Maxwell–Boltzmann Distributions (AQA A Level Chemistry)
Revision Note
Maxwell-Boltzmann Distribution Curve - Temperature
Maxwell-Boltzmann distribution curve
A Maxwell-Boltzmann distribution curve is a graph that shows the distribution of energies at a certain temperature
In a sample of a gas, a few particles will have very low energy, a few particles will have very high energy, but most particles will have energy in between
The Maxwell-Boltzmann distribution curve shows the distribution of the energies and the activation energy
The graph shows that only a small proportion of molecules in the sample have enough energy for an effective collision and for a chemical reaction to take place
Changes in temperature
When the temperature of a reaction mixture is increased, the particles gain more kinetic energy
This causes the particles to move around faster resulting in more frequent collisions
Furthermore, the proportion of successful collisions increases, meaning a higher proportion of the particles possess the minimum amount of energy (activation energy) to cause a chemical reaction
With higher temperatures, the Boltzmann distribution curve flattens and the peak shifts to the right
The Maxwell-Boltzmann distribution curve at T oC and when the temperature is increased by 10 oC
Therefore, an increase in temperature causes an increased rate of reaction due to:
There being more effective collisions as the particles have more kinetic energy, making them move around faster
A greater proportion of the molecules having kinetic energy greater than the activation energy
Examiner Tips and Tricks
The increase in proportion of molecules having kinetic energy greater than the activation has a greater effect on the rate of reaction than the increase in effective collisions
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