Kinetics

Created by

Ashling Asirifi

Cards (26)

Activation energy (EA) 
The minimum energy which particles need to collide to start a reaction
View source
Maxwell-Boltzmann energy distribution 
Shows the spread of energies that molecules of a gas or liquid have at a particular temperature
View source
The energy distribution should go through the origin because there are no molecules with no energy
View source
The energy distribution should never meet the x axis, as there is no maximum energy for molecules
View source
The mean energy of the particles is not at the peak of the curve
View source
The area under the curve represents the total number of particles present
View source
A few have low energies because collisions cause some particles to slow down
View source
Only a few particles have energy greater than the EA
View source
Most molecules have energies between the two extremes but the distribution is not symmetrical (normal)
View source
Emp 
The most probable energy (not the same as mean energy)
View source
As the temperature increases 
The distribution shifts towards having more molecules with higher energies
View source
The total area under the curve should remain constant because the total number of particles is constant
View source
At higher temperatures the molecules have a wider range of energies than at lower temperatures
View source
At higher temps both the Emp and mean energy shift to higher energy values, although the number of molecules with those energies decrease
View source
Reaction rate 
The change in concentration of a substance in unit time
View source
The initial rate is the rate at the start of the reaction where it is fastest
View source
At higher concentrations (and pressures) 
There are more particles per unit volume and so the particles collide with a greater frequency and there will be a higher frequency of effective collisions
View source
If concentration increases, the shape of the energy distribution curves do not change (i.e. the peak is at the same energy) so the Emp and mean energy do not change
View source
The curves will be higher, and the area under the curves will be greater because there are more particles
View source
More molecules have energy > EA (although not a greater proportion)
View source
Increasing surface area 
Causes successful collisions to occur more frequently between the reactant particles and this increases the rate of the reaction
View source
Catalyst 
Increases reaction rates without getting used up by providing an alternative route or mechanism with a lower activation energy
View source
As the temperature increases
The energy of the particles increases, the particles collide more frequently and more often with energy greater than the activation energy, so more collisions result in a reaction
View source
As the temperature increases, a significantly bigger proportion of particles have energy greater than the activation energy, so the frequency of successful collisions increases
View source
With a lower activation energy 
More particles have energy greater than the activation energy
View source
Reaction progress 
1. Reactants
2. Activation energy without catalyst
3. Activation energy with catalyst
4. Products
View source