
The volume of a gas increases upon heating to keep a constant pressure (a); volume is directly proportional to the temperature (b)
P = pressure (pascals, Pa)
V = volume (m3)
n = number of moles of gas (mol)
R = gas constant (8.31 J K-1?mol-1)
T = temperature (kelvin, K)
Calculating the volume of a gas
Calculate the volume occupied by 0.781 mol of oxygen at a pressure of 220 kPa and a temperature of 21 °C
Answer
Step 1:?Rearrange the ideal gas equation to find volume of gas

Step 2:?Calculate the volume the oxygen gas occupies

Calculating the molar mass of a gas
A flask of volume 1000 cm3?contains 6.39 g of a gas. The pressure in the flask was 300 kPa and the temperature was 23 °C.
Calculate the relative molecular mass of the gas.
Answer
Step 1:?Rearrange the ideal gas equation to find the number of moles of gas

Step 2:?Calculate the number of moles of gas
p = 300 kPa = 300 000 Pa
V = 1000 cm3?= 1 dm3?= 0.001 m3
R = 8.31 J K-1?mol-1
T = 23?oC = 296 K
Step 3:?Calculate the molar mass using the number of moles of gas


To calculate the temperature in?Kelvin, add 273 to the Celsius temperature - e.g. 100?oC is 373 Kelvin.
You must be able to rearrange the ideal gas equation to work out all parts of it.
The?units?are incredibly important in this equation - make sure you know what units you should use, and do the necessary conversions when doing your calculations!
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