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Quantum Mechanics: Observables and Eigenvalues
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Related lectures (31)
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Quantum Mechanics: Crash Course on Quantum Bit Systems
Offers a crash course on quantum bit systems and measurement processes.
Classical and Quantum Mechanics: Foundations and Applications
Explores classical and quantum mechanics, covering observables, momentum, Hamiltonian, and the Schrödinger equation, as well as quantum chemistry and the Schrödinger's cat experiment.
Quantum Mechanics: Eigenfunctions and Operators
Explores eigenfunctions, operators, and their role in quantum mechanics.
Illustration of Quantum Bits
Covers the postulates of Quantum Mechanics and examples with quantum bits, including observables and unitary matrices.
Quantum Chemistry: Eigenfunctions and Operators
Explores eigenfunctions and operators in quantum chemistry, emphasizing their significance in understanding bound states.
Quantum Mechanics: Commutators and Ehrenfest Theorem
Covers the formalism of quantum mechanics, focusing on commutators, the Ehrenfest theorem, and their implications for measurements and uncertainties.
Quantum Operators: Exponential and Position Measurement
Covers the mathematical foundations of quantum mechanics, focusing on operators and their applications in quantum states.
Crash Course on Quantum Mechanics
Covers fundamental concepts in quantum mechanics, including vector spaces, superposition, observables, and inner product.
Linear Operators: Basis Transformation and Eigenvalues
Explores basis transformation, eigenvalues, and linear operators in inner product spaces, emphasizing their significance in Quantum Mechanics.
Quantum Information Theory: Basics and Quantum States
Covers the basics of quantum information theory, focusing on classical and quantum states, evolutions, and measurements.
