Exam topics
2019/2020 II. semester
1 Principles of radiation protection and their validation
  Cellular effects of ionizing radiation
   
2 The main tools used in healthcare applications of shielding for x-ray, gamma and beta radiation
  Influencing factors of the biological effects of ionizing radiations
   
3 The basics of dimensioning shielding and shielded walls
  The possible type of the dose-effect relations and their main characteristics.
   
4 Use of personal protective equipments at workplaces using X-rays and radioactive materials
  The stability of the nucleus, the law of radioactive decay, decay lines
   
5 Optimization principles
  Describe and characterize the ionizing radiations
   
6 Optimization of radiation protection, concept and use of dose limitations
  The concept of LET value, quality of radiation and relative biological effects.
   
7 Describe the system of Hungarian dose limitations
  Interpretation of the radiation weighting factors and the equivalent dose.
   
8 Categorization of workers exposed to radiation exposure
  Definition, use and calculation of effective dose.
   
9 Classification of workspaces (requirements for supervised and controlled areas)
  Use and estimation of an equivalent and effective dose.
   
10 The purpose of the Radiation Protection Description and its main content requirements
  Characteristics and main application of gas ionization detectors
   
11 The purpose of MSSZ (Workplace Radiation Protection Rules) its main content requirements
  Scintillation detection principle and application possibilities
   
12 INES classification and investigation of extraordinary events.
  Functional principle and application of thermoluminescent dosimeters
   
13 Describe the international major organizations playing role in international regulation and relevant recommendations and guidelines.
  Functional principle and application of thermoluminescent dosimeters
   
14 Scintillation detection principle and application possibilities
  Principles of radiation protection and their validation
   
15 Influencing factors of the biological effects of ionizing radiations
  The main tools used in healthcare applications of shielding for x-ray, gamma and beta radiation
   
16 Use and estimation of an equivalent and effective dose.
  The basics of dimensioning shielding and shielded walls
   
17 Functional principle and application of thermoluminescent dosimeters
  Use of personal protective equipments at workplaces using X-rays and radioactive materials
   
18 Describe and characterize the ionizing radiations
  Optimization principles
   
19 Interpretation of the radiation weighting factors and the equivalent dose.
  Optimization of radiation protection, concept and use of dose limitations
   
20 The possible type of the dose-effect relations and their main characteristics.
  Describe the system of Hungarian dose limitations
   
21 Characteristics and main application of gas ionization detectors
  Categorization of workers exposed to radiation exposure
   
22 The stability of the nucleus, the law of radioactive decay, decay lines
  Classification of workspaces (requirements for supervised and controlled areas)
   
23 The possible type of the dose-effect relations and their main characteristics.
  The purpose of the Radiation Protection Description and its main content requirements
   
24 Interpretation of the radiation weighting factors and the equivalent dose.
  The purpose of MSSZ (Workplace Radiation Protection Rules) its main content requirements
   
25 Use and estimation of an equivalent and effective dose.
  INES classification and investigation of extraordinary events.
   
26 Definition, use and calculation of effective dose.
  Describe the international major organizations playing role in international regulation and relevant recommendations and guidelines.