2.43 Advanced Thermodynamics - Lecture 09: Minimum Work of Partitioning Small Systems; Gibbs’ Phase Rule; Van der Waals Model

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Table of Contents of Lecture 9

Slide 09.01: Welcome - Slide - Video timestamp
Slide 09.02: Results So Far Hold for Large and Small Systems - Slide - Video timestamp
Slide 09.03: Review: Microscopic and Mesoscopic vs Macroscopic - Slide - Video timestamp
Slide 09.04: Review: Rarefaction Effects Near Walls - Slide - Video timestamp
Slide 09.05: Review: Neglecting Effects of Partitions - Slide - Video timestamp
Slide 09.06: Review: Simple-System Model Limiting Assumptions - Slide - Video timestamp
Slide 09.07: Review: Simple-System Model Implies Euler Relation - Slide - Video timestamp
Slide 09.08: Review: Main Consequence of Euler Relation - Slide - Video timestamp
Slide 09.09: Small Systems: Specific Properties Dependences - Slide - Video timestamp
Slide 09.10: Small Systems: Minimum Work of Partitioning - Slide - Video timestamp
Slide 09.12: Basic Simple-System Models for Pure Substances - Slide - Video timestamp
Slide 09.13: Extensive Properties (Definition) - Slide - Video timestamp
Slide 09.14: Specific Properties (Definition) - Slide - Video timestamp
Slide 09.15: Intensive Properties and Intensive State - Slide - Video timestamp
Slide 09.16: Homogeneous vs Heterogeneous States; Phases - Slide - Video timestamp
Slide 09.17: Gibbs Phase Rule (Proof) - Slide - Video timestamp
Slide 09.18: Gibbs Phase Rule (for a Pure Substance) - Slide - Video timestamp
Slide 09.20: Fundamental Relation for a Pure Substance - Slide - Video timestamp
Slide 09.21: Ideal Incompressible Solid or Fluid Model - Slide - Video timestamp
Slide 09.22: Ideal Gas Model - Slide - Video timestamp
Slide 09.24: Two-Phase States of a Pure Substance - Slide - Video timestamp
Slide 09.25: Properties Liquid-Vapor States of a Pure Substance - Slide - Video timestamp
Slide 09.26: Graphical Representation of Fundamental Relation - Slide - Video timestamp
Slide 09.27: The u-s-v Fundamental Surface (Water) - Slide - Video timestamp
Slide 09.28: The Mollier h-s Diagram (Water) - Slide - Video timestamp
Slide 09.29: The p-v Diagram (Water) - Slide - Video timestamp
Slide 09.30: The p-v Diagram (Van der Waals Model) - Slide - Video timestamp
Slide 09.31: Exergies and Efficiencies in Energy Conversion - Slide - Video timestamp
Slide 09.32: Exergy and Second-Law Efficiency in Cogeneration - Slide - Video timestamp
Slide 09.33: Exergy of Bulk Flow Interactions - Slide - Video timestamp

FAQs for Lecture 09

Analytical Index of Lecture 9 Contents

Clausius-Clapeyron relation - Slide - Video timestamp
Energy-entropy-volume diagram for water - Slide - Video timestamp
Euler free energy and minimum work of partitioning a small system - Slide - Video timestamp
Euler free energy and properties of small systems - Slide - Video timestamp
Euler free energy how to measure it for small systems - Slide - Video timestamp
Euler free energy how to measure it for small systems - Slide - Video timestamp
Euler free energy physical interpretation - Slide - Video timestamp
Euler relation proof - Slide - Video timestamp
Exergy and second-law efficiency - Slide - Video timestamp
Exergy transfer in a bulk-flow interaction - Slide - Video timestamp
Extensive property - Slide - Video timestamp
Fundamental relation fundamental $u$-$s$-$v$ surface - Slide - Video timestamp
Fundamental relation of a pure substance - Slide - Video timestamp
Gibbs phase rule - Slide - Video timestamp
Gibbs relation general - Slide - Video timestamp
Gibbs-Duhem relation for a pure substance - Slide - Video timestamp
Gibbs-Duhem relation general - Slide - Video timestamp
Ideal gas behavior - Slide - Video timestamp
Ideal gas model - Slide - Video timestamp
Ideal incompressible behavior - Slide - Video timestamp
Ideal incompressible fluid model - Slide - Video timestamp
Ideal incompressible solid model - Slide - Video timestamp
Intensive property - Slide - Video timestamp
Intensive state - Slide - Video timestamp
Liquid-vapor equilibrium - Slide - Video timestamp
Liquid-vapor equilibrium - Slide - Video timestamp
Macroscopic limit simple-system model - Slide - Video timestamp
Macroscopic limit simple-system model - Slide - Video timestamp
Many-particle limit simple-system model - Slide - Video timestamp
Many-particle limit simple-system model - Slide - Video timestamp
Minimum work of partitioning a small system - Slide - Video timestamp
Mollier $h$-$s$ diagram for water - Slide - Video timestamp
Partitioning small systems Euler free energy - Slide - Video timestamp
Partitioning small systems minimum work - Slide - Video timestamp
Perfect gas behavior - Slide - Video timestamp
Perfect gas model - Slide - Video timestamp
Perfect incompressible behavior - Slide - Video timestamp
Perfect incompressible fluid model - Slide - Video timestamp
Perfect incompressible solid model - Slide - Video timestamp
Phase definition - Slide - Video timestamp
Phase Gibbs rule - Slide - Video timestamp
Pressure-volume diagram for a van der Waals fluid - Slide - Video timestamp
Pressure-volume diagram for water - Slide - Video timestamp
Property extensive - Slide - Video timestamp
Property intensive - Slide - Video timestamp
Property specific - Slide - Video timestamp
Pure substance properties of homogeneous SES's - Slide - Video timestamp
Pure substance properties of ideal gas SES's - Slide - Video timestamp
Pure substance properties of ideal incompressible SES's - Slide - Video timestamp
Pure substance properties of two-phase SES's - Slide - Video timestamp
Second-law efficiency in heating and cooling of bulk flows - Slide - Video timestamp
Simple-system model effect of inserting and removing partitions - Slide - Video timestamp
Simple-system model rarefaction effects near walls - Slide - Video timestamp
Small systems and Euler free energy - Slide - Video timestamp
Small systems minimum work of partitioning - Slide - Video timestamp
Small systems SES properties depend on $n$ - Slide - Video timestamp
Small systems simple-system model (large $n$ limit) - Slide - Video timestamp
Small systems vs large $n$ limit - Slide - Video timestamp
Specific heat for an incompressible substance - Slide - Video timestamp
Specific heats and degrees of freedom for ideal gases - Slide - Video timestamp
Specific property - Slide - Video timestamp
Stable equilibrium state heterogeneous - Slide - Video timestamp
Stable equilibrium state homogeneous - Slide - Video timestamp
Stable equilibrium state properties depend on $n$, for small systems - Slide - Video timestamp
System SES properties for small $n$ - Slide - Video timestamp
System SES properties for small $n$ - Slide - Video timestamp
System small vs large $n$ limit - Slide - Video timestamp
Van der Waals p-v diagram - Slide - Video timestamp
Van der Waals model for a pure substance - Slide - Video timestamp

NOTE: If in your computer or smartphone the "Slide" hyperlinks take you to slide 1 instead of the target slide, you may have to change your default settings. For example:

In PC Chrome: Settings -> Privacy and Security -> Site Settings -> PDF documents, and choose to open PDFs in Chrome.

In PC Firefox: Preferences -> General -> Applications -> Portable Document Format (PDF), and select �Open in Firefox".

In some Android smartphones, download the Firefox app, then: Settings -> Applications -> Firefox -> �Set as Default", and choose Firefox.

Table of Contents of Lecture 9

Slide 09.01: Welcome - Slide - Video timestamp

Slide 09.02: Results So Far Hold for Large and Small Systems - Slide - Video timestamp

Slide 09.03: Review: Microscopic and Mesoscopic vs Macroscopic - Slide - Video timestamp

Slide 09.04: Review: Rarefaction Effects Near Walls - Slide - Video timestamp

Slide 09.05: Review: Neglecting Effects of Partitions - Slide - Video timestamp

Slide 09.06: Review: Simple-System Model Limiting Assumptions - Slide - Video timestamp

Slide 09.07: Review: Simple-System Model Implies Euler Relation - Slide - Video timestamp

Slide 09.08: Review: Main Consequence of Euler Relation - Slide - Video timestamp

Slide 09.09: Small Systems: Specific Properties Dependences - Slide - Video timestamp

Slide 09.10: Small Systems: Minimum Work of Partitioning - Slide - Video timestamp

Slide 09.12: Basic Simple-System Models for Pure Substances - Slide - Video timestamp

Slide 09.13: Extensive Properties (Definition) - Slide - Video timestamp

Slide 09.14: Specific Properties (Definition) - Slide - Video timestamp

Slide 09.15: Intensive Properties and Intensive State - Slide - Video timestamp

Slide 09.16: Homogeneous vs Heterogeneous States; Phases - Slide - Video timestamp

Slide 09.17: Gibbs Phase Rule (Proof) - Slide - Video timestamp

Slide 09.18: Gibbs Phase Rule (for a Pure Substance) - Slide - Video timestamp

Slide 09.20: Fundamental Relation for a Pure Substance - Slide - Video timestamp

Slide 09.21: Ideal Incompressible Solid or Fluid Model - Slide - Video timestamp

Slide 09.22: Ideal Gas Model - Slide - Video timestamp

Slide 09.24: Two-Phase States of a Pure Substance - Slide - Video timestamp

Slide 09.25: Properties Liquid-Vapor States of a Pure Substance - Slide - Video timestamp

Slide 09.26: Graphical Representation of Fundamental Relation - Slide - Video timestamp

Slide 09.27: The u-s-v Fundamental Surface (Water) - Slide - Video timestamp

Slide 09.28: The Mollier h-s Diagram (Water) - Slide - Video timestamp

Slide 09.29: The p-v Diagram (Water) - Slide - Video timestamp

Slide 09.30: The p-v Diagram (Van der Waals Model) - Slide - Video timestamp

Slide 09.31: Exergies and Efficiencies in Energy Conversion - Slide - Video timestamp

Slide 09.32: Exergy and Second-Law Efficiency in Cogeneration - Slide - Video timestamp

Slide 09.33: Exergy of Bulk Flow Interactions - Slide - Video timestamp

FAQs for Lecture 09

Analytical Index of Lecture 9 Contents

Clausius-Clapeyron relation - Slide - Video timestamp

Energy-entropy-volume diagram for water - Slide - Video timestamp

Euler free energy and minimum work of partitioning a small system - Slide - Video timestamp

Euler free energy and properties of small systems - Slide - Video timestamp

Euler free energy how to measure it for small systems - Slide - Video timestamp

Euler free energy how to measure it for small systems - Slide - Video timestamp

Euler free energy physical interpretation - Slide - Video timestamp

Euler relation proof - Slide - Video timestamp

Exergy and second-law efficiency - Slide - Video timestamp

Exergy transfer in a bulk-flow interaction - Slide - Video timestamp

Extensive property - Slide - Video timestamp

Fundamental relation fundamental $u$-$s$-$v$ surface - Slide - Video timestamp

Fundamental relation of a pure substance - Slide - Video timestamp

Gibbs phase rule - Slide - Video timestamp

Gibbs relation general - Slide - Video timestamp

Gibbs-Duhem relation for a pure substance - Slide - Video timestamp

Gibbs-Duhem relation general - Slide - Video timestamp

Ideal gas behavior - Slide - Video timestamp

Ideal gas model - Slide - Video timestamp

Ideal incompressible behavior - Slide - Video timestamp

Ideal incompressible fluid model - Slide - Video timestamp

Ideal incompressible solid model - Slide - Video timestamp

Intensive property - Slide - Video timestamp

Intensive state - Slide - Video timestamp

Liquid-vapor equilibrium - Slide - Video timestamp

Liquid-vapor equilibrium - Slide - Video timestamp

Macroscopic limit simple-system model - Slide - Video timestamp

Macroscopic limit simple-system model - Slide - Video timestamp

Many-particle limit simple-system model - Slide - Video timestamp

Many-particle limit simple-system model - Slide - Video timestamp

Minimum work of partitioning a small system - Slide - Video timestamp

Mollier $h$-$s$ diagram for water - Slide - Video timestamp

Partitioning small systems Euler free energy - Slide - Video timestamp

Partitioning small systems minimum work - Slide - Video timestamp

Perfect gas behavior - Slide - Video timestamp

Perfect gas model - Slide - Video timestamp

Perfect incompressible behavior - Slide - Video timestamp

Perfect incompressible fluid model - Slide - Video timestamp

Perfect incompressible solid model - Slide - Video timestamp

Phase definition - Slide - Video timestamp

Phase Gibbs rule - Slide - Video timestamp

Pressure-volume diagram for a van der Waals fluid - Slide - Video timestamp

Pressure-volume diagram for water - Slide - Video timestamp