| MEDI Technical fundamentals of medicine | Course | INF | |
|---|---|---|---|
| Lecturers : |
Prof. Dr. Thomas Schrader
eMail
M.Sc. Daniel Schulz eMail |
Term | 1 |
| Course Classification : | Bachelor Medizininformatik | CH | 4 |
| Language : | Deutsch | Type | VÜ |
| Type of examination : | PL | Credits | 5 |
| Method of evaluation : | written examination 120 min | ||
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| Teaching aims : | Physical basics * Biomechanics: Students will be able to describe basic biomechanical principles, including force action, laws of leverage, and kinematics of motion. * Fluids: Students will be able to explain physical properties of fluids such as density, viscosity and surface tension and apply flow laws (e.g. Bernoulli, Hagen-Poiseuille). * Electromagnetic fields: Students will understand basic concepts of electromagnetic fields and be able to explain their application in engineering (e.g. sensors, actuators). * Electrical circuits: Students will be able to analyse and calculate basic electrical circuits, including Ohm's law, Kirchhoff's rules and simple AC circuits. Microcontroller electronics (Arduino system) * Basic concepts: Students will understand the architecture and operation of microcontrollers and be able to explain their applications. * Programming: Students will be able to develop and debug simple programmes for an Arduino system to solve various tasks (e.g. sensors and actuators). * Circuit design: Students will be able to design and build electrical circuits that interact with the Arduino system. * Practical application: Students will be able to implement practical projects using the Arduino system, including integrating sensors and actuators to solve engineering problems. * Troubleshooting: Students will develop skills to systematically troubleshoot the hardware and software of a microcontroller system. | ||
| Contents : | * Physics fundamentals with a focus on biomechanics, fluids, electromagnetic fields and electrical circuits * Basic concepts and practical handling of microcontroller electronics, in particular the Arduino system | ||
| Literature : | Stuart H.S.: Kurzes Lehrbuch der Physik, ISBN 978-3-540-89045-4, Springer Verlag 2010; Rybach J.: Physik für Bachelors, ISBN 3-446-42169-6, Hanser Verlag 2009; Hering, Steinhart u.a.: Taschenbuch der Mechatronik, ISBN 978-3-466-43817-0, Fachbuchverlag Leipzig 2015 Hüter-Becker, Dölken u.a.: Biomechanik, ISBN 978-3-13-136862-1, Georg Thieme Verlag 2011 | ||