- Lecture 01 Mechanical oscillations
- Lecture 02 Mechanical Waves. Acustics
- Lecture 03 Fundamentals of rheology, hydro and hemodynamics
- Lecture 04 Thermodynamics
- Lecture 05 Physics of cell membranes
- Lecture 06 Electricity
- Lecture 07 Electromagnetism
- Lecture 08 Optics
- Lecture 09 Thermal radiation. Elements of quantum mechanics
- Lecture 10 X-rays. Radioactivity
- Topic 01 4h Translational and rotational motion
- Topic 02 4h Oscillations
- Topic 03 4h Mechanical waves Acoustics Hearing physics.
- Topic 04 4h Continuum mechanics.
- Topic 05 4h Molecular physics.
- Topic 06 4h Fundamentals of Thermodynamics.
- Topic 07 2h Transport through cell membranes
- Topic 08 2h Biopotentials
- Topic 09 4h Electric field Electric current.
- Topic 10 4h Magnetic field Electromagnetic waves.
- Topic 11 4h Wave optics
- Topic 12 2h Geometric optics
- Topic 13 2h Thermal radiation
- Topic 14 4h Quantum optics
- Topic 15 4h Elements of quantum mechanics.
- Topic 16 2h Quantum-mechanical research methods
- Topic 17 2h X-radiation.
- Topic 18 4h Radioactivity Dosimetry.
- IWS 01 4h Translational and rotational motion
- IWS 02 4h Oscillations
- IWS 03 4h Mechanical waves Acoustics Hearing physics.
- IWS 04 4h Continuum mechanics.
- IWS 05 4h Molecular physics.
- IWS 06 4h Fundamentals of Thermodynamics.
- IWS 07 2h Transport through cell membranes
- IWS 08 2h Biopotentials
- IWS 09 4h Electric field Electric current.
- IWS 10 4h Magnetic field Electromagnetic waves.
- IWS 11 4h Wave optics
- IWS 12 2h Geometric optics
- IWS 13 2h Thermal radiation
- IWS 14 4h Quantum optics
- IWS 15 4h Elements of quantum mechanics.
- IWS 16 2h Quantum-mechanical research methods
- IWS 17 2h X-radiation.
- IWS 18 4h Radioactivity Dosimetry.
- IWS 19 6h Preparation for differential test
- Syllabus course - Biological physics with physical methods of analysis
- Work Program - Biological physics with physical methods of analysis (pharmacy)