Weeks | Topics |
1 |
Radiation types, Radiation intensity, Excitation and ionization, Radioactivity, Radioactive decay, Decay constant, Half life, Life expectancy, Biological half life, Effective half life, Radio-Ecological half-life
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2 |
Obtaining Radioisotopes in Biomedical Applications, Natural and Artificial Radioisotopes, Vocational and Non-Vocational Studies
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3 |
Radiation Units, Activity Account, Types of Radioactive Dissection, Radiation Dose, Equivalent Dose, Effective Equivalent Dose, Dose and Energy Relation
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4 |
Interaction of Radiation with Substance, Radiochemistry and Radiobiology
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5 |
Radiation Measurement Methods and Radiation Detectors in Biomedical Applications
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6 |
Radiation measurement tools (Dosimetry, detectors), Dose Measurement and Standards, Dose-Effect Curve and Risk Analysis
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7 |
Biological Effects of Radiation and Radiation ProtectionS
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8 |
Biological effects of radiation (Cell structure, effect of radiation on cell, Free radicals), Radiation biophysics and chemistry, Effects on radiation protein and DNA, Repair of formed injury
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9 |
MIDTERM EXAM
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10 |
Radiation in Medical and Research, Commercial Radiation Sources, Radiation Therapy, Isotopes Used in Industry, Somatic Effects of Radiation, Genetic Effects and Radioprotection
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11 |
Usage of Medical Materials and Foods in Sterilization, Enviable Use in Diagnosis, Radiation and Environmental Factor, Nuclear Facilities and Radioactive Release, Experimental Factors Between Cancer and Radiation, Protecting Against Overdose Radiation and Treatment Reality, Storage of Radioactive Residues
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12 |
Non-ionizing radiation (sources, units, areas), Basic safety standards of radiation protection, Exposure limits and regulatory laws
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13 |
Radiology Physics (Computer Tomography Imaging, Magnetic Resonance Imaging)
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14 |
Radiotherapy Physics (Radiotherapy Devices, Simulators, Cobalt-60 Treatment Devices, Medical Linear Aligners) Nuclear Medicine Physics (Positron Emission Tomography, Gamma Cameras and SPECT), Dosimetry
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