Equal amounts in moles of gases occupy the same volume under the same conditions of temperature and pressure.
The volume of one mole of any gas at room temperature and pressure (20℃ and 1 atmosphere pressure) is 24 dm³.
The volumes of gaseous reactants and products can be calculated from the balanced equation for the reaction.
If moles of gas are known, its density can be calculated using molar gas volume and the relationship mass = RFM x moles.

Common misconception

Pupils sometimes rush these calculations and forget to take note of the units.

Remind pupils that units provide the comparison standard for values. Much practice ensuring the correct molar gas volume value is used in calculations is necessary.

Keywords

Volume - is how much 3D space matter occupies. It is usually measured in cm³.
Moles - of something is 6.02 × 10²³ of it. The mass of a mole of a substance is its relative mass expressed in grams.
Molar gas volume - is the volume occupied by one mole of any gas. It is equal to 24 dm³ or 24 000 cm³ at room temperature and pressure.
Stoichiometry - refers to the molar ratio of the reactants and products in a chemical reaction.
Density - is a property of a substance and is its mass divided by its volume.

Equipment

None required.

Licence

This content is © Oak National Academy Limited (2024), licensed on Open Government Licence version 3.0 except where otherwise stated. See Oak's terms & conditions (Collection 2).

Video

Skip video

Worksheet

Download worksheet

Skip worksheet

Starter quiz

Download starter quiz

6 Questions

Q1.

Use the particle model to describe how particles are arranged and behave in a gas.

They vibrate in fixed positions.

Correct answer: They are widely spaced and randomly arranged.

Correct answer: They are free to move in any direction.

They are randomly arranged and loose together.

Q2.

How many cm³ in 1 dm³?

100

Correct answer: 1000

10 000

Q3.

State the equation linking mass, volume and density.

Correct answer: density = mass ÷ volume

mass = density ÷ volume

volume = mass ÷ density

density = mass × volume

Q4.

Convert 10 cm³ into dm³.

Correct Answer: 0.01 dm³, 0.01, 0.01dm³

Q5.

Calculate the volume of a cube with a side length of 2 cm. Give your answer in dm³.

0.8

0.08

Correct answer: 0.008

Q6.

Convert 2 dm³ into m³.

Correct Answer: 0.002 m³, 0.002m³, 0.002

Exit quiz

Download exit quiz

6 Questions

Q1.

Match the following terms to their definitions.

Correct Answer:Molar gas volume,The volume occupied by 1 mole of a gas.

The volume occupied by 1 mole of a gas.

Correct Answer:Mole,Unit for amount of substance.

Unit for amount of substance.

Correct Answer:Density,A measure of how much matter is located in a particular volume.

A measure of how much matter is located in a particular volume.

Correct Answer:Volume,How much 3D space matter occupies.

How much 3D space matter occupies.

Q2.

Which of the following factors affect the volume of a gas?

Correct answer: temperature

Correct answer: pressure

catalyst

relative mass

Q3.

At room temperature and pressure, 1 mole of any gas occupies a volume of dm³.

Correct Answer: 24, 24.0

Q4.

State the equation linking molar gas volume, moles and volume of gas.

Correct answer: volume of gas = moles × molar gas volume

moles = volume of gas × molar gas volume

volume of gas = moles ÷ molar gas volume

moles = molar gas volume ÷ volume of gas

Q5.

Calculate the density of a gas with a mass of 0.060 g and a volume of 24 dm³. Give your answer in g/cm³.

Correct Answer: 1440 g/cm³, 1440g/cm³, 1,440 g/cm³, 1,440g/cm³, 1440

Q6.

Calculate the volume of 3.0 mol of hydrogen gas at room temperature and pressure.

Correct answer: 72 dm³

72 cm³

72,000 dm³

Correct answer: 72,000 cm³