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Calculations in chemistry - AQA SynergyReactions and moles - Higher

Relative formula masses can be calculated and used in conservation of mass calculations. Calculations can be carried out to find out concentrations of solutions.

Part of Combined ScienceBuilding blocks for understanding

Reactions and moles - Higher

Limiting reactants

A reaction finishes when one of the is all used up. The other reactant has nothing left to react with, so some of it is left over:

  • the reactant that is all used up is called the
  • the reactant that is left over is described as being in

The of formed in a reaction depends upon the mass of the limiting reactant. This is because no more product can form when the limiting reactant is all used up.

Reacting mass calculations

The maximum mass of product formed in a reaction can be calculated using:

  • the
  • the mass of the limiting reactant, and
  • the Ar () or Mr () values of the limiting reactant and the product

Worked example

12 g of magnesium reacts completely with excess hydrochloric acid to form magnesium chloride and hydrogen:

Mg(s) + 2HCl(aq) 鈫 MgCl2(aq) + H2(g)

Calculate the maximum mass of hydrogen that can be produced. (Ar of Mg = 24, Mr of H2 = 2)

Amount of magnesium = \(\frac{mass}{relative~atomic~mass} \)

Amount of magnesium = \(\frac{12}{24} \)

= 0.5 mol

Looking at the equation, 1 mol of Mg forms 1 mol of H2, so 0.5 mol of Mg forms 0.5 mol of H2.

Mass of H2 = Mr 脳 amount

= 2 脳 0.5

= 1 g

Question

1.0 g of calcium carbonate decomposes to form calcium oxide and carbon dioxide:

CaCO3(g) 鈫 CaO(s) + CO2(g)

Calculate the maximum mass of carbon dioxide that can be produced. (Mr of CaCO3 = 100, Mr of CO2 = 44)

Calculating balancing numbers

The balancing numbers in an equation can be worked out using masses found by experiment.

Worked example

6.0 g of magnesium reacts with 4.0 g oxygen to produce magnesium oxide, MgO. Deduce the balanced equation for the reaction. (Ar of Mg = 24, Mr of O2 = 32)

StepActionResultResult
1Write the formulae of the substancesMgO2
2Calculate the amounts\(\frac{6.0}{24}\) = 0.25 mol\(\frac{4.0}{32}\) = 0.125 mol
3Divide both by the smaller amount\(\frac{0.25}{0.125}\) = 2\(\frac{0.125}{0.125}\) = 1
Step1
ActionWrite the formulae of the substances
ResultMg
ResultO2
Step2
ActionCalculate the amounts
Result\(\frac{6.0}{24}\) = 0.25 mol
Result\(\frac{4.0}{32}\) = 0.125 mol
Step3
ActionDivide both by the smaller amount
Result\(\frac{0.25}{0.125}\) = 2
Result\(\frac{0.125}{0.125}\) = 1

This means that 2 mol of Mg reacts with 1 mol of O2, so the left-hand side of the equation is:

2Mg + O2

Then balancing in the normal way gives: 2Mg + O2 鈫 2MgO