Lectures related to Potentials: Introduction

Thermodynamics: Exploring Thermodynamic Potentials and Equilibrium States

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

Thermodynamic Functions and Equilibria: Mathematical Tools

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

Thermodynamic Potentials

Explains thermodynamic potentials and their significance in thermodynamics.

Thermodynamic Evolution

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

Heat Transfer: Equilibrium Approach and Thermodynamic Potentials

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

Thermodynamic Potentials

Explains the concept of energy minimization and the role of free energies as thermodynamic potentials in closed systems.

Approach to Thermodynamic Equilibrium in Closed Systems

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

Phase Transitions: Understanding Thermodynamic Stability

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

Thermodynamics: Real Gases and Phase Transitions

Discusses the thermodynamic behavior of real gases and phase transitions, including the Joule-Thomson effect and latent heat values.

Chemical Potential and Thermodynamic Functions in Mixtures

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

Thermodynamic Equilibria: Solution Models

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

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.

Approach to Thermodynamic Equilibrium: Electrolysis of Water

Explores the application of thermodynamic potentials through the example of electrolysis of water.

Physical Meaning of Potentials (conclusion)

Explores the equilibrium between subsystems, heat, work, and energy in thermodynamics.

Thermodynamic Properties of Ideal Gases

Covers the thermodynamic properties of ideal gases, including equilibrium distance, repulsive force, and kinetic energy.

Thermodynamic Functions and State Variables

Explores state variables, thermodynamic functions, and their importance in studying thermodynamic systems.

Physical Sens of Potentials

Explores the physical sense of potentials, equilibrium between subsystems, and work and free energy in systems.

Exergy and Electrical Motors: Fuel Cell Insights

Discusses exergy, electrical motors, and introduces fuel cells, focusing on their efficiency and operational principles.

Thermodynamic Equilibria: Concepts and Calculations

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

Thermodynamic Systems: First Principle and Energy Conservation

Discusses thermodynamic systems, the first principle of thermodynamics, and energy conservation in various contexts.