Extracting Copper (Oxford AQA IGCSE Chemistry)
Revision Note
Written by: Philippa Platt
Reviewed by: Stewart Hird
How is Copper Obtained?
How is copper purified?
The electrolysis of aqueous CuSO4 using graphite rods produces oxygen and copper
By changing the electrodes from graphite to pure and impure copper, the products can be changed at each electrode
Electrolysis can be used to purify metals by separating them from their impurities
In the set-up, the impure metal is always the anode, in this case the impure copper
The cathode is a thin sheet of pure copper
The electrolyte used is an aqueous solution of a soluble salt of the pure metal at the anode, e.g. CuSO4
Copper atoms at the anode lose electrons and go into solution as ions:
Cu ⟶ Cu2+ + 2e–
The anode thus becomes thinner due to loss of atoms and the impurities fall to the bottom of the cell as sludge
The copper(II) ions are attracted to the cathode where they gain electrons and form now purified copper atoms
The cathode gradually becomes thicker
Cu2+ + 2e– ⟶ Cu
The anode sludge is a highly valuable material and is further refined as it often contains small quantities of precious metals like silver which are found as impurities in the unrefined copper
Purification of copper
Worked Example
Explain why the electrolyte maintains the blue colour during the electrolysis of aqueous copper sulfate using copper electrodes.
Answer
The concentration of Cu2+ stays the same
Cu2+ (aq) + 2e– → Cu (s) occurs at the cathode
Cu (s) → Cu2+ (aq) + 2e– occurs at the anode
Cu2+ ions which give the blue colour leave and enter the solution at the same rate
Obtaining Copper by Displacement
Copper can also be extracted using displacement
To save scrap iron from going into landfill, it can be used to displace copper from solution
E.g. copper sulfate, copper nitrate
Iron is more reactive than copper so can displace copper from solution
iron + copper sulphate → copper + iron sulphate
Fe (s) + CuSO4 (aq) → FeSO4 (aq) + Cu (s)
We can break this down into an ionic equation
Fe (s) + Cu2+ (aq) + SO42– (aq) → Fe2+ (aq) + SO42– (aq) + Cu (s)
Fe (aq) + Cu2+ (aq) → Fe2+ (aq) + Cu (s)
The Fe atom has lost electrons to become a Fe2+ ion, it has been oxidised
The Cu2+ ion has gained electrons to become a Cu atom, it has been reduced
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