Fundamentals of Nuclear Physics
( 25 Modules )

Module #1
Introduction to Nuclear Physics
Overview of the course, importance of nuclear physics, and historical background

Module #2
Atomic Structure
Review of atomic structure, electron configuration, and atomic properties

Module #3
Nuclear Stability
Introduction to nuclear stability, binding energy, and the nuclear force

Module #4
Nuclear Reactions
Types of nuclear reactions, reaction rates, and energy released

Module #5
Radioactivity
Definition, types, and characteristics of radioactive decay

Module #6
alpha, beta, and gamma decay
Mechanisms and characteristics of alpha, beta, and gamma decay

Module #7
Radioactive Decay Kinetics
Mathematical modeling of radioactive decay, half-life, and decay constants

Module #8
Nuclear Energy Levels
Energy levels in nuclei, shell model, and nuclear shell structure

Module #9
Nuclear Forces
Strong nuclear force, weak nuclear force, and electromagnetic force

Module #10
Nuclear Models
Liquid drop model, shell model, and collective model of the nucleus

Module #11
Nuclear Interactions
Nucleon-nucleon interactions, scattering, and reaction mechanisms

Module #12
Nuclear Astrophysics
Nuclear reactions in stars, nucleosynthesis, and cosmic rays

Module #13
Nuclear Medicine
Applications of nuclear physics in medicine, diagnostics, and therapy

Module #14
Nuclear Energy
Principles of nuclear reactors, fuel cycles, and safety aspects

Module #15
Radiation Detection and Measurement
Types of radiation detectors, counting statistics, and data analysis

Module #16
Radiation Protection
Principles of radiation protection, dose limits, and safety regulations

Module #17
Nuclear Waste Management
Challenges and strategies for nuclear waste disposal and storage

Module #18
Nuclear Security
Threats and risks of nuclear proliferation, safeguards, and non-proliferation

Module #19
Computational Methods in Nuclear Physics
Simulation techniques, Monte Carlo methods, and computational tools

Module #20
Experimental Methods in Nuclear Physics
Experimental techniques, data acquisition, and analysis in nuclear physics

Module #21
Nuclear Physics and the Environment
Applications of nuclear physics in environmental monitoring and remediation

Module #22
Nuclear Physics and Industry
Industrial applications of nuclear physics, radiation processing, and sterilization

Module #23
Nuclear Physics and Materials Science
Applications of nuclear physics in materials research and development

Module #24
Current Research in Nuclear Physics
Overview of ongoing research in nuclear physics, future prospects, and challenges

Module #25
Course Wrap-Up & Conclusion
Planning next steps in Fundamentals of Nuclear Physics career

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Fundamentals of Nuclear Physics ( 25 Modules )

Fundamentals of Nuclear Physics
( 25 Modules )