REVISION NOTES

IGCSE Edexcel Chemistry

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2.4 Reactivity Series

2.4.1 Understand how metals can be arranged in a reactivity series based on their reactions with:

  • Water
  • Dilute hydrochloric or sulfuric acid

REACTIVITY SERIES OF METAL

  • The reactivity series of metal can be determined by analysing their reactions with water and acids
  • Metals react with water and acids
  • Based on the observation made of the reactions, metals are placed in order of reactivity
edexcel_igcse_chemistry_topic 13 tables_reactivity series_001_metals reaction with water and acid

Reaction 1: Metal + Water 

Metal + Water → Metal hydroxide + Hydrogen

Ca (s) + 2H2O (l) → Ca(OH)2 (aq) + H2 (g)

Calcium + Water → Calcium hydroxide + Hydrogen

Reaction 2: Metal + Acid 

Metal + Acid → Salt + Hydrogen

2K (s) + 2HCl (aq) → 2KCl (s) + H2 (g)

Potassium + Hydrochloric acid → Potassium chloride + Hydrogen

  • Only metals above hydrogen in the reactivity series will react with acids
  • The more reactive the metal, the more vigorous the reaction
edexcel_igcse_chemistry_topic 13 tables_reactivity series_002_example metals reaction with sulphuric and hydrochloric acid

2.4.2 Understand how metals can be arranged in a reactivity series based on their displacement reactions between:

  • Metals and metal oxides
  • Metals and aqueous solutions of metal salts

The reactivity of metal decreases going down the reactivity series

  • A more reactive metal will displace a less reactive metals from its compounds
  • Two reactions will be discussed:
    • Metal and metal oxide
    • Metal and aqueous solutions of metal salts

REACTION 1 METAL + METAL OXIDE

  • Zn + CuO → ZnO + Cu
  • According to the reactivity series, Zn is more reactive than Cu
  • Therefore, Zinc can displace Cu in CuO and form ZnO
edexcel_igcse_chemistry_topic 13 tables_reactivity series_003_metal and metal oxide reaction examples

REACTION 2 METAL + AQUEOUS SOLUTION OF METAL SALTS

  • A more reactive metal displaces the less reactive metal in its aqueous solution
  • The more reactive metal slowly disappears from the mixture
  • Mg + CuSO4 → MgSO4 + Cu
  • Mg is more reactive than Cu, so Mg can displace Cu in CuSO4
    • The blue colour of CuSO4 fades as colourless MgSO4 solution is formed
edexcel_igcse_chemistry_topic 13_reactivity series_001_metal displacement reaction copper and magnesium
edexcel_igcse_chemistry_topic 13 tables_reactivity series_004_metal and aqueous solution of metal salts reactions

2.4.3 Know the order of reactivity of these metals: potassium, sodium, lithium, calcium, magnesium, aluminium, zinc, iron, copper, silver, gold

edexcel_igcse_chemistry_topic 13 tables_reactivity series_005_reactivity series of metals

2.4.4 Know the conditions under which iron rusts

RUSTING OF IRON

  • Rusting is a chemical reaction between iron, oxygen and water
  • Hydrated iron (III) oxide is formed
  • Required conditions:
    • Oxygen 
    • Water
  • Rusting occurs faster in salty water as sodium chloride speeds up the reaction

Iron + Water + Oxygen → Hydrated Iron(III) Oxide

4Fe (s) + 3O2 (g) + xH2O (l) → 2Fe2O3・xH2O (s)

edexcel_igcse_chemistry_topic 13_reactivity series_002_reacton of iron with substances test tube experiment diagram

2.4.5 Understand how the rusting of iron may be prevented by:

  • Barrier methods
  • Galvanising
  • Sacrificial protection
Rusting of iron can be prevented by eliminating contact of iron with oxygen or water

METHOD 1 BARRIER METHOD

  • Rust can be prevented by coating iron with barriers
  • To prevent iron from contacting with water and oxygen
  • Common barrier methods:
    • Grease
    • Oil
    • Paint
    • Plastic
  • However, if the coatings are washed away or scratched, the iron is again exposed to water and oxygen and will rust

METHOD 2 GALVANISING

  • Rusting can be prevented by using metals higher in reactivity than iron
  • Galvanising: iron is protected by coating with a layer of zinc
  • Zn reacts with oxygen and carbon dioxide in the air, which protects the iron
    • Zn loses electrons more readily than Fe
    • Fe stays protected because it accepts the electrons released by Zn, so Fe does not undergo oxidation
  • If the coating is damaged or scratched is still protected from rusting because Zn preferentially corrodes as it is higher up in the reactivity series than iron
edexcel_igcse_chemistry_topic 13_reactivity series_003_galvanisation of metals as sacrificial protection zinc coating

METHOD 3 SACRIFICIAL CORROSION

  • Sacrificial corrosion occurs when a more reactive metal is intentionally allowed to corrode

Example: ships’ hull

  • ships’ hulls sometimes have large blocks of magnesium attached
  • The blocks slowly corrode and provide protection to the hull in the same way the zinc does

2.4.6 Understand the terms:

  • Oxidation
  • Reduction
  • Redox
  • Oxidising agent
  • Reducing agent

in terms of gain or loss of oxygen and loss or gain of electrons.

edexcel_igcse_chemistry_topic 13 tables_reactivity series_006_redox reactions key terms

REDOX REACTION (IN TERMS OF OXYGEN)

  • Zn + CuO → ZnO + Cu
  • This displacement reaction can be classified as a redox reaction
    • Oxidation occurs together with reduction simultaneously
  • CuO loses oxygen, so it undergoes reduction
  • Zn gains oxygen, so it undergoes oxidation
  • CuO oxidises Zn, so it is an oxidising agent
  • Zn reduces CuO, so it is an reducing agent
edexcel_igcse_chemistry_topic 13 tables_reactivity series_007_zinc and copper oxide redox reaction

REDOX REACTION (IN TERMS OF ELECTRON)

  • Displacement reaction can also be analysed in terms of electron transfer
  • An ionic equation is used to help better understand the electron transfer
  • Zn + CuO → ZnO + Cu
    • Ionic equation: Zn + Cu2+ + O2- → Zn2+ + O2- + Cu
    • O2- is the spectator ion that appears on both sides, it is removed for the net ionic equation
    • Net ionic equation: Zn + Cu2+ → Zn2+ + Cu
    • The equation can be further split into two half equations that show oxidation and reduction individually:

                  Zn → Zn2+ + 2e

                  Cu2++ 2e → Cu

  • Zn loses electrons, so it undergoes oxidation
  • Cu2+ gains electrons, so it undergoes reduction
edexcel_igcse_chemistry_topic 13_reactivity series_004_OIL RIG redox reaction trick

2.4.7 Practical: investigate reactions between dilute hydrochloric and sulfuric acids and metals (e.g. magnesium, zinc and iron)

edexcel_igcse_chemistry_topic 13_reactivity series_005_reaction of metals with water hydrogen test diagram

METHODS

  1. Use a measuring cylinder to measure 5cm3 of dilute hydrochloric acid
  2. Add same mass of magnesium ribbon, iron filings and zinc turnings to different test tubes
  3. Observe what happens
  4. Use a light splint to test for any gases given off
  5. Repeat the experiment with dilute sulfuric acid

Observations

edexcel_igcse_chemistry_topic 13 tables_reactivity series_008_metals reaction with HCl and H2SO4 observations

Reactions

edexcel_igcse_chemistry_topic 13 tables_reactivity series_009_metals reaction with HCl and H2SO4 chemical equations

CONCLUSION

  • The metals can be ranked in reactivity order Mg > Zn > Fe
  • The three metals react in the same with both acids
  • Hydrogen and a metal salt solution is produced