516-0849/01 – X-Ray Diagnostical Methods (RD)
Gurantor department | Institute of Physics | Credits | 5 |
Subject guarantor | doc. Ing. Irena Hlaváčová, Ph.D. | Subject version guarantor | prof. Dr. RNDr. Jiří Luňáček |
Study level | undergraduate or graduate | Requirement | Compulsory |
Year | 3 | Semester | summer |
| | Study language | Czech |
Year of introduction | 2005/2006 | Year of cancellation | 2014/2015 |
Intended for the faculties | HGF | Intended for study types | Bachelor |
Subject aims expressed by acquired skills and competences
Arrange knowledge of generation of the X-rays and radiation and their basic features
Creatively combine knowledge from classical and modern physics, solid state, quantum and nuclear physics and apply it to practice
Come to realize the physical principles of the processes taking course in matter interacting with the high-energy electromagnetic radiation and their consequences
Acquire compendium of application possibilities in industry
Summarize the principles of ionizing radiation protection
Solve the simple exercises and discuss their results
Interpret knowledge in term of solving of the practice problems
Teaching methods
Lectures
Individual consultations
Project work
Other activities
Summary
Předmět patří do skupiny profilových předmětů oboru a navazuje na předmět Rentgenové diagnostické metody. Cílem předmětu je dát posluchačům systematický výklad teoretických a praktických aspektů radiační defektoskopie a fyzikálních základů ionizujícího záření s prostředím.
Studenti jsou uvedeni do problematiky praktických radiačních defektoskopických zkoušek.
Compulsory literature:
Chung, F.H., Smith, D.K.: Industrial Applications of X-Ray Diffraction
Recommended literature:
Brown, J.G.: X-rays and their applications
Way of continuous check of knowledge in the course of semester
E-learning
Other requirements
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Prerequisities
Subject has no prerequisities.
Co-requisities
Subject has no co-requisities.
Subject syllabus:
1. Electromagnetic radiation – nature, dual character, wave and particle behaviour.
2. Roentgen radiation – generation, characteristics, sources.
3. Gamma radiation – generation, characteristics, sources.
4. High energy photon interaction with matter – photoelectric effect, Compton effect, pair generation.
5. Roentgen and gamma radiation detection.
6. Difraction analysis methods (X-ray, neutron, electron).
7. Application of hard electromagnetic radiation in industry (material defect detection, seam supervision)
8. Application of hard electromagnetic radiation in health care, chemistry, biology and other branches
(diagnostics, radiation).
9. The principles of ionising radiation protection and safety on X- ray working places.
Conditions for subject completion
Occurrence in study plans
Occurrence in special blocks
Assessment of instruction
Předmět neobsahuje žádné hodnocení.