Lectures related to First Principle of Thermodynamics

Explores fundamental thermodynamics concepts, laws, energy transfer, and system analysis.

Entropy and the Second Law of Thermodynamics

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

Provides an overview of calorimetry and the thermodynamic properties of ideal gases, including their state equations and heat capacities.

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.

Heat Capacity and Degrees of Freedom in Thermodynamics

Covers heat capacity, degrees of freedom, and their implications in thermodynamics.

Relativity and Thermodynamics: Key Concepts Explained

Covers key concepts in relativity and thermodynamics, including time dilation, length contraction, and the principles of heat engines.

Thermodynamics: Adiabatic Transformations and Cyclic Processes

Discusses adiabatic transformations, cyclic processes, and the efficiency of thermodynamic cycles in ideal gases.

Thermodynamic Coefficients: Applications

Explores the practical applications of calorimetric coefficients in thermodynamics, including specific calculations for perfect gases.

Carnot Cycle: Efficiency and Reversibility

Explores the Carnot Cycle's efficiency, reversibility, and entropy in thermodynamics.

Chemistry: Atomic Structure and Thermodynamics

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

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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.

Thermodynamic Functions and Calorimetric Coefficients

Discusses thermodynamic functions, calorimetric coefficients, and their relationships in physical systems.

Thermal Energy and Degrees of Freedom

Explores energy equipartition in ideal gases, heat capacity, and thermodynamic transformations.

Thermodynamics: Energy Transformation

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

First Law of Thermodynamics: Energy Conservation

Explores the conservation of energy in thermodynamic systems through heat and work interactions, introducing internal energy, enthalpy, and heat capacity.

Thermodynamics in Cell Biology

Explores the role of thermodynamics in cell biology, focusing on the connection between thermodynamics and cellular processes.

Thermodynamic Transformations: Heat and Work Principles

Explains thermodynamic transformations, focusing on heat, work, and energy principles.

Transformations usuelles

Explores the first law of thermodynamics, cycles, and various transformations for ideal gases.

Thermodynamics: Internal Energy and Heat Capacity

Covers internal energy, heat capacity, and their roles in thermodynamics.