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Calculations in chemistry (Higher) - AQAThe mole - Higher

The mole is the unit for amount of substance. The number of particles in a substance can be found using the Avogadro constant. The mass of product depends upon the mass of limiting reactant.

Part of Chemistry (Single Science)Quantitative chemistry

The mole - Higher

Introducing the mole, the unit of measurement for the number of particles in a substance

The actual of , and are too small to be useful in calculations. For this reason, chemical amounts are measured in . The mole is a unit. Its symbol is mol.

The mass of one mole of a substance is equal to:

  • the (Ar) of its formula in grams if the substance is an
  • the (Mr) of its formula in grams if the substance is a

The table shows the masses of one mole of three substances.

SubstanceFormulaRelative formula massMass of 1 mol
CalciumCa4040 g
OxygenO22 脳 16 = 3232 g
Calcium carbonateCaCO340 + 12 + (3 脳 16) = 100100 g
SubstanceCalcium
FormulaCa
Relative formula mass40
Mass of 1 mol40 g
SubstanceOxygen
FormulaO2
Relative formula mass2 脳 16 = 32
Mass of 1 mol32 g
SubstanceCalcium carbonate
FormulaCaCO3
Relative formula mass40 + 12 + (3 脳 16) = 100
Mass of 1 mol100 g

Avogadro constant

One mole of a substance contains the same number of as one mole of any other substance. The particles can be atoms, molecules or ions.

The number of atoms, molecules or ions in one mole of a substance is called the . Its value is 6.02 脳 1023 per mole, which is 602,000,000,000,000,000,000,000 per mole.

The amount in moles can apply to atoms, molecules, ions and electrons. For example, the number of atoms in 1 mol of sulfur is the same as the number of molecules in 1 mol of sulfur dioxide. This is the same as the number of sodium ions in 1 mol of sodium chloride. The number of chloride ions in 1 mol of sodium chloride is also the same.

Calculating the number of particles

The number of particles in a substance can be calculated using:

  • the Avogadro constant (6.02 脳 1023)
  • the amount of substance in mol

Number of particles = Avogadro constant 脳 the amount of substance in mol

Example

Calculate the number of water molecules in 0.5 mol of water.

Number of water molecules = Avogadro constant x amount of substance in mol

= 6.02 脳 1023 脳 0.5

= 3.01 脳 1023

It is important to state the particles involved. For example, 3.01 脳 1023 water molecules contain 9.03 脳 1023 atoms. This is because one water molecule, H2O, is made up of three atoms.

Question

Calculate the number of oxygen atoms in 0.5 mol of oxygen molecules, O2.