Chemical reactions are controlled by thermodynamics and kinetics. Thermodynamics determines if a reaction
is favored to occur, while kinetics determines if the reaction will occur on a reasonable time scale. The
thermodynamic favorability of reactions is controlled by changes in entropy and enthalpy, and the temperature at
which the reaction takes place. Gibb's Law of Thermodynamics is a function that relates these three factors,
which are important in determining the spontaneity of a chemical reaction. When the free energy of a reaction becomes
negative, the reaction is spontaneous.
This module explores the relationship between the thermodynamic properties of reactions, enthalpy, entropy,
and free energy. Plots of free energy as a function of temperature are constructed for several different
reactions, each of which has different changes in entropy and enthalpy values. Note that the calculations
used here assume that the values of enthalpy and entropy from reactions are independent of temperature. While
this assumption leads to free energy values close to the correct values, it is not strictly true.
INSTRUCTIONS: