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Postulates of Quantum Mechanics
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Related lectures (32)
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Quantum Mechanics: Postulates and Observables
Explains the postulates of quantum mechanics and the representation of observables by operators.
Linear Operators: Basis Transformation and Eigenvalues
Explores basis transformation, eigenvalues, and linear operators in inner product spaces, emphasizing their significance in Quantum Mechanics.
Quantum Mechanics: Spectral Basis and Schrödinger Equation
Explores spectral basis, Schrödinger equation, unitary equivalence, and self-adjoint operators.
Postulates of Quantum Mechanics
Explains the postulates of Quantum Mechanics, focusing on self-adjoint operators and mathematical notation.
Quantum Mechanics: Self-adjoint Operators and Quantum Information
Offers a crash course on quantum mechanics, emphasizing self-adjoint operators and quantum information.
Crash Course on Quantum Mechanics
Covers fundamental concepts in quantum mechanics, including vector spaces, superposition, observables, and inner product.
Importance of commuting observables in Quantum Mechanics
Explores the importance of compatible observables in Quantum Mechanics, leading to identical final states and the concept of a Complete Set of Commuting Observables.
Quantum Mechanics: Crash Course on Quantum Bit Systems
Offers a crash course on quantum bit systems and measurement processes.
Quantum Mechanics: Measurement
Covers the axioms of quantum mechanics and the measurement of quantities in a quantum system.
Postulates of Quantum Mechanics
Introduces the postulates of Quantum Mechanics, focusing on states in a Hilbert space and the role of observables.
