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Related lectures (29)
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Quantum Physics: Wave-Particle Duality
Explores wave-particle duality in quantum physics, covering interference, matter waves, and energy quantization.
Overview of Particle Physics and Rutherford Scattering
Covers the constituents of matter, fundamental forces, the Standard Model, natural units, and particle interaction experiments.
Quantum Fluids: Cross Section & Lifetime
Covers the concepts of cross section and lifetime in quantum fluids, focusing on transition and differential probabilities.
Particle Interactions: Forces and Newton's Laws
Explores particle interactions, forces, Newton's laws, and the center of mass in systems.
Atomic Theory: From Democritus to Bohr
Explores the historical evolution of atomic theory, from Democritus to Bohr, covering key concepts and breakthroughs.
Particle Detection: Stable Particles and Lifetime
Explores the detection of stable particles in particle physics experiments, covering observed and unobserved particles, their lifetimes, and the impact of Lorentz boost.
Principles of Quantum Mechanics: Wave-Particle Dualism
Explores the wave-particle dualism in quantum mechanics and the quantification of energy levels in atoms.
Kinetic Theory: Distribution Function Evolution
Explores the evolution of the distribution function describing particles in phase space.
Plasma Physics II: Fundamentals and Applications
Covers collisional and transport phenomena, collective phenomena, and wave-particle interactions in plasma physics.
Plasma Physics: Self-consistent Description
Covers the self-consistent description of a plasma and conservation principles.
Brownian Motion: Theory and Applications
Covers the theory of Brownian motion, diffusion, and random walks, with a focus on Einstein's theory for one-dimensional motion.
Particle Physics: Fundamentals and Interactions
Covers the basics of particle physics, including elementary particles, forces, the Standard Model, and rare phenomena at the LHC.
Asymptotic States and S-matrix: Operators
Explores asymptotic states, S-matrix, and operators in quantum field theory, emphasizing the role of discrete symmetries and complete sets of states.
Advanced General Chemistry I
Introduces the historical and modern understanding of atoms, quantum mechanics, and the electromagnetic spectrum.
Particle Detection and Detectors
Explores particle detection using scintillators, cloud chambers, and wire chambers for various applications.
Ceramic Powders: Electrostatic Repulsion and Steric Stabilization
Explores electrostatic repulsion, steric stabilization, and the rheology of ceramic powders.
Time Reversal Symmetry
Explores time reversal symmetry, invariance under parity, eigenstates, and spin in quantum physics.
Quantum Field Theory: Particle Interactions
Explores the Dirac equation, Pauli-Dirac representation, particle solutions, operators, particle types, Feynman diagrams, and quantum electrodynamics.
Plasma Collisions: Coulomb Force
Analyzes Coulomb collisions between charged particles and the conservation of energy, momentum, and angular momentum.
Exercise Session: Concepts of Neutron Collisions and Energy Loss
Involves solving exercises on neutron collisions, energy loss, and density concepts.
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