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Quantum Mechanics and Linear Algebra
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Related lectures (28)
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Diagonalization of Matrices
Explains the diagonalization of matrices, criteria, and significance of distinct eigenvalues.
Quantum Chemistry
Covers eigenvalues, eigenfunctions, Hermitian operators, and the measurement of observables in quantum chemistry.
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.
Quantum Physics I
Covers state vectors, Dirac notation, inner product, eigenvectors, and operators in quantum physics.
Quantum Mechanics Basics: Atomic Units and Operators
Introduces atomic units, operators, and the postulates of quantum mechanics.
Eigenvalues and Eigenvectors: Understanding Matrix Properties
Explores eigenvalues and eigenvectors, demonstrating their importance in linear algebra and their application in solving systems of equations.
Linear Operators: Motivation in Quantum Mechanics
Explores the motivation for studying linear operators in Quantum Mechanics, emphasizing their essential role and practical applications.
Measurement: Quantum State and Observables
Discusses measurement in Quantum Mechanics, focusing on state vectors, observables, eigenvalues, and probabilities.
