Half Equations in Electrolysis (AQA GCSE Chemistry)

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Half Equations in Electrolysis

Higher Tier Only

  • In electrochemistry we are mostly concerned with the transfer of electrons, hence the definitions of oxidation and reduction are applied in terms of electron loss or gain rather than the addition or removal of oxygen
  • Oxidation is when a substance loses electrons and reduction is when a substance gains electrons
  • As the ions come into contact with the electrode, electrons are either lost or gained and they form neutral substances
  • These are then discharged as products at the electrodes
  • At the anode, negatively charged ions lose electrons and are thus oxidised
  • At the cathode, the positively charged ions gain electrons and are thus reduced
  • This can be illustrated using half equations which describe the movement of electrons at each electrode
  • It is important to make sure that the charges as well as the number of atoms/ions on each side of the equation are balanced 

Electrolysis of molten lead(II)bromide

  • In the electrolysis of molten lead(II) bromide the half equation at the negative electrode (cathode) is:

Pb2+ + 2e ⟶ Pb

  • At the positive electrode (anode) bromine gas is produced by the discharge of bromide ions:

2Br- – 2e– ⟶ Br2

OR

2Br⟶ Br2 + 2e

Electrolysis of molten aluminium oxide

  • Aluminium ions are discharged at the negative electrode (cathode) and the aluminium is collected at the bottom of the cell:

Al3+ + 3e ⟶ Al

  • At the positive electrode (anode) oxygen gas is produced:

2O2- – 4e– ⟶ O2

OR

2O2- ⟶ O2  + 4e

Electrolysis of aqueous solutions

  • At the negative electrode (cathode), when the metal is more reactive than hydrogen, hydrogen is discharged and the half equation is:

2H+ + 2e ⟶ H2

  • When the metal is less reactive than hydrogen, the metal is discharged, e.g.:

Cu2+ +  2e ⟶ Cu   

  • At the positive electrode (anode), if a halide ion is present, the corresponding halogen is formed e.g.:

2Cl – 2e– ⟶ Cl2

OR

2Cl ⟶ Cl2 + 2e

  • When a halide ion is not present, oxygen is formed as hydroxide ions are discharged, e.g.:

4OH ⟶ O2 + 2H2O + 4e

OR

4OH - 4e⟶ O2 + 2H2

  • Half equations illustrate the transfer of electrons during a chemical process as they provide a more detailed picture of the redox processes taking place
  • Half equations combine to give the ionic equation for an electrolytic cell.
  • The example below illustrates how this is done for the sodium chloride:

Electrode Half Equations Table 1

Electrode Half Equations Table 1, downloadable IGCSE & GCSE Chemistry revision notes

 

Electrode Half Equations Table 2

Electrode Half Equations Table 2, downloadable IGCSE & GCSE Chemistry revision notes

  • The table below shows the half equations for a number of common electrolytes, dilute and concentrated where applicable:

Electrode Half Equations Table 3 1, downloadable IGCSE & GCSE Chemistry revision notesElectrode Half Equations Table 3 2, downloadable IGCSE & GCSE Chemistry revision notes

Exam Tip

Don't forget to make sure the charges are balanced within the equation!

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Stewart

Author: Stewart

Stewart has been an enthusiastic GCSE, IGCSE, A Level and IB teacher for more than 30 years in the UK as well as overseas, and has also been an examiner for IB and A Level. As a long-standing Head of Science, Stewart brings a wealth of experience to creating Topic Questions and revision materials for Save My Exams. Stewart specialises in Chemistry, but has also taught Physics and Environmental Systems and Societies.