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Lecture
Quantum Mechanics: Second Quantification
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Overview of Particle Physics and Rutherford Scattering
Covers the constituents of matter, fundamental forces, the Standard Model, natural units, and particle interaction experiments.
Quantum Field Theory: Introduction
Introduces Quantum Field Theory as the way to reconcile Quantum Mechanics with Relativity, emphasizing the need for a local field due to the impossibility of instantaneous interactions at a distance.
Principles of Quantum Mechanics
Explores the principles of quantum mechanics, including discrete light properties and wave-particle dualism.
Quantum Mechanics: Wavefunctions and Operators
Explains wave-particle duality, complex wavefunctions, Hermitian operators, and the quantization of particle energies in quantum mechanics.
Quantum Physics: Interpretations and Dynamics
Explores quantum physics concepts, dynamics, interpretations, and implications on classical mechanics.
Atomic Structure: Quantum Mechanics
Explores atomic structure, quantum mechanics, electromagnetic radiation, and historical atomic theory development.
Advanced General Chemistry I: Quantum Mechanics Principles
Introduces the principles of quantum mechanics, focusing on particle confinement and energy quantization.
Quantum Physics: Conformal Blocks and Eigenstates of Energy
Explores conformal blocks in quantum physics and eigenstates of energy.
Indistinguishable Particles in Quantum Mechanics
Explores indistinguishable particles in quantum mechanics, discussing symmetry, density matrix, quantum statistics, exclusion principle, and particle behavior.
Quantum Mechanics: Dirac Notation
Introduces quantum mechanics basics, including wave-particle duality and Dirac notation.
