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Related lectures (32)

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Lorentz Invariant Formulation of Cross Sections

Covers the Lorentz invariant formulation of cross sections in particle physics, including decay rates and scattering processes.

Quantum Physics: Schrödinger Equation

Explores the Schrödinger equation in quantum physics, quantifying energy and stationary states of particles in space.

Quantum Mechanics: Potential Jump and Tunnel Effect

Explores quantum mechanics' potential jump and tunnel effect, discussing unbound states, transmission regimes, and particle behavior at potential barriers.

Principles of Quantum Mechanics: Harmonic Oscillator

Explains quantum mechanics principles, focusing on harmonic oscillators and probability distributions.

Quantum Mechanics: Wavefunctions and Operators

Explains wave-particle duality, complex wavefunctions, Hermitian operators, and the quantization of particle energies in quantum mechanics.

Advanced General Chemistry I: Atomic Structure

Explores the emission spectrum of hydrogen, wave functions, and probability density of electron distribution.

Quantum Measurement Process: Operators and Wave Functions

Explores the quantum measurement process using operators and wave functions, emphasizing measurement certainty with eigenfunctions.

Quantum Science: The Electron and Its Wave-Particle Duality

Provides an overview of the electron's role in quantum science, focusing on its wave-particle duality and the mathematical framework of quantum mechanics.

Indistinguishable Particles in Quantum Mechanics

Explores indistinguishable particles in quantum mechanics, discussing symmetry, density matrix, quantum statistics, exclusion principle, and particle behavior.

Quantum Mechanics: Principles and Wave Functions

Explores quantum mechanics principles, wave functions, energy quantization, and particle confinement in a box.