Lectures related to Thermodynamics: Fundamentals and Applications

Covers energy transformation in thermodynamics, discussing laws, entropy, and spontaneity criteria for reactions.

Chemical Thermodynamics: Fundamentals and Applications

Covers the basics of chemical thermodynamics, including enthalpy, phase changes, and calculation methods.

Thermodynamics: Energy Conversion and System Analysis

Covers the basics of thermodynamics, focusing on energy conversion systems and the principles governing heat to work conversion.

Thermodynamics: Entropy and Gibbs Free Energy

Explores thermodynamics, entropy, and Gibbs free energy to predict reaction spontaneity and understand absolute entropy.

Thermodynamics & Phase Diagrams

Explores thermodynamics, phase diagrams, Gibbs free energy, and their role in materials science.

Thermodynamics II: Entropy and Gibbs Energy

Explores entropy, Gibbs energy, spontaneity of reactions, and equilibrium constants in thermodynamics.

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Thermodynamics: Entropy and Ideal Gases

Explores entropy, ideal gases, and TDS equations in thermodynamics, emphasizing the importance of the Clausius inequality and the Carnot cycle.

Chemical Thermodynamics: State Functions and Enthalpy

Covers chemical thermodynamics, state functions, enthalpy, spontaneous processes, and limitations of the first law.

Thermodynamics: Entropy, Spontaneity, and Free Energy

Explores heat capacity, entropy, spontaneity, and free energy in chemical reactions, emphasizing the relationship between entropy and disorder.

Entropy and the Second Law of Thermodynamics

Covers entropy, its definition, and its implications in thermodynamics.

Chemistry: Atomic Structure and Thermodynamics

Covers atomic structure, thermodynamics, material properties, and ideal gas law.

Exergy and Electrical Motors: Fuel Cell Insights

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

Thermodynamics: Entropy and State Functions

Explores entropy, state functions, reversible processes, and the Carnot cycle in thermodynamics.

Chemical Thermodynamics: Entropy and Gibbs Energy

Explores chemical thermodynamics, entropy, enthalpy, Gibbs energy, and chemical equilibrium.

Thermodynamics: Energy, Work, and Chemical Reactions

Discusses thermodynamics, focusing on energy, work, and their roles in chemical reactions.

Energy Minimization in Biological Systems: Equilibrium Models

Covers energy minimization models in biological systems, focusing on equilibrium and the roles of entropy and hydrophobicity.

Chemical Potential and Thermodynamic Functions in Mixtures

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

Thermodynamics: Spontaneity and Entropy

Explores spontaneity in chemical reactions, entropy, and Gibbs free energy, emphasizing the prediction of reaction spontaneity under different conditions.

Entropy and Carnot Cycle

Covers entropy, Carnot cycle optimality, and free energy minimization in spontaneous processes.