Generate nifty images using chaotic systems.
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Updated
Aug 4, 2017 - C
Generate nifty images using chaotic systems.
CASCADE is the C-library for Approximative Solutions to Complex Arbitrary Precision Differential Equations
The motion of an asteroid in a two-dimensional space with a star and a planet • University project • 2014 - Laboratorio di Fisica Computazionale - BSc in Physics, II year
Solver for second-order linear differential equations with variable coefficients
Python wrapper for the RADAR5 DDE integrator
Numerical Methods for Physics
Interpolation, linear equations, least squared, eigenvalues, ode, quadratures, roots, minimization, Monte-Carlo, neural networks
Some fun with deterministic chaos through a very simple non-linear system - double pendulums
2D Poisson's Equation. Discretized using the Finite Difference Method & Solved by Parallelising the Jacobi Iterative Method via the OpenMP API.
Laboratory programs and results for course "Engineering Numerical Methods".
The motion of massive point with many constraints • University project • 2014 - Laboratorio di Fisica Computazionale - BSc in Physics, II year
Differential equations' solutions in C developed during the Computational Mathematics course @cse.uoi.gr
linear ODE solver using runge-kutta-4th
Studying 2nd order differential equation with Runge-Kutta and Verlet
Comparison of fast methods for integrating the Schrödinger equation aiming at iteraction of Gauss packets with themselves and various potential barriers.
A C implementation of the Euler method to solve ODE (Ordinary differential equations)
Simulation numérique de l’équation de la diffusion par la méthode des différences finies
Solves linear ordinary differential equations (ODE).
The library for numerical calculations written in the C language
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