1.Molecular physics and thermodynamics, basic principles, postulates and laws
2.Simple processes in gases, circular processes, Carnot's theorems
3.Mixtures of ideal gases, real gases, Joule-Thompson effect
4.Theory of humid air
5.Radiometrical and photometrical quantities
6.Thermal cameras, night vision cameras, camera systems, illumination
7.Deformation of solids
8.Lasers, masers - the principle of function
9.Ionizing radiation - biological effects, dosimetry
10.Transport of radioactive substances, radioactive waste
11.Nuclear accidents, Principles and goals of radiation protection
12.Theory of measurement and experiment, statistical evaluation of data
13.Spectral methods of studying substances
2.Simple processes in gases, circular processes, Carnot's theorems
3.Mixtures of ideal gases, real gases, Joule-Thompson effect
4.Theory of humid air
5.Radiometrical and photometrical quantities
6.Thermal cameras, night vision cameras, camera systems, illumination
7.Deformation of solids
8.Lasers, masers - the principle of function
9.Ionizing radiation - biological effects, dosimetry
10.Transport of radioactive substances, radioactive waste
11.Nuclear accidents, Principles and goals of radiation protection
12.Theory of measurement and experiment, statistical evaluation of data
13.Spectral methods of studying substances