Particle Physics and Quantum Mechanics
( 25 Modules )

Module #1
Introduction to Particle Physics
Overview of particle physics, importance, and historical background

Module #2
Fundamental Forces of Nature
Introduction to the four fundamental forces:gravity, electromagnetism, strong and weak nuclear forces

Module #3
Particle Classification
Introduction to fermions and bosons, quarks and leptons, and their properties

Module #4
Quantum Mechanics Basics
Wave-particle duality, uncertainty principle, and introduction to Schrödinger equation

Module #5
Solutions to Schrödinger Equation
Introduction to wave functions, probability amplitudes, and wave packets

Module #6
Spin and Angular Momentum
Introduction to spin, orbital angular momentum, and total angular momentum

Module #7
Interactions and Feynman Diagrams
Introduction to particle interactions, Feynman diagrams, and scattering processes

Module #8
Electromagnetic Interactions
Electromagnetic force, photon exchange, and QED (Quantum Electrodynamics)

Module #9
Weak Nuclear Interactions
Weak nuclear force, W and Z bosons, and beta decay

Module #10
Strong Nuclear Interactions
Strong nuclear force, gluons, and quark-quark interactions

Module #11
Quark Models and Hadrons
Quark models, hadrons, and baryons

Module #12
Leptons and Lepton Interactions
Leptons, lepton interactions, and neutrino physics

Module #13
Symmetries and Conservation Laws
Introduction to symmetries, conservation laws, and Noethers theorem

Module #14
Particle Decay and Lifetime
Particle decay modes, lifetime, and width

Module #15
Detector Physics and Experimental Methods
Introduction to particle detectors, experimental methods, and data analysis

Module #16
The Standard Model
Overview of the Standard Model, successes, and limitations

Module #17
Beyond the Standard Model
Introduction to beyond the Standard Model physics, SUSY, and extra dimensions

Module #18
Quantum Field Theory Basics
Introduction to quantum fields, Lagrangians, and Euler-Lagrange equations

Module #19
Renormalization Group and Running Couplings
Introduction to renormalization group, running couplings, and scale dependence

Module #20
Collider Physics and LHC
Introduction to collider physics, LHC, and particle production mechanisms

Module #21
Neutrino Physics and Oscillations
Introduction to neutrino physics, neutrino oscillations, and mixing

Module #22
Dark Matter and Dark Energy
Introduction to dark matter, dark energy, and their role in cosmology

Module #23
Astroparticle Physics and Cosmology
Introduction to astroparticle physics, cosmology, and the universes evolution

Module #24
Computational Tools for Particle Physics
Introduction to computational tools, such asROOT, Pythia, and MadGraph

Module #25
Course Wrap-Up & Conclusion
Planning next steps in Particle Physics and Quantum Mechanics career

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