Lectures related to Applications of Thermodynamic Potentials: Statistical View and Chemical Mixtures

Thermodynamic Functions and Equilibria: Mathematical Tools

Discusses thermodynamic functions, their mathematical tools, and key relationships between state variables in thermodynamics.

Thermodynamics: Exploring Thermodynamic Potentials and Equilibrium States

Covers thermodynamic potentials and their role in system equilibrium with reservoirs.

Phase Transitions: Understanding Thermodynamic Stability

Explores phase transitions in thermodynamics, focusing on stability criteria and real-world applications.

Heat Transfer: Equilibrium Approach and Thermodynamic Potentials

Reviews heat transfer mechanisms, entropy, and thermodynamic potentials in relation to equilibrium and Carnot cycles.

Chemical Potential and Thermodynamic Functions in Mixtures

Covers chemical potential variations and thermodynamic functions in mixtures, emphasizing their implications in real and ideal gases.

Phase Transitions: Stability Criteria

Explores phase transitions and stability criteria in thermodynamics, emphasizing entropy, internal energy, and thermodynamic potentials.

Thermodynamic Equilibria: Solution Models

Explores solution models for binary mixtures, including regular and real solutions, exchange energy, and thermodynamic quantities.

Thermodynamic Equilibria: Concepts and Calculations

Covers basic thermodynamic conventions, chemical potential, vapor pressure, and the relationship between chemical potential and pressure in gases.

Thermodynamics of Simple Subsystems: Heat and Matter Transfer

Discusses the thermodynamics of simple subsystems, focusing on heat and matter transfer, entropy, and chemical equilibrium conditions.

Chemical Thermodynamics: Principles and Applications

Provides an overview of chemical thermodynamics, focusing on potential, reaction kinetics, and the relationship between thermodynamic properties and chemical reactions.

Second Principle: Thermodynamic Systems and Entropy Analysis

Covers the second principle of thermodynamics, focusing on entropy and reversible processes in thermodynamic systems.

Entropy and the Second Law of Thermodynamics

Discusses entropy, the second law of thermodynamics, and their implications in thermodynamic systems.

Approach to Thermodynamic Equilibrium in Closed Systems

Explores the rules for approaching equilibrium in closed systems and the minimization of thermodynamic potentials.

Open Systems, Thermodynamic Potentials

Explores state variables, homogeneous functions, chemical potential, and thermodynamic potentials in open systems.

Thermodynamic Evolution

Discusses the evolution of a system coupled to a reservoir and the work done on a system coupled to a heat reservoir.

Thermodynamic Potentials

Explores Joule expansion, Maxwell's relations, Joule-Thomson expansion, density quantities, and Lagrange equations in thermodynamics.

Thermodynamic Equilibrium

Covers the law of mass action, equilibrium establishment, and application examples in thermodynamics.

Entropy: Heat and Processes

Explores entropy, heat transfer, friction, and mechanical power conversion in various systems.

Approach to Thermodynamic Equilibrium: Open Systems

Explains the approach of open systems to thermodynamic equilibrium and the concept of potential chemical.

Phase Equilibria: Understanding Vapor-Liquid Separation

Provides an overview of vapor-liquid phase diagrams and their role in separation processes, focusing on phase equilibria and the Gibbs phase rule.