Difference between revisions of "EGR 224/Spring 2023"
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=== Lab Supplements === | === Lab Supplements === | ||
− | + | * Lab 1 - Computational Methods with Python in Google Colab | |
− | * Lab | + | ** [[EGR 224/Spring 2023/Lab 00]] |
− | + | * Lab 2 - Solving Circuit Equations Using SymPy | |
− | ** [[EGR 224/Spring 2023/Lab | + | ** [[EGR 224/Spring 2023/Lab 02]] |
− | ** [[ | + | ** [[Python:Symbolic Computations]] |
− | ** [[ | + | ** [[SymPy/Initialization and Documentation]] |
− | ** [[ | + | ** [[SymPy/Simultaneous Equations]] |
− | ** [[ | + | ** [[Symbolic/Examples/Circuits]] |
− | * Lab | + | |
− | ** [[ | + | * Lab 3 - Electrical Circuits and Measurements I |
+ | ** [[Tinkercad/Tutorials]] | ||
+ | ** [[Tinkercad/Divider]] | ||
+ | ** [[ECE 110/Equipment/Breadboards]] | ||
+ | ** [[Multisim]] - general information | ||
+ | ** [[Multisim/Divider]] | ||
** [[Resistor Color Codes]] | ** [[Resistor Color Codes]] | ||
− | * Lab | + | * Lab 4 - Electrical Circuits and Measurements II |
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** [[EGR 224/Circuit Building and Measurements]] | ** [[EGR 224/Circuit Building and Measurements]] | ||
** [[MS8264]] | ** [[MS8264]] | ||
** [[PBB 272]] | ** [[PBB 272]] | ||
** [[Resistor Color Codes]] | ** [[Resistor Color Codes]] | ||
− | * Lab 8 - RC ACSS Analysis | + | * Lab 5 - Introduction to Arduino |
+ | ** [[EGR_224/Arduino_Foundations_Supplement]] | ||
+ | * Lab 6 - Solving Circuits with Reactive Elements | ||
+ | ** [[SymPy/Differential_Equations]] | ||
+ | ** [[SymPy/Differential_Equations/RC Example]] | ||
+ | * Lab 7 - Arduino: Interfacing with Hardware | ||
+ | ** [[EGR 224/Arduino Interfacing With Hardware Supplement (Tinkercad)]] | ||
+ | * Lab 8 - Arduino: Interfacing with Hardware II | ||
+ | ** [[EGR 224/Arduino Interfacing With Hardware II]] | ||
+ | * Lab 9 - RC ACSS Analysis | ||
** [[EGR 224/RC ACSS Analysis]] | ** [[EGR 224/RC ACSS Analysis]] | ||
+ | * Lab 10 - Laplace Transforms with Maple | ||
+ | ** [[Maple]], [[Maple/Laplace Transforms| Laplace Transforms in Maple]], [[Maple/Spring 2023 Startup]] | ||
+ | <!-- | ||
+ | ** [https://www.multisim.com/groups/duke_s21_egr224/ Multisim Group for EGR 224] - there is an S21 there but I have decided to just make one group forever and the link apparently does not change... | ||
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--> | --> | ||
<!-- when back in the lab | <!-- when back in the lab | ||
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** [[Resistor Color Codes]] | ** [[Resistor Color Codes]] | ||
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=== Test Reviews === | === Test Reviews === | ||
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* Test I: [[EGR 224/Spring 2023/Test 1|Topics]] | * Test I: [[EGR 224/Spring 2023/Test 1|Topics]] | ||
* Test II: [[EGR 224/Spring 2023/Test 2|Topics]] | * Test II: [[EGR 224/Spring 2023/Test 2|Topics]] | ||
− | * Final: Test 1 + Test 2 + Op-Amps (resistive and reactive networks) | + | * Final: Test 1 + Test 2 + LTI Systems + Laplace + Op-Amps (resistive and reactive networks) |
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== F.A.Q. == | == F.A.Q. == |
Latest revision as of 22:00, 29 April 2023
EGR 224 is a required course for all students planning to earn a Bachelor of Science in Engineering Degree with the Department of Mechanical Engineering and Material Science at Duke University. It can also be taken as an elective by students in the Civil and Environmental Engineering Department who want their out-of-department course to focus on electronics, signal processing, and sensing. This page is meant to provide answers to general questions about the course, not necessarily specific questions about content. There is also a Category:EGR 224 that will list all pages relevant to EGR 224. Note at the bottom of this page that it is a member of that category.
Students in EGR 224 may also want to check out the Welcome Back page.
Contents
Support Pages for Spring 2023
- There is a Concept List for this semester's lectures
- See Category:EGR 224
Homework Supplements
None yet
Lab Supplements
- Lab 1 - Computational Methods with Python in Google Colab
- Lab 2 - Solving Circuit Equations Using SymPy
- Lab 3 - Electrical Circuits and Measurements I
- Lab 4 - Electrical Circuits and Measurements II
- Lab 5 - Introduction to Arduino
- Lab 6 - Solving Circuits with Reactive Elements
- Lab 7 - Arduino: Interfacing with Hardware
- Lab 8 - Arduino: Interfacing with Hardware II
- Lab 9 - RC ACSS Analysis
- Lab 10 - Laplace Transforms with Maple
Lecture Supplements
- Questions about specific lectures should go on the Ed page for the class.
Test Reviews
- Test I: Topics
- Test II: Topics
- Final: Test 1 + Test 2 + LTI Systems + Laplace + Op-Amps (resistive and reactive networks)
F.A.Q.
None Yet
Resources
- Wikipedia page on Cramer's Rule; includes demos for two and three variable systems.
Questions
Post your questions by editing the discussion page of this article. Edit the page, then scroll to the bottom and add a question by putting in the characters *{{Q}}, followed by your question and finally your signature (with four tildes, i.e. ~~~~). Using the {{Q}} will automatically put the page in the category of pages with questions - other editors hoping to help out can then go to that category page to see where the questions are. See the page for Template:Q for details and examples.
External Links
- http://classes.pratt.duke.edu/EGR224S23 - Dr. G's Spring 2023 Class Page
- Sakai site for EGR 224
- Ed site for EGR 224