Syllabus Edition

First teaching 2023

First exams 2025

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Factors Affecting Rates of Reaction (SL IB Chemistry)

Revision Note

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Factors Affecting Rates of Reaction

What are the factors affecting rate of reaction?

  • The rate of reaction is dependent on any factor that changes the number of successful collisions
  • Five such factors are:
    • Concentration
    • Pressure
    • Temperature
    • Surface area
    • The use of catalysts

Concentration

  • The more concentrated a solution is, the greater the number of particles in a given volume of solvent
  • An increase in concentration causes an increased collision frequency and therefore the frequency of successful collisions increases
  • This leads to an increased rate of reaction

Effect of concentration on rate of reaction

More particles in a given volume result in more successful collisions and therefore a greater rate of reaction

The diagram shows a higher concentration of particles in (b) which means that there are more particles present in the same volume than (a) so the chances and frequency of collisions between reacting particles are increased causing an increased rate of reaction

Pressure

  • An increase in pressure in reactions that involve gases has the same effect as an increased concentration of solutions
  • When the pressure is increased, the particles have less space in which they can move
  • This means that the number of successful collisions increases due to an increased collision frequency
  • An increase in pressure, therefore, increases the rate of reaction

Effect of pressure on rate of reaction

Greater pressure means the particles have less space between them resulting in more successful collisions

The diagram shows a higher pressure in (b) which means that the same number of particles occupy a smaller volume, resulting in an increased collision frequency and therefore increased rate of reaction

Temperature

  • Increasing the temperature of the reaction mixture increases the rate of reaction in the following two ways:
    • At higher temperatures, the particles are moving faster, so collide more frequently
      • A higher number of collisions in total mean a higher number of successful collisions
    • At higher temperatures, a higher proportion of the particles have the activation energy or more
      • This means that a higher proportion of collisions are successful

Effect of temperature on rate of reaction

Increasing temperature increases the frequency of collisions and the proportion of collisions exceeding the activation energy

An increase in temperature causes an increase in the kinetic energy of the particles. The number of collisions increases and the proportion of successful collisions increases 

Surface area

  • Only the particles on the surface of a solid will collide with particles of the other reactant
  • If the surface area is increased, more particles will be on the surface and able to collide with particles of the other reactant
    • This means that there will be more collisions in total and therefore more successful collisions.
  • Surface area can be increased by decreasing the size of the reactant, e.g. from large pieces to a fine powder
    • Large pieces have a much smaller surface area than powders, which have a very large surface area

Effect of surface area on rate of reaction

A larger surface area results in an increased rate of reaction

An increase in surface area of a solid reactant allows more particles to come into contact with each other

Catalysts

  • A catalyst provides the reactants with an alternative reaction pathway which is lower in activation energy than the uncatalysed reaction
    • This means that more collisions will be successful
    • The rate of reaction therefore increases
  • A catalyst does not itself undergo permanent chemical change i.e. it is chemically unchanged at the end of the reaction
  • For more information on catalysts, see our revision notes on Energy Profiles With & Without Catalysts

Worked example

Which of the following factors can result in the rate of a chemical reaction increasing?

   I.  Increasing the total pressure in reactions involving gases

  II.  Raising the temperature in reactions involving gases

 III.  Increasing the particle size of a solid in a reaction

A.   I and II only

B.   I and III only

C.   II and III only

D.   I, II and III

Answer:

The correct option is A.

  • Increasing pressure and raising temperature increases the number of successful collisions
  • Increasing the particle size decreases the surface area and reduces the number of collisions

 

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Caroline

Author: Caroline

Caroline graduated from the University of Nottingham with a degree in Chemistry and Molecular Physics. She spent several years working as an Industrial Chemist in the automotive industry before retraining to teach. Caroline has over 12 years of experience teaching GCSE and A-level chemistry and physics. She is passionate about creating high-quality resources to help students achieve their full potential.