~~NOTOC~~
====== 8115 Physics 1, Part 2: Electrical Engineering (EEng), WS2023/24 ======
Course: **8115 Physics: Mechanics, Electricity and Magentism, WS2023/24, Part 2: "Electrical Engineering"** \\
Course ID: **8115_2** (part of 8115) \\
(Old Course Number: EE_1.08)
===== Structure of 8115 (aka EE_1.08) Physics: Mechanics, Electricity and Magnetism =====
We group the topics "electricity" and "magnetism" together under the term **electrical engineering**. \\
This course consists of two course parts:
- Mechanics (8115_01) and
- Electrical Engineering (8115_02).
The two course parts are conducted separately by two lecturers.
^ Course Part ^ General Topic ^ Abbreviation ^ Course ID ^ Lecturer ^
| Part 1 | Mechanics | Mech | 8115_1 | Dr. Irmgard Buder |
| Part 2 | Electrical Engineering | EEng | 8115_2 | Clein Sarmiento |
===== Exam and Grading =====
/*
\\
**UPDATE ON GRADING: \\ Written Mech Exam: 50 points, \\ Written EEng Exam: 40 points, \\ Lab Exercises: 10 points.**
*/
The two course parts form **one module with one exam**.
You will **pass the module with 50 points in total**.
The scores are distributed as follows:
^ Part ^ Written / Lab ^ Max Achievable Points ^
| Mech | written exam | **50** |
| EEng | written exam | **40** |
| EEng | lab exercises | **10** |
| Max total || **100** |
**Examples:**
^ Examples for Points Leading to Passed ^^^^^
^ Mech ^ EEng ^ EEng Lab ^ Total ^ Pass/Fail ^
| 50 | 0 | 0 | 50 | pass |
| 20 | 20 | 10 | 50 | pass |
| 0 | 40 | 10 | 50 | pass |
| 25 | 25 | 0 | 50 | pass |
| 30 | 15 | 5 | 50 | pass |
====== EEng Lecture ======
Every Thursday
* Lecture Room: 01 01 105
* Lecture Time: 08:15 - 9:45 and 10:00 - 11:30
=== Lecture ===
The lectures will be given live on campus. At least the EEng part will be streamed, recorded and uploaded for later offline access. \\
The links to the videos are shared on the Discord channel of this course.
=== Relationship with other Courses ===
The course EEng is used to lay the foundations for the following courses:
- (EE_2.03) Physics 2: Thermodynamics, Radiation, Heat Transfer,
- (EE_3.02) Energy Technology,
- (EE_4.03) Applied Measurement and Control
===== Lab Teams, Lab Groups and Lab Exercises =====
Each student can earn **10 points** max by completing the **lab experiments**.
**Google Calendar deactivated!**
/*
*/
===== Literature and Resources =====
* :-) [[https://phys.libretexts.org/Bookshelves/University_Physics/Book%3A_University_Physics_(OpenStax)/Book%3A_University_Physics_II_-_Thermodynamics_Electricity_and_Magnetism_(OpenStax)|University Physics II - Thermodynamics Electricity and Magnetism (OpenStax)]]
* Tipler Physics
* :-) Volker Quaschning (2016): Understanding Renewable Energy Systems. \\ [[https://ebookcentral.proquest.com/lib/hrw/detail.action?docID=4470609
|HSRW Library, Online Full Text for Members]]
* YouTube videos, Wikipedia, my slides, the course git repo, this teaching wiki
===== Lab Guidelines =====
==== Preparation for the Students ====
* [[https://docs.anaconda.com/anaconda/install/index.html | Install Anaconda!]]
* Create the EEng Conda Environment. See the [[https://github.com/rolfbecker/EE_1.08_2_EEng_WS2022/tree/main/eeng0020_Course_Preparation|Course Preparation]] on Github.
* Be able to download the [[https://github.com/rolfbecker/EE_1.08_2_EEng_LAB_WS2022 | Git repository with the lab notebooks! ]]
\\
If you are not prepared perfectly you will not be able to gain max. points!
===== Topics of EEng =====
:!: Go to **[[:eeng:TOPICS:start]]** page.
===== Sessions =====
^ No ^ Day ^ Date ^ Time ^ Room ^ Topic ^ Notes / \\ Keywords ^
| | | | | | Introduction, motivation: PV cells, I-V curve, charge, current, grav. pot. energy | |
| | | | | | voltage, circuit, Ohm's law | |
| | | | | | electrical power: burn 10 Ohms, Jupyter notebook: lin. model fitting | |
| | THU | 2023-12-06 | 08:15 ---\\ 11:30 | 01-01-105 | Kirchhoff's laws, LTspice, potentiometer, LDR, capacitor | |
| | FRI | 2023-12-07 | 13:00 --- \\ 16:00 | | Charging and discharging of capacitor, charge, current, differential equations, PWM | |
| | TUE | 2023-12-12 | 09:00 --- \\ 13:00 | | Waves, semiconductors, PN-junction, diodes, internal photoeffect, photovoltaics | |
| | THU | 2023-12-14 | | | Photovoltaics, diodes, equivalent circuit models of PV cells, partial shading, bypass diodes, LTspice modeling | |
| | THU | 2023-12-21 | | | Capacitive reactance, impedance, complex numbers | |
| | THU | 2024-01-11 | | | Inductive reactance, impedance, RC circuit, RLC circuit | |
| | THU | 2024-01-18 | | | Alternating Currect (AC) Circuits | |
| | THU | 2024-01-25 | | | Faraday's Law of Induction | |
/*
^ Week ^ Date ^ Topic ^ Notes / \\ Keywords ^
| | | Introduction, motivation: PV cells, I-V curve, charge, current, grav. pot. energy | |
| | | voltage, circuit, Ohm's law | |
| | | electrical power: burn 10 Ohms, Jupyter notebook: lin. model fitting | |
| | | Kirchhoff's laws, potentiometer, LDR, capacitor, LTspice | |
| | | Charging and discharging of capacitor, charge, current, differential equations | |
| | | Charging and discharging of capacitor, capacitive touch, RC lowpass with signal generator, LTspice simulation, Bode plot | |
| | | | |
| | | Capacitive reactance, impedance, complex numbers | |
| | | Inductive reactance, impedance, RC circuit, RLC circuit | |
| | | Waves, semiconductors, PN-junction, diodes, internal photoeffect, photovoltaics | |
| | | Photovoltaics, diodes, equivalent circuit models of PV cells, partial shading, bypass diodes, LTspice modeling | |
| | | | |
*/
^ Week ^ Date ^ Topic ^ Link ^