trapezoidal_explicit, an Octave code which solves one or more ordinary differential equations (ODE) using the (explicit) trapezoidal method.
The next solution value is estimated using a forward Euler approximation, and then the trapezoidal method is applied.
The computer code and data files described and made available on this web page are distributed under the MIT license
trapezoidal_explicit is available in a MATLAB version and an Octave version and a Python version.
backward_euler, an Octave code which solves one or more ordinary differential equations (ODE) using the backward Euler method.
backward_euler_fixed, an Octave code which solves one or more ordinary differential equations (ODE) using the (implicit) backward Euler method, using a fixed point iteration for the implicit equation.
bdf2, an Octave code which solves one or more ordinary differential equations (ODE) using BDF2, the (implicit) backward difference formula of order 2, using fsolve() to solve the implicit equation.
cauchy_method, an Octave code which solves one or more ordinary differential equations (ODE) using the Cauchy method.
euler, an Octave code which solves one or more ordinary differential equations (ODE) using the forward Euler method.
leapfrog, an Octave code which uses the leapfrog method to solve a second order ordinary differential equation (ODE) of the form y''=f(t,y).
midpoint, an Octave code which solves one or more ordinary differential equations (ODE) using the (implicit) midpoint method.
midpoint_adaptive, an Octave code which solves one or more ordinary differential equations (ODE) using the (implicit) midpoint method, relying on fsolve() to solve the implicit equation, and using an adaptive timestep.
midpoint_explicit, an Octave code which solves one or more ordinary differential equations (ODE) using the (explicit) midpoint method, also called the modified Euler method.
midpoint_fixed, an Octave code which solves one or more ordinary differential equations (ODE) using the (implicit) midpoint method, using a simple fixed-point iteration to solve the implicit equation.
rk12, an Octave code which implements Runge-Kutta solvers of orders 1 and 2 for a system of ordinary differential equations (ODE).
rk23, an Octave code which implements Runge-Kutta ODE solvers of orders 2 and 3.
rk34, an Octave code which implements Runge-Kutta ODE solvers of orders 3 and 4.
rk4, an Octave code which applies the fourth order Runge-Kutta (RK) algorithm to estimate the solution of an ordinary differential equation (ODE).
rk45, an Octave code which implements Runge-Kutta ODE solvers of orders 4 and 5.
rkf45, an Octave code which implements the Runge-Kutta-Fehlberg ODE solver.
theta_method, an Octave code which solves one or more ordinary differential equations (ODE) using the theta method.
trapezoidal, an Octave code which solves one or more ordinary differential equations (ODE) using the (implicit) trapezoidal method, and MATLAB's fsolve() function to handle the implicit equation.
trapezoidal_fixed, an Octave code which solves one or more ordinary differential equations (ODE) using the (implicit) trapezoidal method, using a fixed-point method to handle the implicit system.
velocity_verlet, an Octave code which uses a version of the velocity Verlet method to solve a secord order ordinary differential equation (ODE) of the form y''=f(t,y).