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Lecture
Nuclear Reactor Physics: Fission and Reactivity
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Introduction and Review of Nuclear Physics
Covers the basics of nuclear physics, including reactor physics, neutron interactions, fission, fusion, and radioactivity.
Nuclear fission: Energy Release and Fission Fragments
Explores energy release from fission, fuel burnup, and fission fragments yields and decay in a nuclear reactor.
Introduction to Nuclear Engineering
Covers the basics of nuclear physics, benefits of nuclear energy, reactor classification, fission reactions, and decay heat removal.
Nuclear Reactions: Basics and Applications
Explores nuclear reactions, radioactivity, energy release, and decay heat removal in reactors.
Nuclear Reactor Physics
Covers exercises on nuclear reactor physics, including mass calculations, heat evacuation, radioactive equilibrium, and critical parameters.
Interaction of Neutrons with Matter: Nuclear Fission
Covers Doppler effects, anisotropic scattering corrections, and nuclear fission in reactors.
Interactions of Neutrons with Matter
Explores the interaction of neutrons with matter through cross sections, scattering, absorption, and energy dependencies.
Nuclear Reactor Concepts: Safety and Sustainability
Explores new nuclear reactor concepts for enhanced safety and sustainability, covering topics from Generation-III to Generation-IV and beyond.
Reactor Kinetics: Point Kinetics Equations
Covers reactor kinetics, point kinetics equations, delayed neutrons, and decay heat in nuclear reactors.
Introduction to Nuclear Engineering: Reactor Kinetics
Introduces reactor kinetics in nuclear engineering, covering reactivity control, critical conditions, moderator materials, and chain reaction control.
