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22.01

Introduction to Nuclear Engineering and Ionizing Radiation

Prof. Michael Short | Spring 2024

Science & Math Physics Engineering Nuclear Engineering Nuclear Physics Science

前往原始課程

CC BY-NC-SA 4.0

課程簡介

This course provides an introduction to nuclear science and its engineering applications. It describes basic nuclear models, radioactivity, nuclear reactions, and kinematics; covers the interaction of ionizing radiation with matter, with an emphasis on radiation detection, radiation shielding, and radiation effects on human health; and presents energy systems based on fission and fusion nuclear reactions, as well as industrial and medical applications of nuclear science.

課程資訊

來源	MIT 開放式課程
科系	Nuclear Science and Engineering
語言	English
影片數	34

課程影片 (34)

1. Radiation History to the Present — Understanding the Discovery of the Neutron

1. Radiation History to the Present — Understanding the Discovery of the Neutron

2. Radiation Utilizing Technology

2. Radiation Utilizing Technology

3. Nuclear Mass and Stability, Nuclear Reactions and Notation, Introduction to Cross Section

3. Nuclear Mass and Stability, Nuclear Reactions and Notation, Introduction to Cross Section

4. Binding Energy, the Semi-Empirical Liquid Drop Nuclear Model, and Mass Parabolas

4. Binding Energy, the Semi-Empirical Liquid Drop Nuclear Model, and Mass Parabolas

5. Mass Parabolas Continued, Stability, and Half Life

5. Mass Parabolas Continued, Stability, and Half Life

6. The Q-Equation — The Most General Nuclear Reaction

6. The Q-Equation — The Most General Nuclear Reaction

7. Q-Equation Continued and Examples

7. Q-Equation Continued and Examples

8. Radioactive Decay — Modes, Energetics, and Trends

8. Radioactive Decay — Modes, Energetics, and Trends

10. Radioactive Decay Continued

10. Radioactive Decay Continued

11. Radioactivity and Series Radioactive Decays

11. Radioactivity and Series Radioactive Decays

12. Numerical Examples of Activity, Half Life, and Series Decay

12. Numerical Examples of Activity, Half Life, and Series Decay

13. Practical Radiation Counting Experiments

13. Practical Radiation Counting Experiments

14. Photon Interactions with Matter I — Interaction Methods and Gamma Spectral Identification

14. Photon Interactions with Matter I — Interaction Methods and Gamma Spectral Identification

15. Photon Interaction with Matter II — More Details, Shielding Calculations

15. Photon Interaction with Matter II — More Details, Shielding Calculations

16. Nuclear Reactor Construction and Operation

16. Nuclear Reactor Construction and Operation

17. Ion-Nuclear Interactions I — Scattering and Stopping Power Derivation, Ion Range

17. Ion-Nuclear Interactions I — Scattering and Stopping Power Derivation, Ion Range

18. Ion-Nuclear Interactions II — Bremsstrahlung, X-Ray Spectra, Cross Sections

18. Ion-Nuclear Interactions II — Bremsstrahlung, X-Ray Spectra, Cross Sections

19. Uses of Photon and Ion Nuclear Interactions — Characterization Techniques

19. Uses of Photon and Ion Nuclear Interactions — Characterization Techniques

20. How Nuclear Energy Works

20. How Nuclear Energy Works

21. Neutron Transport

21. Neutron Transport

22. Simplifying Neutron Transport to Neutron Diffusion

22. Simplifying Neutron Transport to Neutron Diffusion

23. Solving the Neutron Diffusion Equation, and Criticality Relations

23. Solving the Neutron Diffusion Equation, and Criticality Relations

24. Transients, Feedback, and Time-Dependent Neutronics

24. Transients, Feedback, and Time-Dependent Neutronics

25. Review of All Nuclear Interactions and Problem Set 7 Help

25. Review of All Nuclear Interactions and Problem Set 7 Help

26. Chernobyl — How It Happened

26. Chernobyl — How It Happened

27. Nuclear Materials — Radiation Damage and Effects in Matter

27. Nuclear Materials — Radiation Damage and Effects in Matter

28. Chernobyl Trip Report by Jake Hecla

28. Chernobyl Trip Report by Jake Hecla

29. Nuclear Materials Science Continued

29. Nuclear Materials Science Continued

30. Radiation Dose, Dosimetry, and Background Radiation

30. Radiation Dose, Dosimetry, and Background Radiation

31. Frontiers in Nuclear Medicine, Where One Finds Ionizing Radiation (Background and Other Sources)

31. Frontiers in Nuclear Medicine, Where One Finds Ionizing Radiation (Background and Other Sources)

32. Chemical and Biological Effects of Radiation, Smelling Nuclear Bullshit

32. Chemical and Biological Effects of Radiation, Smelling Nuclear Bullshit

33. Long-Term Biological Effects of Radiation, Statistics, Radiation Risk

33. Long-Term Biological Effects of Radiation, Statistics, Radiation Risk

34. Radiation Hormesis

34. Radiation Hormesis

35. Food Irradiation and Its Safety

35. Food Irradiation and Its Safety