Summary
Electrolysis is the breakdown of ionic compounds, either molten or in aqueous solution, by passing electricity through them, allowing ions to move and decompose into elements.
- Electrolysis — the process of using electricity to decompose ionic compounds. Example: Electrolysis of molten lead (II) bromide produces lead and bromine.
- Inert Electrode — a metal that conducts electricity but does not react with the electrolyte. Example: Platinum.
- Electrolyte — a substance that conducts electricity when dissolved in water. Example: Sodium chloride solution.
- Anode — the positive electrode where oxidation occurs. Example: In electrolysis of sodium chloride, chlorine gas is produced at the anode.
- Cathode — the negative electrode where reduction occurs. Example: In electrolysis of copper sulfate, copper is deposited at the cathode.
- Electroplating — coating an object with a metal using electrolysis. Example: Electroplating with copper uses copper sulfate solution as the electrolyte.
Exam Tips
Key Definitions to Remember
- Electrolysis: Decomposition of ionic compounds using electricity.
- Anode: Positive electrode where oxidation occurs.
- Cathode: Negative electrode where reduction occurs.
Common Confusions
- Confusing the anode and cathode: Remember PANIC - Positive Anode, Negative Is Cathode.
- Misunderstanding which ions are discharged: Metals or hydrogen at the cathode, non-metals at the anode.
Typical Exam Questions
- What is electrolysis? The process of using electricity to decompose ionic compounds.
- What happens at the cathode during electrolysis of copper sulfate? Copper ions gain electrons and form copper metal.
- Why are inert electrodes used? To prevent reactions with the electrolyte.
What Examiners Usually Test
- Ability to write ionic half-equations for reactions at electrodes.
- Understanding of which ions are discharged at each electrode.
- Knowledge of specific examples like electrolysis of molten lead (II) bromide or copper sulfate.