- Criteria for assessing student performance
- Lecture 01 - Basics of mathematical understanding of biophysics
- Lecture 02 - Mechanical oscillations and waves
- Lecture 03 - Liquids and solids. Fundamentals of rheology and hemodinamyky. Models of the circulatory system. (1)
- Lecture 04 - Thermodynamics (2)
- Lecture 05 - Particle transport in biological systems. Bioelectric potentials (1)
- Lecture 06 - Electrostatics. DC. Alternating electric current
- Lecture 07 - The magnetic field. Electromagnetic Waves
- Lecture 08 - Wave optics. Polarization of light. The interaction of light with matter
- Lecture 09 - Thermal radiation. The main provisions of quantum mechanics (1)
- Lecture 10 - X-ray radiation. Radioactivity. Radiobiology (1)
- Practice 02 - Fundamentals of Mathematical Statistics
- Practice 03 - Processing of errors of medical and biological data
- Practice 04 - Mathematical processing of medical and biological data
- Practice 05 - Rotational motion. Biomechanics
- Practice 06 - Mechanical oscillations
- Practice 07 - Mechanical waves, Acoustics, Physics of hearing
- Practice 08 - Mechanical properties of solids and biological tissues
- Practice 09 - Mechanical properties of biological fluids and flow (2)
- Practice 10 - The mechanism of respiratory
- Practice 11 - The biomechanics of heart (1)
- Practice 12 - Fundamentals of Thermodynamics. Thermodynamics of biological systems
- Practice 13 - Physical issues of biomembranology
- Practice 14 - Mechanisms of active and passive transport (1)
- Practice 15 - Biopotentials (1)
- Practice 16 - Quizzes on the material content blocks 3-7
- Practice 17 - The electric field and Physical basis of electrography
- Practice 18 - The electric current. Electrophoresis
- Practice 19 - The magnetic field. Physical basis magnetobiology
- Practice 20 - Electromagnetic Waves. Reography
- Practice 21 - Medical electronics. Getting health information system and electrical medical equipment
- Practice 22 - Interference and diffraction of light.
- Practice 23 - Polarized Light
- Practice 24 - Geometrical Optics (1)
- Practice 25 - Thermal radiation. Thermography
- Practice 26 - Elements of quantum mechanics. Quantum mechanical methods of biological objects
- Practice 27 - Radiation and absorbtion of energy
- Practice 28 - X-ray radiation. Physical principles of X-ray and X-ray
- Practice 29 - Radioactivity. Physical basis of radio diagnostics and radiotherapy
- Practice 30 - Elements of dosimetry. Differential test
- IWS-02 - Infrasound
- IWS-03 - Properties of bio tissues
- IWS-04 - Haemodynamics and viscousity
- IWS-05 - Surface tension. Surface tension coefficient and methods of its determination. (1)
- IWS-06 - Thermodynamics (1)
- IWS-07 - Steady State for Open Systems, Prigojine's theorem (1)
- IWS-08 - Open biological systems, far from equilibrium. The concept of synergetics
- IWS-09 - Diffusion of molecules through membranes. Specifics of selective permeability
- IWS-1 - Ultrasound (1)
- IWS-10 - Ionic currents in biological membranes . The concept of reverse currents.
- IWS-11 - Modern diagnostic and physiotherapeutic equipment (2)
- IWS-12 - Magnetic properties of biological tissues. Physical foundations of magnetobiology
- IWS-13 - Medical optics devices
- IWS-14 - Photo effect and its application. Photovoltaic devices in medicine. (1)
- IWS-15 - The use of luminescence in medicine
- IWS-16 - Lasers and their application in medicine
- IWS-17 - X-rays in Medicine
- Syllabus course - Applied Physics
- Work Program - Applied physics in medicine
- Rector's Control