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Lecture
Quantum Mechanics: Observables and Eigenvalues
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Related lectures (31)
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Principles of Quantum Mechanics
Covers the principles of quantum mechanics, including the Measurement Principle and Max Born Rule.
Quantum Entanglement
Delves into quantum entanglement, exploring entangled particles' state, evolution, and measurement.
Quantum Mechanics: Hartree-Fock Method
Covers the Hartree-Fock method and second quantization in quantum mechanics for systems with multiple particles.
Quantum Measurements
Explores projective quantum measurements, system-meter formulation, observable outcomes, and coupling between systems and meters.
Conservation Laws and Operator Evolution in Quantum Mechanics
Covers conservation laws and operator evolution in quantum mechanics, emphasizing the Ehrenfest theorem and its implications for classical and quantum systems.
Quantum Mechanics: Self-adjoint Operators and Quantum Information
Offers a crash course on quantum mechanics, emphasizing self-adjoint operators and quantum information.
Quantum Mechanics: Fundamentals and Applications
Explores quantum mechanics fundamentals, including observables, momentum, Schrödinger equation, hydrogen atom, spin, and quantum information.
Quantum Mechanics: Mathematical Framework
Introduces the need for a mathematical framework to describe linear operators on infinite-dimensional Hilbert spaces in quantum mechanics.
Linear Operators: Motivation in Quantum Mechanics
Explores the motivation for studying linear operators in Quantum Mechanics, emphasizing their essential role and practical applications.
Quantum Mechanics: Wave Functions and Operators
Explores quantum mechanics, focusing on wave functions, operators, Heisenberg uncertainty principle, and particles in potential wells.
