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Related lectures (31)
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Perturbation Theory: Time-Independent Part 1
Covers perturbation theory for time-independent cases, explaining non-degenerate scenarios and energy level perturbations.
Time-Independent Perturbation Theory: Degenerate Case
Covers the theory of time-independent perturbations in the degenerate case.
Basis of Nuclear Magnetization
Explores the classical and quantum-mechanical basis of nuclear magnetization and the quantization of angular momentum and energy levels.
The Intervening Universe
Explores the Event Horizon Telescope, cosmic microwave background, quasar absorption, and radio astronomy specifics.
Theory of Time-Independent Perturbation: Part 3
Covers the theory of time-independent perturbations and energy corrections.
Basic Steps in Magnetic Resonance
Covers the basic steps in magnetic resonance, including spins, energy levels, and NMR spectroscopy.
Quantum Nanostructures: Energy Levels and Superlattices
Explores quantized energy levels in quantum wells and the physics of superlattices.
Atomic Orbitals and Bonding
Explores atomic orbitals' principles and bonding concepts in chemistry.
Quantum Dots: Basic Concepts and Applications
Covers the concept of quantum dots, their similarities to atoms, and potential applications in quantum computation.
Quantum Mechanics: Energy Levels
Explores energy levels of particles, hydrogen-like atoms, quantum numbers, molecular bonding, and vibrational states.
Dilute Instanton Gas Approximation
Explores the dilute instanton gas approximation and its implications on classical solutions and the harmonic oscillator.
Many Body Perturbation: Solutions and Corrections
Covers solutions and corrections in many-body perturbation theory, emphasizing normalization conditions and electron-electron repulsion.
Statistical Thermodynamics: Boltzmann Distribution
Covers the Boltzmann distribution in statistical thermodynamics, focusing on the harmonic oscillator system and analyzing state occupancy with varying temperatures.
Advanced General Chemistry I
Explores advanced general chemistry concepts, including 3D particles, quantum numbers, electron structure, and hydrogen atom wave functions.
Quantum Mechanics: Fundamentals
Introduces the fundamentals of quantum mechanics, covering wave functions and energy levels.
Electronic Structure of Atoms: Hydrogen Atom
Explores the electronic structure of the hydrogen atom, covering radial wave functions, quantum numbers, and orbital sublayers.
Time-Independent Perturbations 2
Explores time-independent perturbations in quantum mechanics and their effects on energy levels and eigenstates.
Black Body Radiation / Atomic Lines
Explores black body radiation and atomic lines in astrophysics.
Harmonic Oscillators: Definitions and Dynamics
Covers the definitions and dynamics of harmonic oscillators, including ladder operators and coherent states.
Quantum Mechanics: Bound-State Problems
Analyzes bound-state problems, Bohr-Sommerfeld quantization, and tunneling through potential barriers in quantum mechanics.
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