volume in L occupied by 13.2 moles of carbon dioxide gas if the pressure is 250 kPa at 73.6 degrees Celsius
1 answer:
This problem it’s an ideal gas law because it includes moles.
PV=nRT
Remember change kpa to atm, C to K. The answer will be in Liters. If you dont change into the answer will be wrong.
P= 2.467 atm =250 kpa
V=X L
n= 13.2 moles
R=0.08206
T= 346.75 K = 73.6 C
Plug everything
2.5X L/atm = 375.7 mol/k
X= 150.3 L/atm mol/K
I hope that helps :)
PV=nRT
Remember change kpa to atm, C to K. The answer will be in Liters. If you dont change into the answer will be wrong.
P= 2.467 atm =250 kpa
V=X L
n= 13.2 moles
R=0.08206
T= 346.75 K = 73.6 C
Plug everything
2.5X L/atm = 375.7 mol/k
X= 150.3 L/atm mol/K
I hope that helps :)
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<h3>Answer:</h3>
812 kPa
<h3>Explanation:</h3>- According to Boyle's law pressure and volume of a fixed mass are inversely proportional at constant absolute temperature.
- Mathematically,
At varying pressure and volume;
P1V1=P2V2
In this case;
Initial volume, V1 = 2.0 L
Initial pressure, P1 = 101.5 kPa
Final volume, V1 = 0.25 L
We are required to determine the new pressure;
Replacing the known variables with the values;
= 812 kPa
Thus, the pressure of air inside the balloon after squeezing is 812 kPa