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Courses in Physics

Showing 1–98 of 98 courses
Course Credits
FYS-KJM4740 – MR-theory and medical diagnostics (10 credits) 10
FYS-KJM9740 – MR-theory and medical diagnostics (10 credits) 10
FYS-MED4750 – Medical Imaging (5 credits) 5
FYS-MED9750 – Medical Imaging (5 credits) 5
FYS-STK3155 – Applied data analysis and machine learning (10 credits) 10
FYS-STK4155 – Applied data analysis and machine learning (10 credits) 10
FYS2160 – Thermodynamics and statistical physics (10 credits) 10
FYS2810 – Undergraduate Research I (10 credits) 10
FYS3110 – Quantum mechanics (10 credits) 10
FYS3120 – Classical mechanics and electrodynamics (10 credits) 10
FYS3140 – Mathematical methods in physics (10 credits) 10
FYS3150 – Computational physics (10 credits) 10
FYS3220 – Linear circuit electronics (10 credits) 10
FYS3231 – Sensors and measurement technology (10 credits) 10
FYS3240 – Data acquisition and control (10 credits) 10
FYS3400 – Condensed matter physics (10 credits) 10
FYS3500 – Introduction to nuclear and particle physics (10 credits) 10
FYS3600 – Space physics and technology (10 credits) 10
FYS3700 – Biological and medical physics (10 credits) 10
FYS4010 – Research project I (10 credits) 10
FYS4020 – Research project II (20 credits) 20
FYS4030 – Research project III (30 credits) 30
FYS4110 – Modern quantum mechanics (10 credits) 10
FYS4130 – Statistical mechanics (10 credits) 10
FYS4150 – Computational physics (10 credits) 10
FYS4160 – The general theory of relativity (10 credits) 10
FYS4170 – Relativistic quantum field theory (10 credits) 10
FYS4220 – Real Time and Embedded Data Systems (10 credits) 10
FYS4231 – Sensors and measurement technology (10 credits) 10
FYS4239 – Electrical bioimpedance (10 credits) 10
FYS4240 – Data acquisition and control (10 credits) 10
FYS4250 – Biomedical instrumentation (10 credits) 10
FYS4260 – Microsystems and electronic packaging and interconnection technologies (10 credits) 10
FYS4310 – Material science of semiconductors (10 credits) 10
FYS4340 – Diffraction methods and electronmicroscopy (10 credits) 10
FYS4411 – Computational physics II: Quantum mechanical systems (10 credits) 10
FYS4420 – Experimental techniques in condensed matter physics (10 credits) 10
FYS4430 – Condensed matter physics II (10 credits) 10
FYS4460 – Disordered systems and percolation (10 credits) 10
FYS4465 – Dynamics of complex media (10 credits) 10
FYS4505 – Methods and instrumentation for nuclear and particle physics (10 credits) 10
FYS4525 – Advanced nuclear reactions and applications in astrophysics (5 credits) 5
FYS4530 – Subatomic many-body theory II (10 credits) 10
FYS4535 – Medical applications of nuclear physics (10 credits) 10
FYS4555 – Particle physics (10 credits) 10
FYS4565 – Physics and applications of accelerators and beams (10 credits) 10
FYS4570 – Advanced Nuclear Structure and Reactions (10 credits) 10
FYS4580 – Nuclear technology (10 credits) 10
FYS4600 – Space physics and technology (10 credits) 10
FYS4620 – An introduction to plasma physics (10 credits) 10
FYS4630 – Transport of radiation in the atmosphere (10 credits) 10
FYS4640 – Space weather and satellite navigation systems (10 credits) 10
FYS4700 – Biological and medical physics (10 credits) 10
FYS4715 – Biological physics (10 credits) 10
FYS4720 – Cellular radio biology (10 credits) 10
FYS4730 – Medical radiation physics for radiotherapy (10 credits) 10
FYS4761 – CT- and X-ray diagnostic techniques (5 credits) 5
FYS5120 – Advanced quantum field theory (10 credits) 10
FYS5190 – Supersymmetry (10 credits) 10
FYS5310 – Electron Microscopy, Electron Diffraction and Spectroscopy II (10 credits) 10
FYS5555 – Research-based particle physics (10 credits) 10
FYS9110 – Modern quantum mechanics (10 credits) 10
FYS9120 – Advanced quantum field theory (10 credits) 10
FYS9180 – Condensed Matter Field Theory (10 credits) 10
FYS9190 – Supersymmetry (10 credits) 10
FYS9220 – Real Time and Embedded Data Systems (10 credits) 10
FYS9230 – Modelling and design of micro- and nanosystems (10 credits) 10
FYS9239 – Electrical bioimpedance (10 credits) 10
FYS9250 – Biomedical instrumentation (10 credits) 10
FYS9260 – Microsystems and electronic packaging and interconnection technologies (10 credits) 10
FYS9310 – Material science of semiconductors (10 credits) 10
FYS9320 – Electron Microscopy, Electron Diffraction and Spectroscopy II (10 credits) 10
FYS9340 – Diffraction methods and electronmicroscopy (10 credits) 10
FYS9411 – Computational physics II: Quantum mechanical systems (10 credits) 10
FYS9420 – Experimental techniques in condensed matter physics (10 credits) 10
FYS9465 – Dynamics of complex media (10 credits) 10
FYS9505 – Methods and instrumentation for nuclear and particle physics (10 credits) 10
FYS9525 – Advanced nuclear reactions and applications in astrophysics (5 credits) 5
FYS9530 – Subatomic many-body theory II (10 credits) 10
FYS9535 – Medical applications of nuclear physics (10 credits) 10
FYS9555 – Research-based particle physics (10 credits) 10
FYS9565 – Physics and applications of accelerators and beams (10 credits) 10
FYS9570 – Advanced Nuclear Structure and Reactions (10 credits) 10
FYS9580 – Nuclear technology (10 credits) 10
FYS9620 – An introduction to plasma physics (10 credits) 10
FYS9630 – Transport of radiation in the atmosphere (10 credits) 10
FYS9640 – Space weather and satellite navigation systems (10 credits) 10
FYS9720 – Cellular radio biology (10 credits) 10
FYS9730 – Medical radiation physics for radiotherapy (10 credits) 10
FYS9761 – CT- and X-ray diagnostic techniques (5 credits) 5
MENA3100 – Characterization of materials (10 credits) 10
MENA3200 – Energy materials (10 credits) 10
MENA5010 – Nanophysics (10 credits) 10
MENA9010 – Nanophysics (10 credits) 10
MENA9510 – Advanced Characterization methods (5 credits) 5
MENA9520 – Ab initio modelling of solar cell materials (5 credits) 5
MNSES9100 – Science, ethics and society (5 credits) 5
UNIK4480 – Optics and light (10 credits) 10