Electrolysis

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The key idea

Electrolysis uses electricity to decompose an ionic compound.At the cathode, cations are reduced (gain electrons); at the anode, anions are oxidised (lose electrons).

Equation to know

cathode: Cu²⁺ + 2e⁻ → Cu

Electrolysis

Use the labels to explain the scientific relationship shown.

Revision notes

The bit that matters

Keep the idea tight, then use the worked example to practise the exact exam wording.

Principles of electrolysis

Electrolysis requires a molten ionic compound or an aqueous solution of an ionic compound, connected to a direct current supply via two electrodes.Positive ions (cations) move to the negative cathode, where they gain electrons (reduction).Negative ions (anions) move to the positive anode, where they lose electrons (oxidation).The mnemonic AN OX RED CAT (ANOde-OXidation, REDuction-CATHode) helps recall this.

Electrolysis of aqueous solutions

When an ionic substance is dissolved in water, both the solute ions and water molecules (H⁺ and OH⁻) are present.The ions discharged depend on their relative positions in the electrolytic series: at the cathode, the less reactive metal or H⁺ is preferentially reduced; at the anode, Cl⁻ is preferentially discharged if concentrated, otherwise OH⁻ gives oxygen.

Industrial electrolysis — aluminium

Aluminium is extracted by electrolysin of aluminium oxide dissolved in molten cryolite.Cryolite lowers the melting point from about 2000°C to about 850°C, greatly reducing energy costs.Aluminium forms at the cathode and oxygen at the anode; the carbon anodes are gradually oxidised and need regular replacement.

Electroplating

Electroplating deposits a thin layer of one metal on another to improve appearance or resistance to corrosion.The object to be plated is the cathode; the plating metal is the anode; the electrolyte contains ions of the plating metal.Silver electroplating is used for jewellery; chromium plating is used on car parts.

Key terms

Definitions to learn

The decomposition of an ionic compound by passing electricity through it in molten or aqueous form.

Cathode

The negative electrode in electrolysis where reduction (gain of electrons) occurs.

Anode

The positive electrode in electrolysis where oxidation (loss of electrons) occurs.

Electrolyte

A molten or dissolved ionic compound that conducts electricity by ion movement.

Half-equation

An equation showing either the oxidation or the reduction half of an electrode reaction, including electrons.

Electroplating

Using electrolysis to deposit a thin layer of metal onto another object.

Worked example

State the products at each electrode when aqueous copper sulfate is electrolysed with copper electrodes.

At the cathode (negative): Cu²⁺ ions are reduced → copper metal is deposited.

At the anode (positive): copper electrode dissolves → Cu → Cu²⁺ + 2e⁻.

The concentration of copper sulfate stays constant.

Final answer

Cathode: copper deposited; Anode: copper dissolves.

Exam habit

For electrolysis questions, always state which electrode is positive (anode) and which is negative (cathode), then link each to oxidation or reduction.

Watch out

Do not confuse cathode (negative, reduction) and anode (positive, oxidation). Use the mnemonic AN OX RED CAT.

Examiner tips

How to score full marks

1Use AN OX RED CAT: ANOde = OXidation (loss of e⁻); CATHode = REDuction (gain of e⁻).
2In half-equations, electrons (e⁻) appear on the left for reduction (cathode) and on the right for oxidation (anode).
3For aqueous solution electrolysis, always consider whether H⁺/OH⁻ from water or the solute ions are discharged — concentration matters.

Practice questions

Try these yourself

Open each answer only after you have explained the full chemical process.

1Define electrolysis.[1 mark]

Mark scheme

1.Describe the process in terms of current and compound.

The breaking down of an ionic compound using electricity (1).

2State which electrode is the cathode and what process occurs there.[2 marks]

Mark scheme

1.Recall cathode = negative electrode.

The cathode is the negative electrode (1); reduction occurs — cations gain electrons (1).

3Write the half-equation for the formation of copper at the cathode.[1 mark]

Mark scheme

1.Show electrons being gained by Cu²⁺.

Cu²⁺ + 2e⁻ → Cu (1).

4State the products at the cathode and anode when dilute sulfuric acid is electrolysed.[2 marks]

Mark scheme

1.Consider which ions are discharged preferentially from aqueous solution.

Cathode: hydrogen gas (H₂) (1); Anode: oxygen gas (O₂) (1).

5Explain why hydrogen is produced at the cathode during the electrolysis of dilute hydrochloric acid rather than sodium (from NaOH solution).[3 marks]

Mark scheme

1.Compare reactivity of ions and position in the electrolytic series.

H⁺ ions are more easily reduced than Na⁺ ions (1) because hydrogen is lower in the reactivity series (1), so H⁺ is preferentially discharged at the cathode (1).

6Write the half-equation for the production of chlorine at the anode from concentrated hydrochloric acid.[1 mark]

Mark scheme

1.Show electrons lost by chloride ions.

2Cl⁻ → Cl₂ + 2e⁻ (1).

7Describe the industrial production of aluminium by electrolysis of aluminium oxide, including why cryolite is used.[5 marks]

Mark scheme

1.State the role of cryolite and identify the electrodes.

Aluminium oxide is dissolved in molten cryolite (1), which lowers the melting point, reducing energy costs (1); aluminium is produced at the cathode (1) and oxygen at the anode (1); carbon anodes are used and gradually burn away in the oxygen (1).

8Explain the role of electrolysis in electroplating a steel object with nickel.[4 marks]

Mark scheme

1.Identify the anode, cathode and electrolyte.

The steel object is the cathode (1); a nickel anode dissolves, releasing Ni²⁺ ions (1); the electrolyte is nickel sulfate solution (1); Ni²⁺ ions are reduced at the cathode and nickel is deposited on the steel (1).

Official exam-board sources

Specification Past papers

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