The students

• acquire knowledge of SI units, orders of magnitude and the structure of matter in order to correctly classify and use physical quantities.
• develop a solid understanding of kinematics and dynamics, enabling them to analyze and calculate movements and forces.
• can explain the RF spectrum, in particular with its applications in medical technology, IT and multimedia technology.
• know the basic electrical quantities and electrical components, their behavior and their representation in circuits and pointer diagrams and can describe them.
• can construct electronic components in elementary circuits and verify them using measurement technology.

None

The content of the module focuses on a basic understanding of physical principles and their practical application. Another central topic is acoustics, whereby practical applications, for example in medical technology and multimedia technology, are also covered in addition to the physical principles. Overall, the module promotes analytical thinking, problem-solving skills and the ability to apply physical concepts in various technical fields.
The module focuses on the following topics:

• SI units, orders of magnitude and structure of matter
• Kinematics and dynamics: the basics
• RF spectrum (incl. applications in medical technology, IT and multimedia technology)
• Acoustics and applications (incl. applications in medical technology and multimedia technology)
• Introduction to the basics of electrical engineering
• Direct current technology
• Alternating current technology
• Components and basic circuits

The following basic literature will be used in the module:

• D. Meschede: "Gerthsen Physik (23rd ed.)", Springer, 2023;
• P. Dobrinski, et al.: "Physics for Engineers (10th ed.)", Springer Vieweg, 2022;
• W. Demtröder: "Experimental Physics 1: Mechanics and Heat (6th ed.)", Springer, 2018;
• W. Demtröder: "Experimental Physics 2: Electricity and Optics (6th ed.)", Springer, 2018;
• W. Demtröder: "Experimentalphysik 3: Atom-, Molekül- und Festkörperphysik (6. Aufl.)", Springer, 2018;
• W. Demtröder: "Experimentalphysik 4: Kern-, Teilchen- und Astrophysik (6. Aufl.)", Springer, 2018;
• C. A. Mcgraw-Hill: "Fundamentals of Electric Circuits", Circuits Book Company, 2008;
• F. Führer, Heidemann, Nerreter: "Grundgebiete der Elektrotechnik, Bd.1, Stationäre Vorgänge", Fachbuchverlag Leipzig, 2006;
• R. Paul: "Electrical engineering I. Fields and simple circuits. Basic textbook", Springer, Berlin, 2009;
• H. Lindner: "Taschenbuch der Elektrotechnik und Elektronik", Fachbuchverlag Leipzig, 2008;
• L. Reisch: "Elektronische Bauelemente", Springer Verlag, 2006;
• H. Spikermann: "Passive elektronische Bauelemente", Schlembach Verlag, 2001;
• Beuth: "Bauelemente / Elektronik 2", Vogel Fachbuch, 2003;
• U. Tietze, Ch. Schenk: "Halbleiter-Schaltungstechnik", Springer, 2019

• Lecture,
• Exercises,
• interactive teaching

Integrated module which is continuously assessed:

• Cooperation,
• laboratory protocols,
• Written and oral partial tests