Courses in Physics
Showing 1–92 of 92 course descriptions
- FYS3110 - Quantum mechanics (10 Credits)
- FYS3120 - Classical mechanics and electrodynamics (10 Credits)
- FYS3140 - Mathematical methods in physics (10 Credits)
- FYS3150 - Computational physics (10 Credits)
- FYS3410 - Condensed matter physics (10 Credits)
- FYS3510 - Subatomic physics with applications in astrophysics (10 Credits)
- FYS3520 - Nuclear physics, structure and spectroscopy (10 Credits)
- FYS3610 - Space physics (10 Credits)
- FYS4110 - Non-relativistic quantum mechanics (10 Credits)
- FYS4130 - Statistical mechanics (10 Credits)
- FYS4150 - Computational physics (10 Credits)
- FYS4160 - The general theory of relativity (10 Credits)
- FYS4170 - Relativistic quantum field theory (10 Credits)
- FYS4220 - Real time and embedded data systems (10 Credits)
- FYS4260 - Microsystems and electronic packaging and interconnection technologies (10 Credits)
- FYS4310 - Material science of semiconductors (10 Credits)
- FYS4340 - Diffraction methods and electronmicroscopy (10 Credits)
- FYS4411 - Computational physics II: Quantum mechanical systems (10 Credits)
- FYS4420 - Experimental techniques in condensed matter physics (10 Credits)
- FYS4430 - Condensed matter physics II (10 Credits)
- FYS4460 - Disordered systems and percolation (10 Credits)
- FYS4530 - Subatomic many-body theory II (10 Credits)
- FYS4540 - Energy physics- solar energy (10 Credits)
- FYS4550 - Experimental high energy physics (10 Credits)
- FYS4560 - Elementary particle physics (10 Credits)
- FYS4570 - Advanced Nuclear Structure and Reactions (10 Credits)
- FYS4610 - Magnetospheric processes (10 Credits)
- FYS4620 - An introduction to plasma physics (10 Credits)
- FYS4630 - Transport of radiation in the atmosphere (10 Credits)
- FYS5120 - Advanced quantum field theory (10 Credits)
- FYS5190 - Supersymmetry (10 Credits)
- FYS5310 - Electron Microscopy, Electron Diffraction and Spectroscopy II (10 Credits)
- FYS5440 - Neutron scattering methods for materials research (3 Credits)
- FYS9110 - Non-relativistic quantum mechanics (10 Credits)
- FYS9120 - Advanced quantum field theory (10 Credits)
- FYS9170 - Relativistic quantum field theory (10 Credits)
- FYS9180 - Condensed Matter Field Theory (10 Credits)
- FYS9190 - Supersymmetry (10 Credits)
- FYS9220 - Real time and embedded data systems (10 Credits)
- FYS9230 - Modelling and design of micro- and nanosystems (10 Credits)
- FYS9260 - Microsystems and electronic packaging and interconnection technologies (10 Credits)
- FYS9310 - Material science of semiconductors (10 Credits)
- FYS9320 - Electron Microscopy, Electron Diffraction and Spectroscopy II (10 Credits)
- FYS9411 - Computational physics II: Quantum mechanical systems (10 Credits)
- FYS9420 - Experimental techniques in condensed matter physics (10 Credits)
- FYS9430 - Condensed matter physics II (10 Credits)
- FYS9440 - Neutron scattering methods for materials research (3 Credits)
- FYS9530 - Subatomic many-body theory II (10 Credits)
- FYS9540 - Energy Physics - Solar Energy (10 Credits)
- FYS9550 - Experimental high energy physics (10 Credits)
- FYS9560 - Elementary particle physics (10 Credits)
- FYS9570 - Advanced Nuclear Structure and Reactions (10 Credits)
- FYS9610 - Magnetospheric processes (10 Credits)
- FYS9620 - An introduction to plasma physics (10 Credits)
- FYS9630 - Transport of radiation in the atmosphere (10 Credits)
- FYS-GEO4010 - Research project I (10 Credits)
- FYS-GEO4010 - Research project I (10 Credits)
- FYS-GEO4020 - Research project II (20 Credits)
- FYS-GEO4030 - Research project III (30 Credits)
- FYS-GEO4030 - Research project III (30 Credits)
- FYS-GEO4200 - Case study in physics of geological processes (10 Credits)
- FYS-GEO4300 - Methods in physics of geological processes (10 Credits)
- FYS-GEO4510 - Introduction to mechanical geomodeling (10 Credits)
- FYS-GEO9200 - Case study in physics of geological processes (10 Credits)
- FYS-GEO9300 - Methods in physics of geological processes (10 Credits)
- FYS-GEO9510 - Introduction to mechanical geomodeling (10 Credits)
- FYS-KJM4480 - Quantum mechanics for many-particle systems (10 Credits)
- FYS-KJM4710 - Radiation and radiation dosimetry (10 Credits)
- FYS-KJM4740 - MR-theory and medical diagnostics (10 Credits)
- FYS-KJM9480 - Quantum mechanics for many-particle systems (10 Credits)
- FYS-KJM9710 - Radiation and radiation dosimetry (10 Credits)
- FYS-KJM9740 - MR-theory and medical diagnostics (10 Credits)
- KJM-FYS5920 - Nuclear measurement techniques and instruments (10 Credits)
- MENA3100 - Characterization of materials (10 Credits)
- MENA3200 - Energy materials (10 Credits)
- MENA5010 - Nanophysics (10 Credits)
- MENA9010 - Nanophysics (10 Credits)
- MENA9510 - Advanced Characterization methods (5 Credits)
- MENA9520 - Ab initio modelling of solar cell materials (5 Credits)
- MNSES9100 - Science, ethics and society (5 Credits)
- UNIK4330 - Imaging and detection of optical and infrared radiation (10 Credits)
- UNIK4380 - Photonic crystals (10 Credits)
- UNIK4450 - Solar cells (10 Credits)
- UNIK4460 - Photovoltaic devices, technology and system (10 Credits)
- UNIK4510 - Satellite remote sensing using advanced radar instruments (10 Credits)
- UNIK4660 - Visualization of scientific data (10 Credits)
- UNIK4730 - Tjenesteorientert arkitekturimplementasjon (10 Credits)
- UNIK4800 - Renewable Energy: science and technology (10 Credits)
- UNIK9290 - Mobilitet i Internett og ad-hoc nettverk (10 Credits)
- UNIK9380 - Photonic crystals (10 Credits)
- UNIK9420 - Quantum computation and quantum information (10 Credits)
- UNIK9460 - Photovoltaic devices, technology and system (10 Credits)