Redox (Oxford AQA IGCSE Chemistry)

Revision Note

Oxidation & Reduction

  • As well as understanding oxidation and reduction in terms of oxygen, you need to understand these reactions in terms of electrons

  • When a substance loses electrons it is oxidised

  • When a substance gains electrons it is reduced

  • If this occurs in the same reaction, the reaction is a redox reaction

  • For example, when iron reacts with Cu2+ ions oxidation and reduction take place

The redox reaction between Fe and Cu2+

Diagram to show the redox reaction between  iron and copper(II) ions
Iron is oxidised as it has lost electrons, copper ions are reduced as they have gained electrons

Examiner Tips and Tricks

Remember: OIL RIGOxidation ILoss, Reduction IGain of electrons

Electron Gain & Loss

  • Oxidation and reduction take place during the process of electrolysis at the anode (positive electrode) and the cathode (negative electrode) 

  • Positive ions are attracted towards the cathode

    • Reduction (gain of electrons) takes place here

    • E.g. Positively charged lead ions will gain electrons at the cathode

  • Negative ions are attracted towards the anode

    • Oxidation (loss of electrons) takes place here

    • E.g. Negatively charged bromide ions will lose electrons at the anode

Examiner Tips and Tricks

You can also remember which electrodes oxidation takes place by remembering: RED CAT (reduction at the cathode) and AN OX (oxidation at the anode)

Reactions at Electrodes

  • Half equations show the reactions that occur at each electrode

  • In the electrolysis of molten lead(II) bromide, lead is produced at the negative electrode (cathode)

    • The half equation for the reaction at this electrode is:

Pb2+ + 2e ⟶ Pb

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

    • The half equation for the reaction at this electrode is:

2Br⟶ Br2 + 2e

  • During the electrolysis of molten aluminium oxide aluminium ions are discharged at the negative electrode (cathode) and aluminium is formed:

Al3+ + 3e ⟶ Al

  • At the positive electrode (anode), oxide ions lose electrons to form oxygen gas:

2O2- ⟶ O2  + 4e

Worked Example

Molten zinc chloride, ZnCl2, undergoes electrolysis.

Complete the half equations that occur at each electrode.

Cathode:

Zn2+ + ....... ⟶ Zn

Anode:

....... Cl- ⟶ Cl2  + .......

Answer

Cathode:

  • The zinc ion requires 2 electrons to become an atom.

  • Zn2+ + 2e⟶ Zn

  • Reduction has occurred

Anode:

  • Two chlorine ions are required to form a chlorine molecule

  • 2Cl- ⟶ Cl2  + .......

  • The charge now needs balancing

    • Each chloride ion has lost one electron so two electrons in total

  • 2Cl- ⟶ Cl2  + 2e

  • Oxidation has occurred

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