Reactivity of the Halogens (Oxford AQA IGCSE Chemistry)
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Alexandra BrennanExpertise
Chemistry
Displacement Reactions of the Halogens
Reactivity of Group 7 non-metals decreases as you go down the group
This trend in reactivity can be observed in displacement reactions
A halogen displacement reaction occurs when a more reactive halogen displaces a less reactive halogen from an aqueous solution of its salt
For example:
sodium bromide + chlorine → sodium chloride + bromine
You only need to learn the displacement reactions with chlorine, bromine and iodine
Chlorine is the most reactive and iodine is the least reactive
Chlorine with Bromine & Iodine
Chlorine is more reactive than bromine and iodine
Chlorine will displace bromine or iodine from an aqueous solution of the metal halide
When chlorine solution is added to colourless potassium bromide solution :
The solution becomes orange as bromine is formed or
The solution becomes brown as iodine is formed
chlorine + potassium bromide → potassium chloride + bromine
Cl2 + 2KBr → 2KCl + Br2
chlorine + potassium iodide → potassium chloride + iodine
Cl2 + 2KI → 2KCl + I2
Bromine with Iodine
Bromine is more reactive than iodine
Bromine will displace iodine from an aqueous solution of the metal iodide
The solution becomes brown as iodine is formed
bromine + potassium iodide → potassium bromide + iodine
Br2 + 2KI → 2KBr + I2
Observations during displacement reactions
Chlorine (Cl2) | Bromine (Br2) | Iodine (I2) | |
|---|---|---|---|
Potassium chloride | x | No reaction | No reaction |
Potassium bromide | Yellow-orange colour of bromine | x | No reaction |
Potassium iodide | Yellow-orange colour of bromine | Brown colour of iodine | x |
Reactivity of the Halogens
Going down Group 7, reactivity decreases
Group 7 elements react in a similar way because they all have 7 electrons in their outer shell
However, some elements are more reactive than others
The reactivity of the halogens is determined by how easily it will gain one electron to achieve a full outer shell
Reactivity decreases because:
Going down the group, the number of shells increases
The outer shell is therefore further away from the nucleus
There is less attraction between an incoming electron and the nucleus
It is harder to gain an electron
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