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Lecture
Introduction to Electromagnetism
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Related lectures (31)
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Advanced General Chemistry I
Introduces the historical and modern understanding of atoms, quantum mechanics, and the electromagnetic spectrum.
Classical Scattering: Two-Body Dynamics
Covers the classical scattering of two-body systems and their energy levels.
Quantum Mechanics: Linear Algebra and Wave Mechanics
Explores the link between linear algebra and wave mechanics, focusing on operators, self-adjoint nature, Brillouin Zone, and a probabilistic approach to diffusion.
Energy Levels in Quantum Mechanics
Explains energy levels in quantum mechanics, including calculations with Planck's constant and electron charge.
Quantum Mechanics: Probability in Potential Wells
Delves into quantum mechanics, focusing on probability in potential wells and comparing classical and quantum predictions.
Basis of Nuclear Magnetization
Explores the classical and quantum-mechanical basis of nuclear magnetization and the quantization of angular momentum and energy levels.
Quantum Mechanics: Bound-State Problems
Analyzes bound-state problems, Bohr-Sommerfeld quantization, and tunneling through potential barriers in quantum mechanics.
Quantum to Classical Mechanics: MD & MC Simulations
Covers Molecular Dynamics and Monte Carlo Simulations, transitioning from Quantum to Classical Mechanics in computational chemistry.
Solutions of the Schrodinger Equation
Explores solutions of the Schrodinger Equation for different systems and discusses wave-particle duality, energy states, and quantum effects.
Quantum Mechanics: Free Carrier Concentration and Maxwell Distribution
Discusses quantum mechanics principles, focusing on free carrier concentration and Maxwell distribution in metals and gases.
