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Related lectures (27)
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Diagonalization: Examples
Explores examples of diagonalization in linear algebra, focusing on eigenvalues and eigenvectors.
Inertia Tensor: Main Axes and Principal Moments
Explains the inertia tensor, main axes, principal moments, and balancing of rotating solids.
Approximation of champ-poyon
Covers the approximation of Champ-Poyon, focusing on effective equations and practical applications.
Untitled
Jaynes-Cummings Hamiltonian: Diagonalization and Rabi Oscillations
Explores the Jaynes-Cummings Hamiltonian, emphasizing diagonalization and Rabi oscillations in the vacuum state.
Untitled
Finite & Infinite Deformation: Key Distinction
Explains the geometric interpretation of eigen vectors and values in material deformation.
Advanced Physics I: Kinetic Energy and Examples
Explores advanced physics topics, emphasizing kinetic energy and practical examples.
Linear Algebra: Matrices Properties
Explores properties of 3x3 matrices with real coefficients and determinant calculation methods.
Untitled
Diagonalization: Symmetries
Explores symmetries in linear algebra, focusing on matrices and their properties.
Matrix Similarity and Diagonalization
Explores matrix similarity, eigenvalues, and diagonalization in linear algebra.
Symmetry in Parallelograms
Explores the concept of symmetry in parallelograms and the properties of their diagonals.
Diagonalize Matrices: Similarity and Eigenvectors
Explores diagonalizing matrices, similarity, eigenvectors, and proper spaces.
Quantum Physics I
Introduces key quantum physics concepts such as commutators, observables, and the Schrödinger equation, emphasizing the importance of diagonalization and energy eigenvalues.
Eigenvalues and Diagonalization
Explores eigenvalues, diagonalization, and matrix similarity, showcasing their importance and applications.
Singular Value Decomposition: Applications and Interpretation
Explains the construction of U, verification of results, and interpretation of SVD in matrix decomposition.
Advanced Physics I: Kinetic Energy
Explores kinetic energy, diagonalization of matrices, Euler angles, and spinning top motion.
Kinetic Energy: Solid Body Dynamics
Explores diagonalization of inertia, main axes determination, and kinetic energy analysis in solid body dynamics.
Linear Algebra: Organization and Exercises
Covers the organization of linear algebra course and exercises for civil engineering and environmental sciences students.
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