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Lecture
Linear Quantum Calculus in Dirac Notation
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Related lectures (30)
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Quantum Bits: Axioms and Examples
Explores quantum bits, axioms, examples, Shor algorithm, measurements, Hilbert space, and dynamics.
Quantum Physics I
Covers state vectors, Dirac notation, eigen-kets, and Hermitian operators in quantum physics.
Vector Transformation and Tense
Explores the transformation of vectors and tensors, including rotations and representations in quantum physics.
Spherical Tensors and Wigner-Eckart Theorem
Covers the transformation of vectors and tensors in quantum physics.
Scalar Product and Vectors
Introduces vector components, scalar and vector products, and their properties, including colinear and coplanar vectors, and the rule of the right hand.
Algebraic Manipulations: Indices and Tensors in Continuum Mechanics
Provides an overview of algebraic manipulations involving indices and tensors in continuum mechanics.
Tensor Products of Modules
Covers tensor algebras, symmetric and exterior algebras, and tensor products of modules.
Advanced Physics I: Definitions and Motion
Covers advanced physics topics such as definitions, rectilinear motion, vectors, and motion in three dimensions.
Singular Vectors in Liouville CFT: Representation Theory Insights
Covers singular vectors in Liouville CFT, focusing on representation theory and their implications in mathematical physics.
Linear Applications and Eigenvectors
Covers linear applications, diagonalizable matrices, eigenvectors, and orthogonal subspaces in R^n.
