Writing Half-Equations (Edexcel IGCSE Chemistry)
Revision Note
Author
StewartExpertise
Chemistry Lead
Writing Half-Equations
- 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
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 Reduction
- At the positive electrode (anode) bromine gas is produced by the discharge of bromide ions:
2Br– – 2e– ⟶ Br2 Oxidation
or
2Br– ⟶ Br2 + 2e–
Exam Tip
At the anode, it doesn't matter whether you subtract the electrons on the left or add them on the right. Most chemists prefer to add them on the right, because chemical equations, by convention, generally involve the addition of materials rather than the subtraction.
Electrolysis of aqueous sodium chloride
- In the electrolysis of aqueous sodium chloride the half equation at the negative electrode (cathode) is:
2H+ + 2e– ⟶ H2 Reduction
- At the positive electrode (anode) chlorine gas is produced by the discharge of chloride ions:
2Cl– – 2e– ⟶ Cl2 Oxidation
or
2Cl– ⟶ Cl2 + 2e–
Electrolysis of dilute sulfuric acid
- In the electrolysis of dilute sulfuric acid the half equation at the negative electrode (cathode) is:
2H+ + 2e– ⟶ H2 Reduction
- At the positive electrode (anode) oxygen gas is produced by the discharge of water molecules:
2H2O – 4e– ⟶ O2 + 4H+ Oxidation
or
2H2O ⟶ O2 + 4H+ + 4e–
Electrolysis of aqueous copper(II) sulfate
- In the electrolysis of aqueous copper(II)sulfate the half equation at the negative electrode (cathode) is:
Cu2+ + 2e– ⟶ Cu Reduction
- At the positive electrode (anode) oxygen gas is produced by the discharge of water molecules:
2H2O – 4e– ⟶ O2 + 4H+ Oxidation
or
2H2O ⟶ O2 + 4H+ + 4e–
Exam Tip
In electrode half equations the charges on each side of the equation should always balance.It may seem odd that water molecules are discharged and not hydroxide ions, but remember that acidic solutions will not contain any hydroxide ions. Even copper(II)sulfate is slightly acidic in water, so will not contain hydroxide ions.
You've read 0 of your 0 free revision notes
Get unlimited access
to absolutely everything:
- Downloadable PDFs
- Unlimited Revision Notes
- Topic Questions
- Past Papers
- Model Answers
- Videos (Maths and Science)
Did this page help you?