Exothermic and Endothermic Reactions

Reactions can be split into exothermic and endothermic.

Exothermic Reaction

In an exothermic reaction, heat energy is released to the surroundings causing an increase in surrounding temperature.

Exothermic reactions can be very useful. For example, let’s look at the combustion of wood:

In this case, we are burning a fuel (CxHy) which is reacting with oxygen (O2) from the air. As well as releasing carbon dioxide (CO2) and water (H2O), energy is also released.

  • The heat energy will transfer to surrounding particles and they will begin to move faster.

We can also use the release of heat energy to keep ourselves warm, to cook food and many other uses.

  • Two more examples of exothermic reactions are oxidation and neutralisation

Some uses of exothermic reactions:

  • Self-heating cans
  • Hand warmers
  • A fireworks display

Endothermic Reaction

In an Endothermic reactions involve taking in heat energy, causing a reduction in the temperature of the surroundings.

Endothermic reactions can also be useful. As you can see below, an example of an endothermic reaction is water electrolysis.

The electrolysis of water (H2O) forms hydrogen (H2) and oxygen molecules. For this reaction to take place, electrical energy must be absorbed, which is why this is an endothermic reaction.

Another endothermic reaction is thermal decomposition.

  • An example of a thermal decomposition reaction is heating calcium carbonate to produce carbon dioxide and quicklime (calcium oxide).
  • Calcium carbonate → Carbon dioxide + Calcium oxide
  • CaCO3 → CO2 + CaO

Some uses of endothermic reactions:

  • Ice sports injury packs
  • Water evaporation

Testing for Exothermic or Endothermic Reactions

You can complete an experiment to test whether a reaction is exothermic or endothermic.

For this experiment, you will need a polystyrene cup, a thermometer and your reactants.

  1. Add your first reactant to the cup
  2. Put the thermometer in the cup and measure the starting temperature of the reactant
  3. Add the second reactant to the cup and measure the temperature change
  • We use a polystyrene cup in this experiment is because it is a very good insulator. This means it won’t affect the temperature change

The thermometer is measuring the temperature of the surroundings.

Exothermic Reaction

If there is a increase in surrounding temperature, this would mean an exothermic reaction is taking place. As the reaction is giving out heat energy.

Endothermic Reaction

If there is a decrease in surrounding temperature, this would mean an endothermic reaction is taking place. As the reaction is taking in heat energy.