FU:APZPAT51 Ph. Methods Measuring E Q II - Course Information
APZPAT51 Physical Methods of Measuring of Environmental Quantities II
Institute of physics in Opavawinter 2021
- Extent and Intensity
- 2/2/0. 5 credit(s). Type of Completion: zk (examination).
- Teacher(s)
- RNDr. Daniel Charbulák, Ph.D. (lecturer)
Ing. Miroslav Vala, CSc. (lecturer) - Guaranteed by
- RNDr. Daniel Charbulák, Ph.D.
Institute of physics in Opava - Prerequisites
- (FAKULTA(FU) && TYP_STUDIA(B))
Successful completion of the course "Physical methods of measuring quantities in the environment I" - Course Enrolment Limitations
- The course is also offered to the students of the fields other than those the course is directly associated with.
- fields of study / plans the course is directly associated with
- Environmental Monitoring (programme FU, APFYZB)
- Course objectives
- The course will provide students with basic physical knowledge in the field of physical quantities determining the environment and measuring methods and principles of measurement applicable to their measurement. This part II includes physical theory, physical methods and measurement principles that are relevant to the issue of measuring non-ionizing radiation. Emphasis is placed on the physical nature of the problem and the application of physical theory to the measurement of non-ionizing radiation and protection against the adverse effects of this radiation.
- Learning outcomes
- The student will be able to define a physical quantity characterizing a given type of EM radiation, describe the measuring method and explain the physical nature of the problem.
- Syllabus
- 1. Non-ionizing and ionizing radiation. Definition of radiation sources (natural, artificial), particle and wave theory of light (radiation), quantum nature of radiation. Fundamentals of field theory. Non-ionizing fields and radiation, electric and magnetic fields - physical quantities, unified theory of electromagnetic field EMF - Maxwell's equations, unified theory of electroweak forces. Energy effects of EMF - Poyting vector. EMF and its spectrum, distribution according to wavelengths (frequencies).
- 2. Optical radiation. Visible light region VIS and peripheral parts of the spectrum, ultraviolet UV and infrared IR radiation. Monochromatic radiation and problems of laser radiation.
- 3. Physiology of vision. Light as a specific part of EMF. The eye and its anatomy. The optic nerve and the perception of light radiation. Terminology and basic units in lighting. Object visibility, contrast, glare, visual fatigue. Radiation polarization. Acute damage to the eye by sources of significant intensity (lasers II, IV class) and sources with a wide spectrum (UV and X-ray).
- 4. Influence of light and lighting on biological systems. Influence on humans and their biological rhythms. Daylight and artificial lighting, vision conditions for various visual tasks. Kruihof diagram of light comfort, light source temperature, color rendering. Requirements for daytime, artificial and mixed workplace lighting. Hygienic minima. Light deficit syndrome SAD. Influence of the peripheral parts of the visible spectrum of ultraviolet and infrared radiation
- 5. Problems of measuring optical VIS radiation and its edge spectra IR and UV. Measurement of human exposure to non-ionizing radiation from technological sources with a frequency of 3.10EE11 to 1.7.10EE15 Hz. Light intensity, radiant flux density, measurement of UV radiation, radiation dose, measurement in narrower bands of the IR spectrum, measurement of laser radiation parameters. Assessment of radiation exposure and protection of health against its adverse effects.
- 6. Artificial sources of EMF and health risks. LF and HF sources. Definition of the area of industrial frequencies and radio waves and their specifics of EMF propagation. Overview of EMG sources in relation to EMF (electro smog) pollution. Biological effects of EMF. Specific absorbed power, SAR unit, EMF exposure, penetration depth. Problems of HF, VHF and GSM transmitters - mobile phones. Effect of high power EMF on a biological system. EM impulse (weapon systems). Electric shock.
- 7. Problems of EMF measurement. Monitoring receivers and spectrum analyzers. EMF personal dosimeters. Assessment of EMF exposure and protection of health against its adverse effects, hygiene standards.
- Literature
- required literature
- Svačina, J.: Elektromagnetická kompatibilita. Brno, 2001.
- Vala M.: Fyzikální metody a principy měření veličin I. Opava, 2008.
- Vala M.: Fyzikální metody a principy měření veličin II. Opava, 2008.
- recommended literature
- König H.: Neviditelná hrozba?. Praha, 2002. ISBN 80-86167-15-1.
- Main I. G.: Kmity a vlny ve fyzice. Academia, Praha, 1990.
- Teaching methods
- Lectures Demonstrations, projections Exercises Discussions Individual consultations
- Assessment methods
- Attendance at seminars at least 75%, elaboration of assigned seminar work.
- Language of instruction
- Czech
- Further Comments
- The course is taught annually.
The course is taught: every week.
- Enrolment Statistics (winter 2021, recent)
- Permalink: https://is.slu.cz/course/fu/winter2021/APZPAT51