Particle Theory (WJEC GCSE Chemistry)

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Explaining Rates

  • Particle theory states that chemical reactions occur only when the reactant particles collide to form products
  • These collisions can be described as successful or unsuccessful:
    • A successful collision means that the reactant particles collide and rearrange to form the products

A successful collision

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The collision is successful resulting in a rearrangement of atoms to form the products 

    • An unsuccessful collision means that the reactant particles just bounce off each other and remain unchanged

An unsuccessful collision

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The collision is unsuccessful resulting in no rearrangement of atoms  

  • A greater number of collisions in a given time leads to more frequent, successful collisions which means a faster reaction / a higher rate of reaction
  • Increasing the frequency of successful collisions means that a greater proportion of reactant particles collide to form product molecules
  • We have seen previously that the following factors influence the rate of reaction:
    • Increasing concentration / pressure
    • Increasing temperature
    • Increasing the surface area of a solid reactant
  • We can use particle theory to explain why these factors influence the reaction rate

How increasing concentration affects rate

  • Increasing the concentration of a solution increases the rate of reaction 
  • Increasing the concentration means that there are more reactant particles in a given volume
    • This causes more collisions per second
    • Leading to more frequent and successful collisions per second
    • Therefore, the rate of reaction increases 
  • If you double the number of particles, you will double the number of collisions per second
    • The number of collisions is proportional to the number of particles present

Diagram showing the effect of increasing concentration

Reaction Kinetics Concentration on Rate of Reaction, downloadable AS & A Level Chemistry revision notes

A higher concentration of particles in (b) means that there are more particles present in the same volume than (a) so the number of collisions and successful collisions between particles increases causing an increased rate of reaction

How increasing pressure affects rate

  • Increasing the pressure of a gas increases the rate of reaction 
  • Increasing the pressure means that there are the same number of reactant particles in a smaller volume
    • This causes more collisions per second
    • Leading to more frequent and successful collisions per second
    • Therefore, the rate of reaction increases 

Diagram showing the effect of increasing pressure

Oh~cvjGH_changing-pressure---rates

The higher pressure (b) means that there are the same number of particles present in a smaller volume than (a) so the number of collisions and successful collisions between particles increases causing an increased rate of reaction

How increasing temperature affects rate

  • Increasing the temperature increases the rate of reaction 
  • Increasing the temperature means that the particles have more kinetic energy
    • This causes more collisions per second
    • Leading to more frequent and successful collisions per second
    • Therefore, the rate of reaction increases
  • The effect of temperature on collisions is not so straightforward as concentration or surface area; a small increase in temperature causes a large increase in rate
  • For aqueous and gaseous systems, a rough rule of thumb is that for every 10 oC increase in temperature, the rate of reaction approximately doubles

Diagram showing the effect of increasing temperature

Effect of temperature, downloadable IB Chemistry revision notes

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

How increasing the surface area affects rate

  • Increasing the surface area increases the rate of reaction 
  • Increasing the surface area means that a greater surface area of particles will be exposed to the other reactant
    • This causes more collisions per second
    • Leading to more frequent and successful collisions per second
    • Therefore, the rate of reaction increases
  • If you double the surface area, you will double the number of collisions per second

Diagram showing the effect of increasing surface area

Effect of surface area, downloadable IB Chemistry revision notes

An increase in surface area means more collisions per second

Higher Tier

  • Particle theory states that chemical reactions occur only when the reactant particles collide with sufficient energy to react
    • The minimum amount of energy needed is called the activation energy, which is different for each reaction
  • Particles that collide with insufficient energy have unsuccessful collisions and just bounce off each other
  • Particles that collide with sufficient energy, i.e. greater than or equal to the activation energy, have successful collisions and the reactant atoms rearrange to form the products
  • Increasing the number of successful collisions means that a greater proportion of reactant particles collide to form product molecules
  • The following all affect the rate of reaction which is dependent on the number of successful collisions per unit time:
    • The number of particles per unit volume - more particles in a given volume will produce more frequent successful collisions
    • The frequency of collisions - a greater number of collisions per second will give a greater number of successful collisions per second
    • The kinetic energy of the particles - greater kinetic energy means a greater proportion of collisions will have an energy that exceeds the activation energy and the more frequent the collisions will be as the particles are moving quicker, therefore, more collisions will be successful
    • The activation energy - if a reaction has a high activation energy, there will be fewer collisions with an energy that exceeds the activation energy and fewer collisions will be successful
  • So, the rate of a reaction is dependent on the energy of collisions as well as the number of collisions

Examiner Tip

  • Temperature is the only factor that directly affects the energy of collisions because the increased thermal energy is converted to increased kinetic energy in the particles
    • Concentration, pressure and surface area only affect the number of collisions
  • Temperature affects reaction rate by increasing the number of collisions and increasing the energy of the collisions
    • Of these two, the increase in energy is the more important one.

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Richard

Author: Richard

Expertise: Chemistry

Richard has taught Chemistry for over 15 years as well as working as a science tutor, examiner, content creator and author. He wasn’t the greatest at exams and only discovered how to revise in his final year at university. That knowledge made him want to help students learn how to revise, challenge them to think about what they actually know and hopefully succeed; so here he is, happily, at SME.