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Lecture
Quantum Mechanics Basics
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Related lectures (32)
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Postulates of Quantum Mechanics
Explains the postulates of Quantum Mechanics, focusing on self-adjoint operators and mathematical notation.
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: Postulates and Observables
Explains the postulates of quantum mechanics and the representation of observables by operators.
Linear Operators: Quantum Mechanics and Linear Algebra
Explores the role of linear operators in Quantum Mechanics and linear algebra, emphasizing eigenvalues and basis transformations.
Dynamical Approaches to Spectral Theory of Operators
Explores dynamical approaches to the spectral theory of operators, focusing on self-adjoint operators and Schrödinger operators with dynamically defined potentials.
Principles of Quantum Mechanics: Harmonic Oscillator
Explains quantum mechanics principles, focusing on harmonic oscillators and probability distributions.
Postulates of Quantum Mechanics
Explores the postulates of Quantum Mechanics, emphasizing the state of a system as a complex-valued vector in a Hilbert space.
Quantum Chemistry: Eigenfunctions and Operators
Explores eigenfunctions and operators in quantum chemistry, emphasizing their significance in understanding bound states.
Linear Operators: Motivation in Quantum Mechanics
Explores the motivation for studying linear operators in Quantum Mechanics, emphasizing their essential role and practical applications.
Quantum Chemistry
Covers eigenvalues, eigenfunctions, Hermitian operators, and the measurement of observables in quantum chemistry.
