FACTORS AFFECTING REACTION RATEthe reactant molecules. However, as the molecules of M and N approach each other
their outer electrons repel, so preventing the reactants from getting close enough for
the bonding electrons to be rearranged. The reactant molecules then simply ‘bounce
off’ each other, and the collision does not result in chemical change.
In order to overcome the repulsive forces between the molecules so that the
molecules are forced together, the colliding molecules must between them possess a
minimum value of kinetic energy, termed the activation energy(EA). Unless the
sum of the energies possessed by the reactant molecules involved in the collision
equals (or exceeds) this minimum energy, no reaction can take place (Fig. 14.5).
The activation energy for a reaction does not itselfvary with temperature, but
increasing the temperature of a material does increase the average energy of its
molecules.It follows that the higher the temperature, the greater is the fraction of colliding
molecules which possess at least the activation energy(Fig. 14.6). We then expect more
collisions to result in chemical reaction at higher temperatures, and this explains the
experimental observation of an increased reaction rate.
The rate of some reactions changes more rapidly with temperature than others
(see Fig. 14.4), and we are now in a position to explain this observation by
assuming that reactions whose rates are very sensitive to temperature possess relatively
high activation energies:
●The speed of a reaction which possesses a large activation energy changes rapidly
with temperature because few of the reacting molecules will possess an energy
equal to (or greater than) EAat room temperature. Therefore, an increase in tem-
perature will drastically increase the number of collisions which result in chemical
change.247Fig. 14.5(a) Unsuccessful collision – the kinetic energy of M
and N is less than EAand so the reactants bounce apart.
(b) Successful collision – the kinetic energy of M and N is greater
or equal to EAand a bond is formed between M and N.Fig. 14.6The graph shows the spread of molecular energy for a mixture of gases at low
temperature and at high temperature. The higher the temperature, the greater the fraction of
molecules possessing energy equal to (or greater than) the activation energy EA.