From 6627aefdff4f56bec14bed28df39210b4d46f261 Mon Sep 17 00:00:00 2001 From: Emma Smith Zbarsky Date: Mon, 28 Oct 2024 13:59:22 -0400 Subject: [PATCH] Fix links in README.md --- README.md | 14 +++++++------- 1 file changed, 7 insertions(+), 7 deletions(-) diff --git a/README.md b/README.md index b54a111..f76319c 100644 --- a/README.md +++ b/README.md @@ -63,18 +63,18 @@ MATLAB and Symbolic Math Toolbox are used throughout. Simulink and Simscape are | | | | | | :-- | :-- | :-- | :-- | | **Topic**
| **Summary**
| **Learning Objectives**
In this script, students will...
| **Mode**
| -| **First Law of Thermodynamics** in
[**FirstLaw.mlx** ](matlab: edit FirstLaw.mlx)
[Kheops-Pyramid.jpg](matlab: edit FirstLaw.mlx)
Photo credit: [Nina Aldin Thune](https://matlab.mathworks.com/open/github/v1?repo=MathWorks-Teaching-Resources/Thermodynamics&project=Thermodynamics.prj&file=Scripts/FirstLaw.mlx)
| This script introduces the first law of thermodynamics, focusing on units, energy, systems, and conservation laws.
| \* Express various forms of energy in terms of fundamental units
\* Apply the conservation of mass in simple, conceptual situations
\* Identify systems with open and closed control volumes
\* Apply the first law of thermodynamics
| Code Hidden
| -| **Standard Thermodynamics Language** in [**CreatePVplots.mlx**](matlab: edit CreatePVplots.mlx)
[isothermalPVplot.png](matlab: edit CreatePVplots.mlx)
| This script investigates pressure\-volume (PV) diagrams and their relationship to state equations in a closed system.
| \* Identify keywords including isothermal, isobaric, and isochoric, and translate word problems into thermodynamic terminology
\* Identify and state necessary assumptions to express a thermodynamic relationship
| Code Visible
| -| **Calculate Work from P\-V plots** in [**CalculateWork.mlx**](matlab: edit CalculateWork.mlx)
[image_7.png](matlab: edit CalculateWork.mlx)
| This script introduces computing the work done by a system using analysis of its PV plot.
| \* Identify positive, negative, and zero work from a P\-V plot without computing the value
\* Compute work in constant pressure, constant volume, and integrable P\-V plots
\* Compare various state equations both to each other and to tabular data
\* Compute the work done by a piston modeled in Simulink
| Code Visible
| -| **Second Law of Thermodynamics** in [**SecondLaw.mlx**](matlab: edit SecondLaw.mlx)
[pistonAdiabatic.gif](matlab: edit SecondLaw.mlx)
| | \* Identify thermal sources, sinks, and reservoirs
\* Compute thermal efficiency
\* Reflect on the second law of thermodynamics
\* Use the universe as a system of reference for determining thermodynamic flows
| Code Hidden
| -| **Properties of Pure Substances** in [**StatePlots.mlx**](matlab: edit StatePlots.mlx)
[TS_water.png](matlab: edit StatePlots.mlx)
| This script introduces state diagrams and temperature\-entropy plots.
| \* Investigate the standard shapes of state diagrams
\* Investigate Temperature/Entropy plots for several pure substances, including water, R134a, and ammonia
\* Identify liquid, gas, two\-phase, and supercritical states of matter on a temperature\-entropy plot
| Code Hidden
| -| **Explore a Refrigeration Mode**l in [**Model\_Fridge.mlx**](matlab: edit Model_Fridge.mlx)
[FridgeModelwithSensors.png](matlab: edit Model_Fridge.mlx)
| This project applies the thermodynamic concepts to an everyday example using a Simulink model.
| \* Apply understanding about thermodynamic cycles to model a refrigerator
\* Perform unit conversions required to extract values from a database and use them in a model
\* Read and interpret thermodynamic plots
\* Create informative plots based on thermodynamic sensor data
| Code Visible
| +| **First Law of Thermodynamics** in
[**FirstLaw.mlx** ](https://matlab.mathworks.com/open/github/v1?repo=MathWorks-Teaching-Resources/Thermodynamics&project=Thermodynamics.prj&file=Scripts/FirstLaw.mlx)
[Kheops-Pyramid.jpg](https://matlab.mathworks.com/open/github/v1?repo=MathWorks-Teaching-Resources/Thermodynamics&project=Thermodynamics.prj&file=Scripts/FirstLaw.mlx)
Photo credit: [Nina Aldin Thune](https://matlab.mathworks.com/open/github/v1?repo=MathWorks-Teaching-Resources/Thermodynamics&project=Thermodynamics.prj&file=Scripts/FirstLaw.mlx)
| This script introduces the first law of thermodynamics, focusing on units, energy, systems, and conservation laws.
| \* Express various forms of energy in terms of fundamental units
\* Apply the conservation of mass in simple, conceptual situations
\* Identify systems with open and closed control volumes
\* Apply the first law of thermodynamics
| Code Hidden
| +| **Standard Thermodynamics Language** in [**CreatePVplots.mlx**](https://matlab.mathworks.com/open/github/v1?repo=MathWorks-Teaching-Resources/Thermodynamics&project=Thermodynamics.prj&file=Scripts/CreatePVplots.mlx)
[isothermalPVplot.png](https://matlab.mathworks.com/open/github/v1?repo=MathWorks-Teaching-Resources/Thermodynamics&project=Thermodynamics.prj&file=Scripts/CreatePVplots.mlx)
| This script investigates pressure\-volume (PV) diagrams and their relationship to state equations in a closed system.
| \* Identify keywords including isothermal, isobaric, and isochoric, and translate word problems into thermodynamic terminology
\* Identify and state necessary assumptions to express a thermodynamic relationship
| Code Visible
| +| **Calculate Work from P\-V plots** in [**CalculateWork.mlx**](https://matlab.mathworks.com/open/github/v1?repo=MathWorks-Teaching-Resources/Thermodynamics&project=Thermodynamics.prj&file=Scripts/CalculateWork.mlx)
[image_7.png](https://matlab.mathworks.com/open/github/v1?repo=MathWorks-Teaching-Resources/Thermodynamics&project=Thermodynamics.prj&file=Scripts/CalculateWork.mlx)
| This script introduces computing the work done by a system using analysis of its PV plot.
| \* Identify positive, negative, and zero work from a P\-V plot without computing the value
\* Compute work in constant pressure, constant volume, and integrable P\-V plots
\* Compare various state equations both to each other and to tabular data
\* Compute the work done by a piston modeled in Simulink
| Code Visible
| +| **Second Law of Thermodynamics** in [**SecondLaw.mlx**](https://matlab.mathworks.com/open/github/v1?repo=MathWorks-Teaching-Resources/Thermodynamics&project=Thermodynamics.prj&file=Scripts/SecondLaw.mlx)
[pistonAdiabatic.gif](https://matlab.mathworks.com/open/github/v1?repo=MathWorks-Teaching-Resources/Thermodynamics&project=Thermodynamics.prj&file=Scripts/SecondLaw.mlx)
| | \* Identify thermal sources, sinks, and reservoirs
\* Compute thermal efficiency
\* Reflect on the second law of thermodynamics
\* Use the universe as a system of reference for determining thermodynamic flows
| Code Hidden
| +| **Properties of Pure Substances** in [**StatePlots.mlx**](https://matlab.mathworks.com/open/github/v1?repo=MathWorks-Teaching-Resources/Thermodynamics&project=Thermodynamics.prj&file=Scripts/StatePlots.mlx)
[TS_water.png](https://matlab.mathworks.com/open/github/v1?repo=MathWorks-Teaching-Resources/Thermodynamics&project=Thermodynamics.prj&file=Scripts/StatePlots.mlx)
| This script introduces state diagrams and temperature\-entropy plots.
| \* Investigate the standard shapes of state diagrams
\* Investigate Temperature/Entropy plots for several pure substances, including water, R134a, and ammonia
\* Identify liquid, gas, two\-phase, and supercritical states of matter on a temperature\-entropy plot
| Code Hidden
| +| **Explore a Refrigeration Mode**l in [**Model\_Fridge.mlx**](https://matlab.mathworks.com/open/github/v1?repo=MathWorks-Teaching-Resources/Thermodynamics&project=Thermodynamics.prj&file=Scripts/Model_Fridge.mlx)
[FridgeModelwithSensors.png](https://matlab.mathworks.com/open/github/v1?repo=MathWorks-Teaching-Resources/Thermodynamics&project=Thermodynamics.prj&file=Scripts/Model_Fridge.mlx)
| This project applies the thermodynamic concepts to an everyday example using a Simulink model.
| \* Apply understanding about thermodynamic cycles to model a refrigerator
\* Perform unit conversions required to extract values from a database and use them in a model
\* Read and interpret thermodynamic plots
\* Create informative plots based on thermodynamic sensor data
| Code Visible
| | | | | | # Additional Scripts: | | | | | :-- | :-- | :-- | -| **Script**
| [**SetUpCoolProp.mlx**](matlab: edit SetUpCoolProp.mlx)
| [**BuildRefrigerator.mlx**](matlab: edit BuildRefrigerator.mlx)
| +| **Script**
| [**SetUpCoolProp.mlx**](https://matlab.mathworks.com/open/github/v1?repo=MathWorks-Teaching-Resources/Thermodynamics&project=Thermodynamics.prj&file=Scripts/SetUpCoolProp.mlx)
| [**BuildRefrigerator.mlx**](https://matlab.mathworks.com/open/github/v1?repo=MathWorks-Teaching-Resources/Thermodynamics&project=Thermodynamics.prj&file=Scripts/BuildRefrigerator.mlx)
| | **Description**
| A guide to installing and testing the functionality CoolProp from MATLAB.
| Using Simulink and the capabilities of the Simscape Two\-Phase Fluid libraries, build and test a complete refrigerator.
| | | | |