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rk4
- function [tout, yout] = rk4(ypfun, tspan, y0, h) %定步长四阶Runge-Kutta法求常微分方程(组)数值解 %[tout,yout] = rk4( ypfun , tspan, y0,h) % 这里字符串ypfun是用以表示f(t, y)的M文件名, % tspan=[t0, tfinal]表示自变量初值t0和终值tf % y0表示初值向量y0,h是步长。 % 输出列向量tout表示节点 (t0 , t1 , … ,
4jie_longgekuta
- 运用四阶龙格-库塔法解一阶常微分方程(定步长)-four bands using the Runge - Kutta method of first-order differential equation (fixed step)
ola
- 欧拉法和龙格库塔算法解一阶常微分方程源-function Euler
seullerro
- 求解一阶常微分方程的两个欧欧拉法,先前欧拉与改进梯形法。 -Solving two first-order ordinary differential equations Ouou La Law, previously Euler and improved trapezoidal method.
Runge-Kutta-4th-Order-Method--
- 用于求解常微分方程的四阶龙格-库塔法,该方法是一种很好的求解微分方程方法。-Runge- Kutta method for solving ordinary differential equations, the method is a good method for solving differential equations.
Euler
- 改进欧拉算法,算出微分方程与微分方程组的定解。此代码仅限于一阶常微分方程组。-Improved Euler algorithm calculates the differential equation and definite solution of differential equations. This code is limited to one order ordinary differential equations.
euler mehod
- 欧拉法是一种一阶数值方法,用以对给定初值的常微分方程(即初值問題)求解。它是一种解决数值常微分方程的最基本的一类显型方法(euler method for iteration)
LBZFS1
- 解ode的算法源程序,算例为一阶常微分方程,不错的 很好(Solutions of the ode algorithm source code, an example is given for the first order ordinary differential equation, the good is very good)
Rungek-and-Adams
- 求解一阶常微分方程源代码,可以提供给大家参考(Solving the source code of the first order ordinary differential equation)