Explaining Conductivity (Edexcel IGCSE Chemistry (Modular))
Revision Note
Conductivity of covalent compounds
Electric current is the flow of charged particles
This usually refers to electrons, but it could also mean the flow of ions
Most covalent compounds do not conduct electricity as they have no freely moving charged particles to carry the current
They act as insulators and have many applications which rely on that property
Covalent substances are used as electrical insulators in solid, liquid and gaseous form
For example, sulfur hexafluoride is a dense gas used to insulate electrical transformers
Silicone oils and liquid hydrocarbons are also used in electrical equipment
Common insulators include the plastic coating around household electrical wiring:
Covalent compounds are used as insulating materials
Covalent compounds are unable to conduct due to having no freely moving charged particles
Conductivity of ionic compounds
Ionic compounds can conduct electricity in the molten state or in solution
This is because they have ions that can move and carry charge
They cannot conduct electricity in the solid state as the ions are in fixed positions within the lattice and are unable to move
Molten or aqueous particles move and conduct electricity but cannot in solid form
Cations and anions
Anions are negatively charged ions
E.g. Cl-, O2-, SO42-
Cations are positively charged ions
E.g. K+, Mg2+, H+
During electrolysis the electrons move from from the anode towards the cathode
Cations within the electrolyte migrate towards the negatively charged electrode which is the cathode
Anions within the electrolyte migrate towards the positively charged electrode which is the anode
Diagram showing the direction of movement of electrons and ions in the electrolysis of NaCl
Cations are attracted to the anode and anions to the cathode due to their opposite charges
Examiner Tip
When a metal conducts it is the electrons that are moving through the metal. When a salt solution conducts it is the ions in the solution that move towards the electrodes while carrying the electrons.
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