Lectures related to Nuclear Conversion: Basics and Reactors

Introduction and Review of Nuclear Physics

Covers the basics of nuclear physics, including reactor physics, neutron interactions, fission, fusion, and radioactivity.

Introduction to Nuclear Engineering

Introduces nuclear engineering, covering reactions, chain reactions, fuel cycle, criticality, and multiplication factors.

Nuclear Demands: Uranium Reserves, Consumption, and Power Plants

Explores uranium demands, global energy systems, nuclear power plant distribution, and electricity costs.

Nuclear Reactions: Basics and Applications

Explores nuclear reactions, radioactivity, energy release, and decay heat removal in reactors.

Introduction to Nuclear Engineering: Chain Reactions and Fuel Cycles

Explores chain reactions, criticality, reactor types, and fuel cycles in nuclear engineering.

Introduction to Nuclear Engineering

Introduces nuclear engineering concepts, covering reactor technology, physics, safety measures, fission reactions, and reactor safety.

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 Technology: Reactivity Variations and Control

Explores reactivity variations in reactor technology, covering short-term, medium-term, and long-term effects, means of control, and consequences.

Introduction to Nuclear Engineering

Introduces nuclear engineering, covering reactor types, components, and thermodynamics, including pressurized water reactors and boiling water reactors.

Interactions of Neutrons with Matter

Explores the interaction of neutrons with matter through cross sections, scattering, absorption, and energy dependencies.

Nuclear Energy: Basics and Impact

Covers the basics of nuclear reactions, the history of nuclear energy, and its pros and cons.

Physics of Nuclear Reactors: Fundamentals and Advanced Concepts

Explores the fundamentals and challenges of nuclear reactors, covering neutron diffusion, fission, breeding, transmutation, and advanced technologies.

Nuclear Reactions: Synthesis and Applications

Explores artificial nuclear reactions, their applications in various fields, and the effects of radiation on health.

Nuclear Reactor Safety Principles

Covers nuclear reactor safety principles, radionuclides, safety barriers, decay heat, criticality experiments, and emergency cooling systems.

Physics of Nuclear Reactors: Gas-Cooled Reactors

Explores gas-cooled nuclear reactors, covering basic principles, reactor concepts, fuel types, and advanced technologies.

Collisions in Physics: Conservation of Momentum and Energy

Explains the principles of momentum and energy conservation in collisions, highlighting their applications in physics and real-world scenarios.

Reactor Technology: Reactivity Variations and Control

Explores reactivity variations, control mechanisms, and the impact of the Doppler effect on reactor temperature.

Nuclear Reactors: Multigroup Theory

Covers the basics of nuclear reactors, including nuclear fission, neutron diffusion, and multigroup theory.

Nuclear Reactor Physics

Covers exercises on nuclear reactor physics, including mass calculations, heat evacuation, radioactive equilibrium, and critical parameters.

Introduction and Review of Nuclear Physics

Covers the basics of nuclear physics, including nucleus composition, binding energy, mass defect, nuclear reactions, and radioactivity.