Covers the basics of quantum field theory, emphasizing the transition from classical to quantum descriptions and the role of fields in mediating interactions.
Explores demystifying quantum mechanics through logical inference and robust experimental descriptions, emphasizing the separation of conditions and fundamental quantum equations.
Explores quantum mechanics fundamentals, including wave mechanics, Schrödinger equation, and Dirac equation, along with applications in decay rates and particle accelerators.
Explores symmetries in particle physics, covering parity, charge conjugation, fermion quantum numbers, chirality, and their applications in understanding particle interactions.
