~~NOTOC~~ ====== Electrical Engineering (Part of Physics 1) ====== Course: **8115 Physics: Mechanics, Electricity and Magentism, WS2024/25, 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. Malte Weber | | Part 2 | Electrical Engineering | EEng | 8115_2 | Dr. Rolf Becker | ===== Exam and Grading ===== /* \\ **UPDATE ON GRADING: \\ Written Mech Exam: 50 points, \\ Written EEng Exam: 40 points, \\ Lab Exercises: 10 points.** */ The two courses are part 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 | **35** | | EEng | graded lab exercises | **15** | | Max total || **100** | ===== Relationship with other Courses ===== The course EEng is **laying 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 ===== Topics of EEng ===== :!: Go to **[[:eeng:TOPICS:start]]** page. /* ===== EEng/Phy1 Topics ===== * **[[.:Topics:start]]** */ ===== Previous Courses ===== * [[.:ws2022:start|WS2022/23]] * [[.:ws2023:start|WS2023/24]] ===== Literature and Resources ===== * :-):-):-) (online, pdf, FREE) **[[https://phys.libretexts.org/Bookshelves/University_Physics/University_Physics_(OpenStax)/University_Physics_II_-_Thermodynamics_Electricity_and_Magnetism_(OpenStax)|University Physics II - Thermodynamics, Electricity, and Magnetism (OpenStax)]]** * :-) (online, pdf, HSRW library) **[[https://ebookcentral.proquest.com/lib/hrw/detail.action?docID=4470609 |Volker Quaschning (2016): Understanding Renewable Energy Systems]]** * (printed, HSRW library) [[https://hsb-rhein-waal.digibib.net/search/katalog/record/(DE-605)HT015548956|Paul A. Tipler, Gene Mosca (2008): Physics for scientists and engineers, 6. Ed.]] * YouTube videos, Wikipedia, my slides, the course git repo, this teaching wiki ===== Preparation for the Students ===== We use **Jupyter Notebooks** for teaching as well as **LTspice**. ==== Jupyter Lab Environment for Python ==== === Option 1: JupyterHub - Cloud Service EOlab@HSRW === Go to https://hub.eolab.de/ To log in click on ''sign in with keycloak'' -> ''HSRW OIDC''. Use your university account to log in. \\ When the JupyterHub comes up choose ''Python Enviromnent'' and click ''start''. === Option 2: Local Installation === [[https://docs.anaconda.com/anaconda/install/index.html | Install Anaconda]] locally on your laptops Create the EEng Conda Environment. See the [[https://github.com/rolfbecker/EE_1.08_2_EEng_WS2023/tree/main/eeng0020_Course_Preparation|Course Preparation]] on Github. Download or clone the [[https://github.com/rolfbecker/EE_1.08_2_EEng_WS2023 | Git repository with the notebooks. ]]