Group 2 Carbonates & Nitrates
- Thermal decomposition is the breakdown of a compound into two or more different substances using heat
Thermal decomposition of carbonates
- In Group 1, lithium carbonate when heated will decompose producing lithium oxide and carbon dioxide
Li2CO3 (s) Li2O (s) + CO2 (g)
- The rest of the Group 1 carbonates don't decompose at Bunsen temperatures
- The decomposition temperatures increase as you go down the Group
- The Group 2 carbonates break down (decompose) when they are heated to form the metal oxide and give off carbon dioxide gas
- The general equation for the decomposition of Group 2 carbonates is:
XCO3 (s) XO (s) + CO2 (g)
X = Group 2 element
- Going down the group, more heat is needed to break down the carbonates
MgCO3 MgO + CO2
Thermal decomposition of nitrates
- The only Group 1 nitrate that will decompose to produce nitrogen dioxide (which is a brown toxic gas) and oxygen is lithium nitrate LiNO3
4LiNO3 (s) 2Li2O (s) + 4NO2 (g) + O2 (g)
- The rest of the Group don't decompose so completely producing the metal nitrite (NO2-) and oxygen, but no nitrogen dioxide
2XNO3 (s) 2XNO2 (s) + O2 (g)
- All the nitrates from sodium to caesium decompose in this same way, the only difference being how hot they have to be to undergo the reaction.
- Down Group 1, the decomposition gets more difficult, and you have to use higher temperatures.
- The Group 2 nitrates break decomposed when they are heated to form the metal oxide, oxygen gas and nitrogen dioxide gas
- Since the formed nitrogen dioxide gas is toxic, the decomposition of nitrates is often carried out in a fume cupboard
- The general equation for the decomposition of Group 2 nitrates is:
X(NO3)2 XO + O2 + 2NO2
X = Group 2 element
- Going down Groups 1 and 2, more heat is needed to break down the carbonate and nitrate ions
- The thermal stability of the Group 1 and 2 carbonates and nitrates therefore increases down the group
- The smaller positive ions at the top of the groups will polarise the anions more than the larger ions at the bottom of the group
- The small positive ion attracts the delocalised electrons in the carbonate ion towards itself
- The higher the charge and the smaller the ion the higher the polarising power
- The more polarised they are, the more likely they are to thermally decompose as the bonds in the carbonate and nitrate ions become weaker
- The smaller positive ions at the top of the groups will polarise the anions more than the larger ions at the bottom of the group