Lectures related to Applications of the First Law 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.

Thermodynamic Coefficients: Applications

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

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.

Chemistry: Atomic Structure and Thermodynamics

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

Carnot Cycle: Efficiency and Reversibility

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

Thermodynamics in Cell Biology

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

Calorimetry: Properties of Ideal Gases

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

Thermodynamics: Entropy and State Functions

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

First Principle of Thermodynamics

Explains the conservation of energy in thermodynamic systems during heat and work exchange processes.

Thermodynamics: Adiabatic Transformations and Cyclic Processes

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

Maxwell's Gas Theory: Formation Temperature of Earth

Covers Maxwell's gas theory, focusing on ideal gas behavior and Earth's formation temperature analysis.

Stirling Cycle: Basics and Practical Realization

Covers the Stirling cycle, proposed by R. Stirling in 1816, involving two isotherms and two isochores, and its practical realization.

Thermodynamics: Transformations of Ideal Gases

Explains the first principle of thermodynamics and transformations of ideal gases, including isothermal, isochoric, isobaric, and adiabatic processes with practical examples.

Entropy in Thermodynamics

Explores entropy in thermodynamics, including Gibbs equations, ideal gases, and entropy balance in closed systems.

Transformations usuelles

Covers classical transformations in thermodynamics, cycles, and specific types of transformations for ideal gases.

Carnot Cycle for Perfect Gas

Explores the Carnot cycle for a perfect gas and its different reversible processes.

Atomic Model & Ideal Gas

Explores the atomic model, ideal gas kinetics, and thermal energy in systems.

Canonical Ensemble: Partition Function and Ideal Gas

Explores the canonical ensemble, partition function, and ideal gas properties.

Chemical Potential and Thermodynamic Functions in Mixtures

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