Collision Theory (Edexcel International AS Chemistry): Revision Note
Changing Reaction Conditions
Collision Theory
When reactants come together the kinetic energy they possess means their particles will collide and some of these collisions will result in chemical bonds being broken and some new bonds being formed
The rate of a chemical reaction depends on factors including:
collision frequency
collision energy
activation energy
Ultimately, the rate of reaction depends on the number of successful / effective collisions that happen per unit time
A successful / effective collision is where the particles collide in the correct orientation and with sufficient energy for a chemical reaction to occur
An unsuccessful / ineffective collision is when particles collide in the wrong orientation or when they don’t have enough energy and bounce off each other without causing a chemical reaction
(a) shows an ineffective collision due to the particles not having enough energy whereas (b) shows an effective collision where the particles have the correct orientation and enough energy for a chemical reaction to take place
Collision frequency
If a chemical reaction is to take place between two particles, they must first collide
The number of collisions between particles per unit time in a system is known as the collision frequency
The collision frequency of a given system can be altered by:
Changing the concentration of the reactants
Increasing the concentration will mean that there are more particles available to react in the same volume / amount of space leading to more frequent, successful collisions
Changing the total pressure
Increasing the pressure means that there will be the same number of particles but in a smaller volume leading to more frequent, successful collisions
Changing the temperature
This will increase the kinetic energy of the reacting particles, ultimately, resulting in more frequent, successful collisions
Changing the size of the reacting particles
This is achieved by increasing the surface area which means that there are more particles available to react in the same volume / amount of space leading to more frequent, successful collisions
Collision energy
Not all collisions result in a chemical reaction
Most collisions just result in the colliding particles bouncing off each other
Collisions which do not result in a reaction are known as unsuccessful collisions
Unsuccessful collisions happen when the colliding species do not have enough energy to break the necessary bonds
If they do not have sufficient energy, the collision will not result in a chemical reaction
If they have sufficient energy, they will react, and the collision will be successful
Activation Energy
For a reaction to take place, the reactant particles need to overcome a minimum amount of energy
This energy is called the activation energy (Ea)
In exothermic reactions, the reactants are higher in energy than the products
In endothermic reactions, the reactants are lower in energy than the products
Therefore, the Ea in endothermic reactions is relatively larger than in exothermic reaction
The diagram shows that the reactants are higher in energy than the products in the exothermic reaction, so the energy needed for the reactants to go over the energy barrier is relatively small
The diagram shows that the reactants are lower in energy than the products in the endothermic reaction, so the energy needed for the reactants to go over the energy barrier is relatively large
Even though particles collide with each other in the same orientation, if they don’t possess a minimum energy that corresponds to the Ea of that reaction, the reaction will not take place
Therefore, for a collision to be effective the reactant particles must collide in the correct orientation AND possess a minimum energy equal to the Ea of that reaction
The success of a reaction can be measured using the rate of reaction, which could be achieved by measuring:
The amount of reactant lost
The amount of product formed
The time it takes for a specific colour change to happen
The time it takes for a certain amount of precipitate to form
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