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MITOCW 22.01 - Introduction to nuclear engineering and ionizing radiation
MITOCW 22.01 - Introduction to nuclear engineering and ionizing radiation
Radiation history to present - understanding the discovery of the neutron
Radiation utilizing technology
Nuclear mass and stability, nuclear reactions and notation, introduction to cross section
Binding energy, the semi-empirical liquid drop nuclear model, and mass parabolas
Mass parabolas continued, stability, and half life
The Q-Equation - The most general nuclear reaction
Q-Equation continued examples
Radioctive dacay - Modes, energetics, and trends
Radioactive decay continued
Radioactivity and series radioactive decays
Numerical examples of activity, half life, and series decay
Practical radiation counting experiments
Photon interactions with matter I - interaction methods and gamma spectral identification
Photon interaction with matter II - More details, shielding calculations
Nuclear reactor construction and operation
Ion-nuclear interactions I - Scattering and stopping power derivation
Ion-nuclear interactions II - Bremsstrahlung, X-Ray spectra, cross sections
Uses of photons and Ion Nuclear interactions - characterization techniques
How nuclear energy works
Neutron transport
Simplifying neutron transport to neutron diffusion
Solving the neutron diffusion equation, and critically relations
Transients, feedback, and time-dependent neutronics
Review of all nuclear interctions and problem set 7 help
Chernobyl - how it happened
Nuclear materials - radiation damage and effects in matter
Chernobyl trip report by jake hecla
Nuclear materials science continued
Radiation dose , dosimetry, and background radiation
Frontiers in nuclear medicine, where one finds ionizing radiation
Chemical and biological effects of radiation, smelling nuclear bullshit
Long-term biological effects of radiation, statistics, Radiation risk
Radiation hormesis
Food irradiation and its safety