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Lecture
Chapter 3: Entropy of Subsystems
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Entropy and the Second Law of Thermodynamics
Discusses entropy, the second law of thermodynamics, and their implications in thermodynamic systems.
Classical Thermodynamics: Fundamentals and Principles
Covers classical thermodynamics fundamentals, including boundary conditions, internal energy, entropy, and equilibrium principles.
Entropy in Thermodynamics
Explores entropy in thermodynamics, including Gibbs equations, ideal gases, and entropy balance in closed systems.
Spontaneous Processes: Entropy and Gibbs Free Energy
Explores spontaneous processes, entropy, and Gibbs free energy to predict chemical reaction spontaneity based on entropy changes.
Entropy and Thermodynamics: Microstates and Macrostates
Covers the concepts of microstates and macrostates in thermodynamics, focusing on entropy and its implications for isolated systems.
Entropy and the Second Law of Thermodynamics
Discusses entropy and the second law of thermodynamics, focusing on reversible processes and their implications in thermodynamic systems.
Entropy and Thermodynamics: Linking Concepts and Principles
Discusses the relationship between entropy and the second principle of thermodynamics, emphasizing the importance of reversible transformations in calculating entropy.
Nonequilibrium Free Energy Equality
Covers the nonequilibrium equality for free energy differences proposed by Crooks and Jarzynski in 1997.
Energy Minimization in Biological Systems: Equilibrium Models
Covers energy minimization models in biological systems, focusing on equilibrium and the roles of entropy and hydrophobicity.
Exergy and Electrical Motors: Fuel Cell Insights
Discusses exergy, electrical motors, and introduces fuel cells, focusing on their efficiency and operational principles.
