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CFB
- 从数学类型分,数值运算的研究领域包括数值逼近、数值微分和数值积分、数值代数、最优化方法、常微分方程数值解法、积分方程数值解法、偏微分方程数值解法、计算几何、计算概率统计等-Types of points from mathematics, numerical computing research areas include numerical approximation, numerical differentiation and numerical integration, numerical
jiefangcheng-
- 函数solve用于求解一般代数方程的根,函数desolve用以求解线性常微分方程,有5个源码实例-The function solve is used to solve the root of the algebraic equations in general, function desolve used to solve the linear ordinary differential
RK4
- 数值分析中,显式4阶龙格-库塔法(Runge-Kutta)是用于求常微分方程数值解的重要迭代法。本算法优点是可以求高阶常微分方程(或多变量微分方程组)的数值解,并且可缩减求解时间-Runge-Kutta method
CH7
- 数值计算方法,fortran语言版,第七章常微分方程(组)求解-Numerical methods, FORTRAN version of Chapter VII of the ordinary differential equation (s) for solving
C-solutionsof-Differential-equations
- 对于常微分方程组的多种数值解法,改进欧拉法、龙格-库塔算法、高斯消去法、定步长变步长-multiply C solutions-of-Differential-equation-group
1
- 这是用于常微分方程的求解的一些说明,希望对需要者有所帮助-failed to translate
17524108stance_dff
- 龙格库塔算法,用于解常微分方程,算的快,精度高。-LongGe coulthard algorithm for solution differential equation, calculate fast, high precision
ch9
- 附件内容为常微分方程组的求解,内涵多个算法,非常适合用来学习。-Ordinary differential equations
eular_ode
- 欧拉法解常微分方程的MATLAB程序M文件。与大家分享-Euler method for solving the M-file of Ordinary Differential Equations MATLAB program. To share with you
ordinary-differential-equations
- 利用Matlab 实现常微分方程数值解法; 利用编制的算法求解若干常微分方程; -Numerical Solution of Ordinary Differential Equations using Matlab Prepared by the algorithm for solving certain ordinary differential equations
C-language-algorithm-code
- 用C语言编写了科研和工程中最常用的算法,这些算法包括复数运算、多项式的计算、矩阵运算、线性代数方程组的求解、非线性方程与方程组的求解、代数插值法、数值积分法、常微分方程(组)初值问题的求解、拟合与逼近、特殊函数、极值问题、随机数产生与统计描述、查找、排序、数学变换与滤波等。-Written in C for scientific and engineering of the most commonly used algorithm, the algorithm include the plura
differential-equation-problem
- 第15章 常微分方程的初值问题.zip。是从书中光盘里直接拷贝的代码,放在这里,与大家共享,共同交流,希望对大家有帮助。-Chapter 15 of the ordinary differential equation initial value problem
euler
- 用欧拉方法求解一阶常微分方程初值问题,数值解法-use euler method to solve ordinary differential equation
Euler
- 欧拉法解常微分方程的matlab仿真文件,运行可得结果-Euler method solution of ordinary differential equations Matlab simulation file, run the results
euler
- 用最基本的欧拉法求一阶常微分方程的解,可以自己推广到二价-With the euler method for ordinary differential equation solution
rung
- 用runke cutta法求一阶常微分方程的解,可以自己推广到二阶-With the runke cutta method for ordinary differential equation solution
2nd-ode
- 用rukke kutta 法求二阶常微分方程的解,也可求偏微分方程-With rukke kutta method for second order ordinary differential equation solution, also can ask partial differential equations
Ordinary-differential-equations
- 常微分方程、积分与微分的运算,答案应该有用的-Ordinary differential equations, integral and differential operator answer
changweifenchuzhi
- 常微分方程初值的matlab程序,可作为数值分析等的学习工具。-For ODEs with Matlab program can be used as learning tools of numerical analysis .
rungekutta
- runge kutta方法求解常微分方程-the Runge–Kutta methods (German pronunciation: are an important family of implicit and explicit iterative methods for the approximation of solutions of ordinary differential equations. These techniques were developed around 1900