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Classroom Contents
Second Law, Entropy, and Maximum Entropy Principles in Advanced Thermodynamics - Lecture 2
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- 1 - Introduction
- 2 - Review: Course Objectives: Part I
- 3 - The Loaded Meaning of the Word System
- 4 - The Loaded Meaning of the Word Property
- 5 - What Exactly Do We Mean by the Word State?
- 6 - General Laws of Time Evolution
- 7 - Time Evolution, Interactions, Process
- 8 - Definition of Weight Process
- 9 - Main Consequence of the First Law: Energy
- 10 - Energy Balance Equation
- 11 - States: Steady/Unsteady/Equilibrium/Nonequilibrium
- 12 - Equilibrium States: Unstable/Metastable/Stable
- 13 - Hatsopoulos-Keenan Statement of the Second Law
- 14 - Consequences of First and Second Law together
- 15 - Theorem: Kelvin-Planck Statement of the Second Law
- 16 - Proof of the Kelvin-Planck Statement
- 17 - What Exactly Do We Mean by Reversible Process?
- 18 - Second Part of the Statement of the Second Law
- 19 - Definition of Adiabatic Availability
- 20 - Criterion for Reversibility of a Weight Process
- 21 - Mutual Equilibrium and Thermal Reservoir
- 22 - Feasibility of Standard Reversible Weight Process
- 23 - Definition of Temperature of a Thermal Reservoir
- 24 - Definition of Property Entropy
- 25 - Available Energy w.r.to a Thermal Reservoir
- 26 - Entropy: Engineering Meaning and Additivity
- 27 - Entropy Cannot Decrease in a Weight Process
- 28 - Criteria for Reversibility of a Weight Process
- 29 - Exchangeability of Entropy via Interactions
- 30 - Entropy Balance Equation
- 31 - Maximum Entropy and Minimum Energy Principles
- 32 - State Principle and Fundamental Relation
- 33 - Partial Derivatives of the Fundamental Relation