A numerical integrator written in Elixir for the solution of sets of non-stiff ordinary differential equations (ODEs).
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Updated
Nov 20, 2024 - Elixir
A numerical integrator written in Elixir for the solution of sets of non-stiff ordinary differential equations (ODEs).
ODE system solver made simple. For IVPs (initial value problems).
Implementation of several popular solvers for solving ODEs in MATLAB.
A solution to the Lotka-Volterra Equations is approximated using Dormand-Prince-45 method with adaptive step size control.
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This project features two dynamic simulations: bungee jumping and atmospheric convection models, using Runge-Kutta methods to capture their behavior. Dive into chaotic Lorenz attractor visuals, track variable evolution via time series charts, and compare cord lengths between these intriguing simulations. Explore dynamic modeling and chaotic systems
Códigos en lenguaje fortran 90 que implementan el algoritmo Runge-Kutta de orden 2, Runge-Kutta de orden 4 y el método de Dormand Prince de paso adaptativo para modelos de crecimiento de cáncer
Códigos en lenguaje fortran 90 que implementan el algoritmo Runge-Kutta de orden 2, Runge-Kutta de orden 4 y el método de Dormand Prince con paso adaptativo para modelos de tratamiento de cáncer
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