#5.2.2a
explanation that entropy is a measure of the dispersal of energy in a system which is greater, the more disordered a system
#5.2.2b
explanation of the difference in magnitude of the entropy of a system:
(i) of solids, liquids and gases
(ii) for a reaction in which there is a change in the number of gaseous molecules
#5.2.2c
calculation of the entropy change of a system, ∆S, and related quantities for a reaction given the entropies of the reactants and products
#5.2.2d
explanation that the feasibility of a process depends upon the entropy change and temperature in the system, T∆S, and the enthalpy change of the system, ∆H
#5.2.2e
explanation, and related calculations, of the free energy change, ∆G, as: ∆G = ∆H – T∆S (the Gibbs’ equation) and that a process is feasible when ∆G has a negative value
#5.2.2f
the limitations of predictions made by ∆G about feasibility, in terms of kinetics.