搜索资源列表
FINITE_ELEMENT_ALGORITHM
- 本程序提供一种求解偏微分方程的有限元方法-This procedure provides a solution of partial differential equations of the finite element method
RK_4
- 求解时滞微分方程的龙格库塔方法!用matlab编写的。-Solving Delay Differential Equations Runge-Kutta methods! Prepared using matlab.
Partial_Differential_Equation
- 一阶偏微分方程的基础知识,很容易入门,很多工程处理要用到的-Introduce the basic knoeledge of Partial Differential Equation
2007511145848565_136Z_Com
- 四阶龙格库塔法求解微分方程,Visual C++ 环境下编译-4RK typical numerical analysis procedures, with four bands Runge- Kutta method to solve initial value problems
MATLAB-algorithm
- 插值 函数逼近 数值微分 数值积分 非线性方程求解 解线性方程组的直接解法 解线性方程组的迭代法 随机数生成 特殊函数计算 常微分方程的初值问题 偏微分方程的数值解法 数据统计和分析-Interpolation function approximation numerical integration of nonlinear differential equations numerical solution of linear equations
mesh-generation
- 采用微分方程生成网格的例子,带有附加说明和源码-the mesh generation by using the pde, with the reference file and the source code.
panduan
- 判断微分方程是否为病态方程,分别用定步长、变步长和适合病态系统的数值积分方法对系统求解,并与解析解进行对比,分析每种方法的求解精度和速度。-To determine whether the pathological differential equations, were used to set step, variable step size and suitable for pathological system numerical method for solving the system
longjie
- 用VC编写的程序,实现龙格库塔求解微分方程数值解-VC preparation procedures used to achieve solution of differential equations Runge-Kutta numerical solution
BVP_examples
- 如何利用bvp4c解决微分方程的边值问题的几个例子。-Bvp4c how to use differential equations to solve boundary value problems for a few examples.
C++jingdianshuzhisuanfayuanma
- C++经典数值算法源码,插值,查找,常微分方程(组)求解,等算法C源码。-C++ Classical numerical algorithm source, interpolation, find, ordinary differential equations (group) to solve, such as C-source algorithm.
equation
- 求解方程根的函数和一些微分方程迭代的函数,包括:求实系数代数方程全部根的牛顿-下山法,全区间积分的定步长龙格-库塔法,积分一步的变步长龙格-库塔法,积分一步的变步长基尔方法,求实系数代数方程全部根的qr方法-Solving the root of the function equations and some differential equations iteration function, including: realistic coefficient algebraic equation
mymath
- 数值计算方法中常用方法的程序实现,包括线性方程组求解,差值拟合,常微分方程求解等-Numerical methods commonly used methods of procedures to achieve, including solving linear equations, difference fitting, ordinary differential equation solving, etc.
Magnus4
- 用magnus展开求解延迟微分方程!这是一种保结构算法。通过两次转换得到的!-Magnus started with delay differential equations to solve! This is a security structure algorithm. Obtained through the conversion of two!
DifferentialEquation
- 利用龙格库塔法(等步长,变步长)计算椭圆方程,双曲线方程,抛物线方程等。对各类微分方程进行数值计算。-The use of Runge-Kutta method (such as step, variable step size) calculated elliptic equations, hyperbolic equations, such as parabolic equation. Various types of differential equations for numerical
Lab3
- 利用有限元算法计算各类微分方程,主要应用迦辽金方法。python下的dolfin编程。-The use of finite element method calculation of various types of differential equations, the main application of Galerkin method. dolfin under python programming.
GRKT10
- 龙格-库塔法,数值分析中求解微分方程的方法。-Runge- Kutta method, numerical analysis methods for solving differential equations.
Mathcalculationprocedures
- 该程序包含矩阵最大特征值上、下界估计、线性方程组的求解、非线性方程组的一个最新迭代方法、数值积分、微分方程数值解!-The program contains the largest eigenvalue matrix, the lower bound estimates, linear equations, nonlinear equations, a recent iterative method, numerical integration, numerical solution of di
Runge_Kutta
- runge-kutta算法,解决常微分方程初值问题-runge-kutta method to solve ordinary differential equations initial value problem
5_4_7Talor
- Taylor方法,解决常微分方程的初值问题-Taylor method to solve ordinary differential equations initial value problem
5_3_12_Euler
- Euler算法,解决常微分方程的初值问题。-Euler algorithm to solve the initial value problem of ordinary differential equations.