http://www.ck12.org Chapter 20. Entropy and Free Energy
20.2 Spontaneous Reactions and Free Energy
Lesson Objectives
- Define Gibbs free energy, and be able to calculate the change in Gibbs free energy for a given process when
provided with the appropriate data. - Use the value for Gibbs free energy to predict whether a reaction will occur spontaneously.
Lesson Vocabulary
- Gibbs free energy: A thermodynamic quantity that combines enthalpy and entropy into a single value in order
to predict whether or not a process is spontaneous.
Check Your Understanding
- What must be true for a reaction to be considered spontaneous?
Gibbs Free Energy
We have learned that a spontaneous reaction must increase the total entropy in the universe:∆Suniv>0. To analyze
the entropic effects of a given process, we generally break this quantity down into two separate components. This is
expressed with the following equation:
∆Suniv=∆Ssys+∆Ssurr>0In general, the entropy change for a chemical reaction or phase change can be easily determined from standard
entropy values. Additionally, we saw in the previous lesson that the following relationship is true:
∆Ssurr= -∆HTsys.Substituting this into the above equation, we get the following:
∆Suniv=∆Ssys-∆HTsys>0This equation can then be rearranged as follows:
T∆Suniv= -∆Hsys+ T∆Ssys>0- T∆Suniv=∆Hsys- T∆Ssys<0