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Related lectures (18)
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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.
Advanced Physics I: Brayton Cycle, Air Density, Tennis Dynamics
Covers the Brayton Cycle, air density variation, and tennis dynamics in advanced physics.
First Principle of Thermodynamics
Explains the conservation of energy in thermodynamic systems during heat and work exchange processes.
Advanced Physics I: Brayton Cycle and Air Density
Explores the Brayton cycle, air density variations, and forces in motion.
Thermodynamic Cycles: Efficiency & Otto Cycle
Covers thermodynamic cycles, efficiency, and the Otto cycle in heat engines and thermal machines.
Applications of the First Law of Thermodynamics
Explores adiabatic transformations for perfect gases, including specific heat, adiabatic exponent, and practical exercises.
Carnot Cycle: Introduction
Covers the Carnot cycle, heat sources, work generation, and real-life cyclone differences.
Transformations usuelles
Explores the first law of thermodynamics, cycles, and various transformations for ideal gases.
Carnot Cycle: Thermodynamic Reflections
Explores the Carnot cycle and its implications on work generation and heat exchanges.
Advanced Physics I
Covers mechanics, measurement, kinematics, and thermodynamics, including density of air and thermodynamic cycles.
Second Principle: Entropy
Explores the second principle of thermodynamics, emphasizing entropy's role in system evolution and equilibrium.
Thermodynamics: Adiabatic Transformations and Cyclic Processes
Discusses adiabatic transformations, cyclic processes, and the efficiency of thermodynamic cycles in ideal gases.
Transformations usuelles
Covers classical transformations in thermodynamics, cycles, and specific types of transformations for ideal gases.
Thermodynamics: System, Surface Actions, and Typology
Covers thermodynamic systems, surface actions, and system typology with examples.
Thermodynamics: Principles and Applications
Provides an overview of thermodynamic principles, focusing on the first principle and its applications in various systems.
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.
Thermodynamic Transformations: Heat and Work Principles
Explains thermodynamic transformations, focusing on heat, work, and energy principles.
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