Projects in winter semester 2025/26
Mathematical Instruments in the Museum being Explored - MIME
Slots: 13, Hours per week: 4, Completion within: 9 monthsFor students inrolled in: Applied Physics B.Sc., Biology B.Ed., Biology B.Sc., BMC B.Sc., Chemestry B.Ed., Chemestry B.Sc., Environmental Sciences with a Focus in Atmosphere and Climate B.Sc., Geography B.Ed., Geography B.Sc., Geosciences B.Sc., Informatics B.Ed., Informatics B.Sc., Mathematics B.Ed., Mathematics B.Sc., Mathematics-Infomatics B.Sc., Meteorology B.Sc., Molecular Biology B.Sc., Molecular Biotechnology B.Sc., Pharmaceutical Sciences, Physics B.Ed., Physics B.Sc.,
Discription
The project is dedicated to researching mathematical instruments from the collection of the Deutsches Museum in Munich. The focus is primarily on analog calculating instruments and early analog computers. The students examine these objects in their material, historical and technological dimensions. The aim is to develop new perspectives on these instruments and to present the results to the public in a way that is effective in terms of contemporary science communication - for example for future presentation in exhibitions.
Role of the students
The students choose an object from a pre-selection, formulate their own research question and carry out archive and object analyses on site at the Deutsches Museum. They present their findings in a lecture and in written formats such as blog posts or object profiles. A joint three-day research stay in Munich is part of the project and is expected to take place in calendar week 10 or 11 of 2026.
Qualifications
An interest in the history of science, technology or collections and in science communication is expected. Museum experience is not required. Basic knowledge of scientific work is helpful. Accompanying seminars at JGU provide theoretical and methodological foundations. The seminar dates will follow (probably Nov. 14/15, Nov. 28/29, Jan. 16/17).
(more information)
Projects in summer semester 2025
Creating an analysis framework for Coarse-Grained LLPS-Simulations
Slots: 1, Hours per week: 6, Completion within: 6 monthsFor students inrolled in: Applied Physics B.Sc., BMC B.Sc., Chemestry B.Ed., Chemestry B.Sc., Environmental Sciences with a Focus in Atmosphere and Climate B.Sc., Geography B.Ed., Geography B.Sc., Geosciences B.Sc., Informatics B.Ed., Informatics B.Sc., Mathematics B.Ed., Mathematics B.Sc., Mathematics-Infomatics B.Sc., Meteorology B.Sc., Molecular Biology B.Sc., Molecular Biotechnology B.Sc., Physics B.Ed., Physics B.Sc.,
Discription
Complementary to the work of our experimentalists in biology, we investigate the liquid-liquid phase separation (LLPS) of different proteins using coarse-grained molecular dynamics (MD) simulations. To create a phase diagram, many simulations with varying starting parameters are carried out and evaluated according to the same scheme. Additional features are to be added to the existing framework for this purpose.
Role of the students
The students implement new analysis features and thus gain an insight into research using biophysical simulations, as well as the development of research software using test-driven development.
Qualifications
Basic knowledge of statistical physics, programming and willingness to familiarize yourself with an interdisciplinary field are required. Knowledge of MD simulations, the Julia programming language, good English skills, Git and statistics are advantageous.
(more information)
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