Inquiry Question: 'Why do some chemical reactions not proceed to completion?'
Understandings:
• Activation energy (Ea) is the minimum energy that colliding molecules need in order to have successful collisions leading to a reaction.
• By decreasing Ea, a catalyst increases the rate of a chemical reaction, without itself being permanently chemically changed.
Applications and skills:
The average speed at which particles travel is measured as Temperature.
Particles at a higher temperature will travel faster than those with lower energy.
In the above diagram you can see that particles at a higher temperature will travel faster and speed is represented by the size and thickness of the arrows.
As particles will travel faster they will collide more often thus - At higher Temperatures the frequency of successful collisions will increase
Concentration is defined as the number of particles of a substance in a given area. In Chemistry we use Litres as the standard area.
In a chemical reaction - if you have more particles of reactant then you are more likely to have more collisions.
Thus Increasing Concentration will increase the frequency of successful collisions.
As Gases are the only phase of matter that can be compressed changing Pressure only effects gaseous reactions.
When the Pressure of a reaction is increased Volume is reduced. This means that the space between the particles is reduced at higher pressure and thus they have a smaller distance to travel to collide.
Therefore the frequency of successful collisions is higher at higher pressures for gaseous reactions.
The Surface Area of Reactants only relates to Solids.
When particles are clumped together in solids the inner particles are unavailable to react as other particles are found in between them and the particles on the surface.
Thus if you split these particles up so they are all exposed to react you would increase the rate of reaction.
We say that particles are more available to react this would increase the frequency of successful collisions
Catalysts are termed as 'A Species that Speeds up a Chemical Reaction without being used up (or chemically altered) in the process'
They are often (but not always) metals found in the Transition Metals area of the Periodic Table.
They work by either offering an alternate reaction pathway of lower activation energy
OR
Providing a surface for Reaction