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Adams
- 用Adams三步四步法求解微分方程,程序主要是微分方程的Adams三步和四步外插法还有四阶预校算法的源程序。 -Adams four with three-step solution of differential equations, differential equations are the main procedures of Adams and three-step outside the four-step interpolation method was also fourth
youxianyuanfangfa
- 基于FEPG的有限元方法.FEPG系统是基于虚位移原理(即弱形式)而不是变分原理,要求用户书写弱形式的微分方程表达式-FEPG Based on the finite element method. FEPG system is based on the principle of virtual displacement (ie, weak form) rather than the variational principle, require users to write the weak f
szfx7
- 数值分析之计算方法与实验7:常微分方程数值解法 by java-Numerical Analysis of calculation methods and experimental 7: Numerical Solution of Ordinary Differential Equations by java
sir
- 这是SIR微分方程模型对初值问题的求解和作图-This is the SIR model differential equations to solve the problem of initial value and mapping
Math
- C++经典数值算法源码,各种数学运算算法,如 常微分方程(组)的求解等-C++ classic numerical algorithm source code, a variety of mathematical algorithms, differential equations as usual (group), such as the Solution
rungekutta
- 学生嘛,所以自己用C写的runger kutta法解了个一阶微分方程,希望有点用哈!-Runger Kutta
Differential_Equations
- 数学建模方法,利用MATLAB计算微分方程,内含教程-Mathematical modeling method, using MATLAB calculation of differential equations, including tutorials
runge_kutta
- 本文用龙格库塔法求解了不拉休斯解。龙格库塔法是求解高阶微分方程的有力工具,本文对龙格库塔方法作了简要介绍,并附上了matlab源程序。-in this paper a runge_kutta method was used to slove the blasius equation in the environment of matlab.
ode
- 常微分方程的初值问题、边值问题的算法,代数微分方程常用算法-The initial value problem of ordinary differential equations, boundary value problems for the algorithm, commonly used algorithm of algebraic differential equations
Classic_algorithms_in_cplusplus_source_code
- 经典的C++数值算法源程序,内用微分方程求解,插值等经典算法-Classical numerical algorithm of C++ source code, which used to solve differential equations, interpolation, such as the classic algorithm
Duffing_success
- 利用混沌振子检测微弱正弦信号,以duffing系统为例,采用的梯形积分积分求取微分方程-Detection of chaotic oscillator using weak sinusoidal signal to duffing system as an example, using the trapezoidal integration points to strike a differential equation
nc.jar
- Java 数值计算库 数列求和算法、求解方程的根、插值法和近似法、 数值积分、求解微分方程、矩阵运算及其它一些有趣的东西, 比如:大数、素数算法、PI、分形-Java Number Cruncher
Scientific_Computing_and_C_assembly
- 第二章 解线性方程组的直接法 第三章 解线性方程的迭代法 第四章 插值法 第五章 数据拟合 第六章 数值微分和积分 第七章 矩阵特征值问题 第八章 非线性方程数值解法 第九章 非线性方程组的抚今迭代解法 第十章 常微分方程初值问题的数值解法 第十一章 常微分方程边值问题的数值解法 附录A C语言屏幕绘图 -Chapter II solution of linear equations in Chapter III of the direct meth
shuzhijifen
- 数值积分的几种算法,包含所有源程序,请多多指教!-Numerical integration of several algorithms, including all source code, please advice!
342765747
- 四阶RK解微分方程 数值计算方法-cod.....................................................
nt_cotes
- 牛顿-科茨求积公式 是常微分方程的数值解法-Newton- Cotes quadrature formula is the numerical solution of ordinary differential equations
auto07p-0.6.tar
- 再传一个auto,求解微分方程,本人也在探索中,共同学习!-Send an auto, solving differential equations, I also explore in learning!
partial
- 片微分方程数值解的程序实现,第二章的两个习题-partial equation
solve_newton
- 本程序使用了改进欧拉法求解微分方程dy=x+exp(y),[0,1]。过程中使用了牛顿迭代法进行了简单的求根,避免了应用函数的繁琐处理,可以作为欧拉法与牛顿法的示例程序。-This procedure uses the Euler method to improve the differential equation dy = x+ exp (y), [0,1]. The course of using the Newton iterative method for the simple roo
weifangmoxing
- 数学建模用的微分方程模型大家多多交流,共同提高,希望您给出指点。-Mathematical modeling of the differential equation model we used a lot of exchanges, co-improved, I hope you give advice.