FYSSYVYDI Advanced Studies in Physics, Nuclear Physics, Nuclear Astrophysics, and Radiation Applications (80+ cr)
Description
A minimum of 80 cr of advanced courses is required. This includes 42 cr of compulsory courses, including Nuclear Physics A and Nuclear Physics B. In order to encourage one to acquire wide knowledge of physics, a minimum of 25 cr of advance studies have to be selected outside this specialisation. A minimum of 14 cr can be selected from advanced courses that are related to this specilisation, support learning of physics methodologies and widen the general knowledge of physics.
Learning outcomes
After completing the studies, students are able to
Describe the theoretical foundations and experimental methods of a given subfield
Use relevant modelling to describe natural phenomena
Solve problems related to physical phenomena by using analytical, numerical or experimental methods
Critically assess and use the research results and methods of a given subfield
Master oral and written science communication skills
Professionally act as an expert, researcher, and developer.
Description of prerequisites
Good competency in basic and intermediate study modules in physics and mathematics.
Structure
Compulsory advanced studies
Select all (42 cr)Optional advanced studies
Select min. 25 crOther advanced studies within specialisation
Select min. 0 crOther recommended advanced studies
Select min. 0 cr- FYSS7641 Statistical Physics in and out of Equilibrium (6–9 cr)Not published for this curriculum period
Practical training and working life skills
Select min. 0 cr