Take two mandatory modules listed below and select one further CHOICE module from a different study area.
Principles of Chemistry and Physics CH05-PrincChemPhys
The bi-functional module “Principles of Chemistry and Physics” provides an introduction to basic concepts of Inorganic/General Chemistry and selected topics of Physics. Two introductory lecture courses (“General Chemistry” (focus on atomic structure, stoichiometry, reactions, periodic table, gases, bonding, liquids, solids) and “Thermodynamics and Optics” (focus on thermodynamics from physics perspective and on basic optical phenomena and instruments) are complemented by laboratory courses (General Chemistry Lab and Thermodynamics and Optics Lab) to develop fundamental practical and experimental skills.
Classical and Modern Physics (CH06-ClassModPhys)
Classical and Modern Physics is an introduction to the physical and mathematical description of natural phenomena. Physics is the most fundamental of all natural sciences and mathematics is its language as for many other scientific and engineering disciplines. In this module, we will study fundamental laws of physics and the underlying mathematical concepts and applications. Topics include basic physical concepts like motion, force, fields and energy, oscillations and waves, relativity, electrodynamics, quantum physics, and an introduction to condensed matter, particle and nuclear physics. The mathematical concepts used are vector calculus, differential equations, complex analysis. Lectures are complemented by practical sessions that provide training in experimental as well as computational skills, including a quantitative analysis of measurements.
Take all three modules or replace one with a CORE module from a different study program.
Classical and Quantum Dynamics (CO15-ClassDyn)
This module provides a thorough introduction to the theoretical foundations of physics. We will study the physics of particles in the macroscopic world and that of quanta in the atomic realm, while exploring the mathematical structure of nature. The module covers several core topics of physics: Analytical mechanics, special relativity, quantum mechanics and applications. It is complemented by the module on statistical physics and fields, which covers further fundamental topics. Accompanying lab courses give deeper insights into the systems discussed in the lectures and provide instructive examples in advanced physics.
Statistical Physics and Fields (CO13-StatPhys)
This module provides an introduction to the physics of systems of large numbers of particles and to their continuum field theory limit. All fundamental forces of nature can be formulated in terms of field theories in a way that reconciles classical mechanics with Einstein's relativity theories. In this module we focus on electromagnetic fields, related phenomena and applications. Statistical physics deals with complex systems of large numbers of particles. In this module, we review classical thermodynamics and extended it to a microscopic statistical description of many particle systems. This module complements the module on classical and quantum dynamics. Together they provide a solid foundation for more advanced courses. Accompanying lab courses give deeper insights into the systems discussed in the lectures and provide instructive examples in advanced physics.
Applied Physics (CO14-ApplPhys)
The module discusses advanced applications of physics in modern technology using a descriptive and experimental approach. It builds on the general concepts and methods developed in the Physics of Natural Sciences Module. The first part focuses on energy sources and energy storage technology. It includes the pertinent concepts of thermodynamics and physical chemistry. The second part introduces computational simulation methods as an important tool, useful for the understanding and investigation of physical systems and for a speed-up of the development of new technologies. Additional lab courses give deeper insights into the systems discussed in the lectures and provide instructive examples of experiments in advanced physics.
Take CAREER Modules, choose between World and Campus Track
1. World Track
- Program-specific Internship / study abroad
- Program-specific Project / Thesis Module
- Program-specific Specialisation Module
- Exemplary course offering:
• Particles and Fields
• Solid-State Electronic Devices
• Advanced Optics
• Advanced Quantum Physics
2. Campus Track
Students who do not enter the World Track follow the Campus Track
5th and 6th Semester:
- Program-specific Project / Thesis Module
- Program-specific Specialization Module (please see World Track for exemplary course offering)
- Additional CORE Module
For further information, please see the program website: