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Linear algebra in quantum mechanics
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Related lectures (28)
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Linear Algebra: Linear Dependence and Independence
Explores linear dependence and independence of vectors in geometric spaces.
Quantum Information Theory: Basics and Quantum States
Covers the basics of quantum information theory, focusing on classical and quantum states, evolutions, and measurements.
Vector Transformation and Tense
Explores the transformation of vectors and tensors, including rotations and representations in quantum physics.
Quantum Entanglement: From Einstein to Bell
Delves into the journey from Einstein and Bell's debates to the practical applications of quantum entanglement, including quantum teleportation and key distribution.
Quantum Mechanics: GHZM Thought Experiment
Explores the GHZM thought experiment and challenges classical quantum concepts.
Entanglement: Bell Inequalities
Covers entanglement, Bell inequalities, CSHS requirements, EPR paradox, and experimental verification in quantum mechanics.
Linear Independence and Bases
Covers linear independence, bases, and coordinate systems with examples and theorems.
Linear Algebra Concepts: Motivation for Studying Eigenmodes in Physical Systems
Explores the motivation for studying linear algebra concepts in eigenmodes of physical systems and their central role in quantum mechanics.
Spherical Tensors and Wigner-Eckart Theorem
Covers the transformation of vectors and tensors in quantum physics.
Linear Algebra: Quantum Mechanics
Explores the application of linear algebra in quantum mechanics, emphasizing vector spaces, Hilbert spaces, and the spectral theorem.
