Covers tips on matrix construction and function manipulation using MATLAB.
Explores matrix similarity and diagonalization rules, emphasizing eigenvectors and distinct eigenvalues.
Covers the process of solving a linear system in numerical flow simulation using direct methods like Gaussian elimination and the TDMA algorithm.
Explores the numerical simulation of steady convection-diffusion problems, discretization, boundary conditions, and algebraic system assembly.
Explores the forced oscillator regime in vibratory mechanics, emphasizing clean pulsations and a generalized conservative approach.
Introduces the Jacobi method for solving linear systems by iteratively updating the diagonal elements of a matrix.
Covers normal ordered product, Wick's theorem, creation and destruction fields, and efficient computation methodology.
Explores eigenvalues, ladder operations, and quantum number values in quantum physics.
Explores matrix similarity, eigenvalues, and diagonalization in linear algebra.
Covers PCA application and BBP phase transition in a card game dataset.
