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Diagram shows that a catalyst increases the rate of a reaction by providing an alternative pathway which has a lower activation energy
Reaction Profiles (Edexcel GCSE Chemistry)
Revision Note
Reaction Profiles
Reaction Profiles
- Reaction profiles (sometimes called energy level diagrams) are graphical representations of the relative energies of the reactants and products in chemical reactions
- The energy of the reactants and products are displayed on the y-axis and the reaction pathway is shown on the x-axis
- Arrows on the diagrams indicate whether the reaction is exothermic (downwards pointing) or endothermic (upwards pointing)
- The difference in height between the energy of reactants and products represents the overall energy change of a reaction
- The initial increase in energy represents the activation energy required to start the reaction
- The greater the initial rise then the more energy that is required to get the reaction going e.g., more heat needed
Reaction profile of an exothermic reaction and an endothermic reaction
- Energy is given out in exothermic reactions
- The energy of the products will be lower than the energy of the reactants, so the change in energy is negative
- This is represented on the reaction profile with a downwards-arrow as the energy of the products is lower than the reactants
- Energy is taken in endothermic reactions
- The energy of the products will be higher than the energy of the reactants, so the change in energy is positive
- This is represented on the reaction profile with an upwards-arrow as the energy of the products is higher than the reactants
Examiner Tip
You should be able to draw clear and fully labelled reaction profile diagrams for both types of reactions and you should be able to identify a reaction from its reaction profile.
Activation Energy
- The minimum energy the colliding particles need in order to react is known as the activation energy
- The activation energy can be lowered by the addition of a catalyst
- This means that a higher percentage of the particles will have the minimum energy required to react, hence there are a higher number of successful collision
- Therefore more product molecules are produced in a shorter time, thus increasing the rate of reaction
- Reaction profile graphs show the relative energy levels of reactants and products on a graph
- The reaction profile graph below shows the effect of catalysts on reactions
Reaction Profiles Showing ∆H and EA
- Catalysts provide the reactants another pathway which has a lower activation energy
- By lowering Ea, a greater proportion of molecules in the reaction mixture have sufficient energy for an successful collision
- As a result of this, the rate of the catalysed reaction is increased compared to the uncatalyzed reaction
Molecules with the activation energy lead to successful collisions
Examiner Tip
The activation energy is constant for a particular reaction. Reactions with a low activation energy occur readily as little energy is needed to break the bonds and initiate the reaction.
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