University :Mansoura University |
Faculty :Faculty of Science |
Department :Physics Department |
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| 1- Course data :- |
| | Code: | 41401 | | Course title: | نووية ومفاعلات ووقاية إشعاعية | | Year/Level: | رابعة فيزياء حيوية | | Program Title: | | | Specialization: | | | Teaching Hours: | Theoretical: | 4 | Tutorial: | | Practical: | 4 |
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| 2- Course aims :- |
| - a1- outline the basic information of nuclear models. •
- a2- introduce the principles of different types of nuclear radiations. •
- a3- study the interaction of nuclear radiation with matter. •
- a4- introduce the principles of different techniques of detection of nuclear radiations •
- a5- introduce the Concepts of fuel cycles
- a6- study nuclear and different neutron reactions
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| 3- Course Learning Outcomes :- |
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| 4- Course contents :- |
| | No | Topics | Week |
|---|
| 1 | Nuclear Models, introduction | | | 2 | Single-Particle Potential | | | 3 | spin-orbit pot - j-j coupling | | | 4 | analysis of shell-model predictions | | | 5 | Nuclear Forces | | | 6 | Nuclear Reactions | | | 7 | Reaction cross section - Nuclear fusion | | | 8 | Problems & training | | | 9 | Measurment of radiation dose, ionizing radiation - Regulations & N.R.B.D | | | 10 | External Hazards & sheilding level - Limitation of dose rate & IRH. | | | 11 | ALI & precusions of unsealed radioactive materials - Contamination | | | 12 | General Introduction - Concepts of fuel cycles | | | 13 | nuclear and neutron reactions- Different types of nuclear reactors | | | 14 | The steady state reactor core-General form of transport eqaution | | | 15 | Problem solving-Some issues regarding transient reactor behaviour | |
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| 5- Teaching and learning methods :- |
| | S | Method |
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| One lecture per week | | One 4hrs practical class per week |
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| 6- Teaching and learning methods of disables :- |
| No data found. |
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| 7- Student assessment :- |
| A. Timing |
| | No | Method | Week |
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| 1 | Practical exam | 12 | | 2 | Final exam | 14 | | 3 | Oral exam | 14 |
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| B. Degree |
| | No | Method | Degree |
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| 1 | Mid_term examination | 0 | | 2 | Final_term examination | 70 | | 3 | Oral examination | 10 | | 4 | Practical examination | 20 | | 5 | Semester work | 0 | | 6 | Other types of asessment | 0 | | Total | 100% |
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| 8- List of books and references |
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| 9- Matrix of knowledge and skills of the course |
| | S | Content | Study week |
|---|
| Nuclear Models, introduction | | | Single-Particle Potential | | | spin-orbit pot - j-j coupling | | | analysis of shell-model predictions | | | Nuclear Forces | | | Nuclear Reactions | | | Reaction cross section - Nuclear fusion | | | Problems & training | | | Measurment of radiation dose, ionizing radiation - Regulations & N.R.B.D | | | External Hazards & sheilding level - Limitation of dose rate & IRH. | | | ALI & precusions of unsealed radioactive materials - Contamination | | | General Introduction - Concepts of fuel cycles | | | nuclear and neutron reactions- Different types of nuclear reactors | | | The steady state reactor core-General form of transport eqaution | | | Problem solving-Some issues regarding transient reactor behaviour | |
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| Course Coordinator(s): - |
| - Ali Hassan Mohamed Elfarash
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| Head of department: - |
| Mohamed Abd Elqader Hassan Madkor |
