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常微分方程初值问题的数值解法
- 常微分方程初值问题的数值解法:Euler方法、 Runge-Kutta方法、线性多步法、预测-校*、 等。-Ordinary Differential Problems Numerical Solution : Euler's method, Runge - Kutta method, linear multi-step forecast-correction method, etc.
changweifenfangcheng
- 尤拉方法是求解常微分方程的入门级的方法,精度并不算高,但它具有较大的理论价值。 一些较好的算法,如龙格.库塔方法等都是在这个方法的基础上实现的。-Mood is solving ordinary differential equations in the entry-level approach, the accuracy is not high. it has great historical value. Better algorithms, such as Runge. Kutta
jcwffc
- 解常微分方程,数值分析,c语言在数值分析中的应用-Solutions ordinary differential equations, numerical analysis, c language in the numerical analysis of
Visual c++常微分方程数值解法
- Visual C++常微分方程解法(转载)-Visual C Ordinary Differential Equations Solution (reproduced)
常微分方程数值解法
- 常微分方程数值解法,又是一个数值分析的常用算法-Numerical Solution of ordinary differential equations, numerical analysis is a common algorithm
龙格库塔法解常微分方程
- 解常微分方程的龙格库塔法C源程序
运用Runge-Kutta法数值求解常微分方程
- fortran90程序,运用Runge-Kutta法数值求解常微分方程的程序,非常适用,包括源代码、一个算例和输出程序,fortran90 procedures, the use of Runge-Kutta method for numerical solution of ordinary differential equations of the process, is very applicable, including source code, a numerical example a
prog10-16
- 余向阳博士Matlab教程的源代码。 包括:1.非线性方程的解法;2.线性方程的数值解法;3插值法;4.常微分方程的解法-Dr. Yu Xiangyang Tutorial Matlab source code. Include: 1. Non-linear equations 2. The numerical solution of linear equations 3 interpolation 4. The solution of ordinary differential eq
adams
- 常微分方程组adams数值解法以及非线性方程的二分法解法-Adams Ordinary Differential Equations Numerical Solution of nonlinear equations as well as the dichotomy method
Runge_KuttaAndsquar_least
- 常微分方程数值解法Runge_Kutta解法-Numerical Solution of Ordinary Differential Equations Solution Runge_Kutta
DoubleIntegration
- 用于求解二阶常微分方程的变步长多步积分法,适合飞行器轨道计算等领域。-Solving second order ordinary differential equations for the variable step-size multi-step integration method for calculating the fields of aircraft track.
runge_kutta
- 采用4阶runge_kutta法求解给定初始值的常微分方程(组)。该方法具有较好的精度。-Using 4-order method runge_kutta given initial value of the ordinary differential equations (group). The method has good accuracy.
upjode
- fortran程序,迭代常微分方程求解器,包括源代码、使用说明。-fortran program, iterative solver of ordinary differential equations, including source code, use the instructions.
ADAMS_VARIABLE_STEP-SIZE_PREDICTOR-CORRECTOR_ALGOR
- 本程序时用来求解常微分方程的Adams 变步长预估校正算法-The procedure used to solve ordinary differential equations of the variable step-size Adams predictor-corrector algorithm
CONTINUATION_METHOD_FOR_SYSTEMS_ALGORITHM
- 本程序是用来求解常微分方程的算法:延拓算法-This procedure is used to solve ordinary differential equations of the algorithm: Extension Algorithm
runge-kutta
- 常微分方程的数值解法及仿真 一、 欧拉(Euler)公式 2 二、 龙格-库塔公式 2 1. 二阶龙格-库塔公式 2 2. 四阶龙格-库塔公式 2 三、 一阶常微分方程组的数值解法 2 四、 仿真算例 4 仿真1 应用欧拉法 4 仿真2 应用二阶龙格-库塔法 5 仿真3 应用四阶龙格-库塔法 6 附录 Matlab程序 7 1. 欧拉法程序 7 2. 二阶龙格-库塔法程序 8 3. 四阶龙格-库塔法程序 9 参考文献 10 -runge
jisuanfangfachengweifenfangcheng
- 计算方法实验四 常微分方程初值问题 改进欧拉法 microsoft visual basic 实现 有实验报告-Calculated experiment four ODEs Improved Euler microsoft visual basic to achieve a lab report
Rungerkutta4
- 该程序利用4阶龙格库塔方法解二阶常微分方程,该微分方程描述火箭发射时质心运动轨迹。-The program uses the 4th order Runge-Kutta method of second order ordinary differential equations, differential equations describe the mass center when the rocket trajectory.
colmod
- 一个解常微分边值问题的高端求解器,可以解显式表达的微分方程组,且此微分方程组的每一个方程可以容许4阶的微分。长于解非线性的奇异问题。内附论文。程序自带说明和算例。-Automatic Continuation With Collocation. This Package Solves `Stiff Boundary Value Problems For Ordinary Differential Equations By Using Continuation, As Descri
常微分方程和线性方程组的求解
- 包含常微分方程初值问题的求解,运用四阶Runge-Kutta方法计算该初值问题。还有对线性方程组的求解问题。是数值分析课程的基本程序。