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