Thermal Decomposition of Metal Carbonates (Oxford AQA IGCSE Chemistry)
Revision Note
Written by: Philippa Platt
Reviewed by: Stewart Hird
Thermal Decomposition of Metal Carbonates
Thermal decomposition is the term used to describe reactions where a substance breaks down due to the action of heat
One such reaction is the thermal decomposition of metal carbonates
Carbonates of metals from the lower half of the reactivity series tend to decompose on heating to produce the metal oxide and carbon dioxide gas:
metal carbonate → metal oxide + carbon dioxide
Thermal decomposition of copper carbonate
The thermal decomposition of copper(II)carbonate occurs readily on heating
Copper(II) carbonate is a green powder and slowly darkens as black copper(II) oxide is produced
The carbon dioxide given off can be tested by passing the gas through limewater and looking for it to turn milky
The equation for the reaction is:
CuCO3 (s) → CuO (s) + CO2 (g)
copper(II) carbonate → copper(II) oxide + carbon dioxide
Stability of metal carbonates
A metal carbonate that needs to be heated strongly in order to decompose is described as thermally stable
The more strongly it needs heating, the higher the thermal stability
Lithium carbonate is less thermally stable than other Group 1 metal carbonates
This means it requires less heating to decompose
Other Group 1 metal carbonates will not decompose at the temperature reached by a Bunsen burner
For example, potassium carbonate decomposes at 1200 °C
K2CO3 (s) → K2O (s) + CO2 (g)
Copper, zinc and calcium carbonate will decompose at the temperature that a Bunsen burner will reach
Copper carbonate decomposes at 290 °C
CuCO3 (s) → CuO (s) + CO2 (g)
Examiner Tips and Tricks
Make sure you know the observations for the decomposition for copper(II) carbonate
It turns from green to black when heated
Last updated:
You've read 0 of your 5 free revision notes this week
Sign up now. It’s free!
Did this page help you?