Reactivity Series (Cambridge (CIE) IGCSE Chemistry)
Revision Note
Written by: Caroline Carroll
Reviewed by: Stewart Hird
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Reactivity series
What is the reactivity series of metals?
The chemistry of the metals is studied by analysing their reactions with water and acids
Based on these reactions a reactivity series of metals can be produced
The series can be used to place a group of metals in order of reactivity based on the observations of their reactions with water and acids
The non-metals hydrogen and carbon are also included in the reactivity series as they are used to extract metals from their oxides
Reactivity Series of Metals
Metal | Reaction with cold water | Reaction with acid | Reaction with oxygen |
|---|---|---|---|
Most reactive | |||
Potassium | Reacts violently | Reacts violently | Reacts quickly in air |
Sodium | Reacts quickly | Reacts quickly | Reacts quickly in air |
Calcium | Reacts less strongly | Reacts vigorously | Reacts readily |
Magnesium | Slow reaction (reacts with steam) | Reacts vigorously | Reacts readily |
Aluminium | Slow reaction (reacts with steam) | Reacts readily | Reacts readily |
Carbon | |||
Zinc | Very slow reaction (reacts slowly with steam) | Reacts less strongly | Reacts |
Iron | Very slow reaction (reacts slowly with steam) | Reacts less strongly | Reacts |
Hydrogen | |||
Copper | No reaction with steam or water | No reaction | Reacts |
Silver | No reaction with steam or water | No reaction | Reacts |
Gold | No reaction with steam or water | No reaction | No reaction |
Least reactive | |||
How to remember the reactivity series
Observations from the table above allow the following reactivity series to be deduced
The order of this reactivity series can be memorised using the following mnemonic
“Please send cats, monkeys and cute zebras into hot countries signed Gordon"
Reactivity Series Mnemonic
Metal | Abbreviation |
|---|---|
Most reactive | |
Potassium | P - Please |
Sodium | S - send |
Calcium | C - cats, |
Magnesium | M - monkeys, |
Aluminium | A - and |
Carbon | C - cute |
Zinc | Z - zebras |
Iron | I - into |
Hydrogen | H - hot |
Copper | C - countries |
Silver | S - signed |
Gold | G - Gordan |
Least reactive | |
Reaction of metals with cold water
The more reactive metals will react with cold water to form a metal hydroxide and hydrogen gas
Potassium, sodium and calcium all undergo reactions with cold water as they are the most reactive metals:
metal + water → metal hydroxide + hydrogen
For example, calcium and potassium:
Ca (s) + 2H2O (l) → Ca(OH)2 (aq) + H2 (g)
2K (s) + 2H2O (l) → 2KOH (aq) + H2 (g)
Reactions of metals with steam
Metals just below calcium in the reactivity series do not react with cold water but will react with steam to form a metal oxide and hydrogen gas, for example, magnesium:
Mg (s) + H2O (g) → MgO (s) + H2 (g)
Reaction with dilute acids
Only metals above hydrogen in the reactivity series will react with dilute acids
Unreactive metals below hydrogen, such as gold, silver and copper, do not react with acids
The more reactive the metal then the more vigorous the reaction will be
Metals that are placed high on the reactivity series such as potassium and sodium are very dangerous and react explosively with acids
When acids react with metals they form a salt and hydrogen gas:
The general equation is:
metal + acid ⟶ salt + hydrogen
Some examples of metal-acid reactions and their equations are given below:
Acid-Metal Reactions Table
Metal | Sulfuric acid | Hydrochloric acid |
|---|---|---|
Magnesium | Mg + H2SO4 → MgSO4 + H2 | Mg + 2HCl → MgCl2 + H2 |
Zinc | Zn + H2SO4 → ZnSO4 + H2 | Zn + 2HCl → ZnCl2 + H2 |
Iron | Fe + H2SO4 → FeSO4 + H2 | Fe + 2HCl → FeCl2 + H2 |
Reaction with oxygen
Some reactive metals, such as the alkali metals, react easily with oxygen
Silver, copper and iron can also react with oxygen although much more slowly
When metals react with oxygen a metal oxide is formed, for example, copper:
metal + oxygen → metal oxide
2Cu (s) + O2 (g) → 2CuO (s)
Gold does not react with oxygen
Deducing the order of reactivity
The order of reactivity of metals can be deduced by making experimental observations of reactions between metals and water, acids and oxygen
The more vigorous the reaction of the metal, the higher up the reactivity series the metal is
A combination of reactions may be needed, for example, the order of reactivity of the more reactive metals can be determined by their reactions with water
The less reactive metals react slowly or not at all with water, so the order of reactivity would need to be determined by observing their reactions with dilute acid
Temperature change in a reaction can also be used to determine the order of reactivity
The greater the temperature change in a reaction involving a metal, the more reactive the metal is
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