Lotka-Volterra approximations using various numerical methods
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Updated
Jan 13, 2016 - MATLAB
Lotka-Volterra approximations using various numerical methods
A numerical solver for differential equations with the ability to use Euler's, Improved Euler's, and Runge Kutta methods.
Plotting RLC series circuit response using MATLAB
Simulation of a simple harmonic oscillator pendulum using 3 different numerical methods with MATLAB.
N-body space simulator that uses the Runge-Kutta 4 numerical integration method to solve two first order differential equations derived from the second order differential equation that governs the motion of an orbiting celestial. Also has preset demos for two-body and three-body circular orbits which use parametric equations. Uses the SFML (Simp…
This repository is my codes for solving differential equation. The algorithm is used is 4th order Runge-Kutta and the eigenvalues are found out by shooting.
Runge-Kutta methods in Standard ML
A 2D flow visualization tool based on LIC and RK4. Developed using C++ and VTK.
A 3D flow visualization tool based on Runge-Kutta 4 (RK4) and Greedy Tiling for Streamsurface reconstruction. Developed using C++ and VTK.
Codes for various important numeric method computation done during the course ESO208
A Matlab library of numerical methods for solving differential equations stochastically and continuously .
A collection of Numerical Methods implemented in Racket. Includes Root Finders, ODE Solvers, Linear System Solvers, etc. as well as Applications/Demos.
Finding evidence for the existence of Strange, non-chaotic attractors in the Quasi-periodically driven duffing oscillator.
/!\ Warning! I don't have the energy to keep working on this project at the moment. Would like to return to it some point in the future, but if you'd like to work on it I'm willing to transfer ownership.
Numerical Methods for solving different equation. Include graphics on JavaFX
Work done for Math 451: Introduction to Numerical Analysis II
Numerical Solution of Ordinary and Partial Differential Equation : A 3 credit course at IITKGP
Runge-Kutta C program, methods (RK12 and RK24) for solving ordinary differential equations, with adaptive step size.
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