Explaining Reactivity (Cambridge (CIE) IGCSE Chemistry)
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Explaining reactivity
Extended tier only
Metal atoms form positive ions by loss of electrons when they react with other substances
The tendency of a metal to lose electrons is a measure of how reactive the metal is
A metal that is high up on the series loses electrons easily and is thus more reactive than one which is lower down on the series
Displacement reactions between metals and aqueous solutions of metal salts
Any metal will displace another metal that is below it in the reactivity series from a solution of one of its salts
This is because more reactive metals lose electrons and form ions more readily than less reactive metals, making them better reducing agents
The less reactive metal is a better electron acceptor than the more reactive metal, thus the less reactive metal is reduced
OILRIG: reduction is gain of electrons
Magnesium + copper sulfate
Magnesium is a reactive metal and can displace copper from a copper sulfate solution
Magnesium loses its electrons more easily and the ion of the less reactive metal, copper, will gain these electrons to form elemental copper
This is easily seen as the more reactive metal slowly disappears from the solution, displacing the less reactive metal
magnesium + copper sulfate → magnesium sulfate + copper
Mg (s) + CuSO4 (aq) → MgSO4 (aq) + Cu (s)
The blue colour of the CuSO4 solution fades as colourless magnesium sulfate solution is formed
Copper coats the surface of the magnesium and also forms solid metal which falls to the bottom of the beaker
The reaction between magnesium and copper sulfate
Diagram showing the colour change when magnesium displaces copper from copper sulfate
By combining different metals and metal salts solutions it is possible to come up with a relative reactivity order
Metal Solutions Displacement Table
Mixture | Products | Equation for Reaction |
---|---|---|
Magnesium and iron(II) sulfate | Magnesium sulfate and iron | Mg + FeSO4 → MgSO4 + Fe |
Zinc and iron chloride | Zinc chloride and iron | Zn + FeCl2 → ZnCl2 + Fe |
Iron and silver nitrate | Iron(II) nitrate and silver | Fe + AgNO3 → Fe(NO3)2 + 2Ag |
Copper and iron(II) chloride | No reaction | ------ |
Silver and copper(II) sulfate | No reaction | ------ |
Zinc and magnesium chloride | No reaction | ------ |
From this table we can deduce the order of reactivity:
Magnesium and zinc are both more reactive than iron but magnesium is more reactive than zinc
Copper and silver are both less reactive than iron but silver is less reactive than copper
The order of reactivity of the metals tested can be therefore be deduced as:
Mg > Zn > Fe > Cu > Ag
Reactivity of aluminium
Aluminium is high in the reactivity series, but in reality, it does not react with water and the reaction with dilute acids can be quite slow
This is because it reacts readily with oxygen, forming a protective layer of aluminium oxide which is very thin
This layer prevents reaction with water and dilute acids, so aluminium can behave as if it is unreactive
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