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Molecular Driving Forces |
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Table of Contents
- Principles of Probability
- Extremum Principles Predict Equilibria
- Heat, Work & Energy
- Multivariate Calculus
- Entropy & the Boltzmann Law
- Thermodynamic Driving Forces
- The Logic of Thermodynamics
- Laboratory Conditions & Free Energies
- General Forces, Maxwell's Relations & Mixtures
- The Statistical Mechanics of Simple Gases & Solids
- What Is Temperature? What Is Heat Capacity?
- Chemical Equilibria
- Equilibria Between Liquids, Solids, & Gases
- Solutions & Mixtures
- The Solvation & Transfer of Molecules Between Phases
- Physical Kinetics: Diffusion, Permeation & Flow
- Microscopic Dynamics
- Chemical Kinetics & Transition States
- Coulomb's Law of Electrostatic Forces
- The Electrostatic Potential
- Electrochemical Equilibria
- Salt Ions Shield Charged Objects in Solution
- Intermolecular Interactions
- Phase Transitions
- Cooperativity: The Landau, Ising & Helix-Coil Models
- Adsorption, Binding & Catalysis
- Multi-site & Cooperative Ligand Binding
- Bio & Nano Machines
- Water
- Water as a Solvent
- Polymer Solutions
- Polymer Elasticity & Collapse
- Polymers Resist Confinement & Deformation
Appendices
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