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Principles of Radiation Interactions Lecture Notes
This note is intended to provide a broad understanding of how different types of radiation deposit energy, including the creation and behavior of secondary radiations; of how radiation affects cells and why the different types of radiation have very different biological effects. Also explains the effects of radiation on biological systems including DNA damage, in vitro cell survival models and in vivo mammalian systems.
Author(s): Prof. Jeffrey Coderre
NA Pages
Introduction to Ionizing Radiation
This note provides an introduction to the basic properties of ionizing radiations and their uses in medicine, industry, science, and environmental studies. Also discusses natural and man-made radiation sources, energy deposition and dose calculations, and various physical, chemical, and biological processes and effects of radiation, with examples of their uses, and principles of radiation protection.
Author(s): Prof Jeffrey Coderre
NA Pages
Elements of Nuclear Engineering and Radiological Sciences
This note explains the following topics: Classical Two-Body Kinematics, Special Relativity, Particle-like Nature of Waves, Wave-like properties of Particles, The Shrodinger equation, The Rutherford-Bohr model of the Atom, The Hydrogen Atom, Many-Electron Atoms, Nuclear Properties, Force Between Nucleons, Radioactive Decay.
Author(s): University of Michigan
NA Pages
Nuclear Chemistry by W. Loveland
This note explains correctly the major ideas associated with Nuclear Chemistry listed below, to work numerical problems involving these concepts and to extend the use of these concepts to unknown situations.
Author(s): W Loveland
NA Pages
