Evaluating numerical methods for approximating ODE using Python
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Updated
Aug 16, 2018 - Python
Evaluating numerical methods for approximating ODE using Python
A repository for various numerical methods
Implementation of power and inverse power method due to Numerical Analysis of David R. Kincaid and E. Ward Cheney
Computataional Methods in Physics
Complete collection of Numerical Analysis methods in python
Integração: Newton-Cotes, Gauss-Legendre, Gauss-Hermite, Gauss-Laguerre, Gauss-Чебышёв. Autovalores e Autovetores. Problema de Valor Inicial (PVI): Método de Euler, Runge-Kutta, Adams-Bashforth. Problema de Valor de Contorno (PVC). Derivada: Expansão em Série de Taylor, Função de Interpolação de Newton.
Free Falling bodies without air resistance using differential equations and numerical analysis
A numpy extension that adds more numerical methods in Numpy.
Numerical Integration - Midpoint, Trapezoid, Simpson's 1/3 and Simpson 3/8 Rule using Python
Simulation of a Quantum Wavepacket meeting a potential barrier.
Coding assignments for Hans De Sterck's course at U Waterloo AMATH 740 Numerical Analysis
It 's a calculator which can represent ieee754 format.
Computational implementation for design methods of cellular steel beams
Tool for doing numerical analysis, design and reporting.
Sketching algorithms for Tensor Train decompositions
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