3: Chemical Thermodynamics

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3.1: Introduction to Thermodynamics
Thermodynamics is the study of the relationship between heat (or energy) and work. In other words, thermodynamics looks at how we can put energy into a system (whether it is a machine or a molecule) and make it do work. Alternatively, we might be able to do some work on a system and make it produce energy (like spinning the turbines in a power station to produce electricity).
3.2: Bond Energies
Bond energies are limited in their application for the reasons discussed earlier. They were: values are for gases only many values are averages These are serious drawbacks if you want energy information about most reactions.
3.3: Describing a Reaction - Energy Diagrams and Transition States
3.4: Reactivity and Selectivity
In general, high reactivity correlates with low selectivity and vice versa. Depending on the structure of the substrate, reaction conditions can be optimized for high reactivity or high selectivity and occasionally for both.
3.5: The Principle of Microscopic Reversibility
The equilibrium constant expression is an important and fundamental relationship that relates the concentrations of reactants and products at equilibrium. We deduce it above from a simple model for the concentration dependence of elementary-reaction rates. In doing so, we use the criterion that the time rate of change of any concentration must be zero at equilibrium. Clearly, this is a necessary condition; if any concentration is changing with time, the reaction is not at equilibrium.
- 3.5.1: Microscopic Reversibility and the Second Law
3.6: Sterics and Conformation

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