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matlabODEexample
- 从方程组中消去一些未知函数及其各阶导数,得到只含有一个未知函数的高阶常系数线性微分方程-Eliminated from the equations of some unknown function and its first derivative, the only unknown function contains a higher-order linear differential equations with constant coefficients
MatlabOED3
- 掌握用Matlab软件求解微分方程模型的解析解和数值解的方法-Master the use of Matlab software for solving differential equations model of analytical solution and numerical solution methods
shuzhifenxishangji
- 研一,学校开了数值分析这门课,而且要求用matlab进行上机试验,就写数值分析常微分方程的7个MATLAB算法,都是能够套用的M文件。还有我自己的上机作业。很不错的,能参考。要想要其它章的算法,我都已经上传了。-Kenichi, the school opened the numerical analysis of the course, but also carried out on machines with matlab test, on the numerical analysis of
changweifenfangcheng
- 微分方程的数值解法的介绍,感觉还行。上传了。也许对大家有帮助-The numerical solution of differential equations, the feeling was okay. Uploaded. Perhaps we have to help
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!
ERK_4
- 求解比例型延迟微分方程的指数龙格库塔方法程序。-Solving the proportion of index-type delay differential equations Runge-Kutta methods of procedure.
euler
- 在fortran语言中,利用eular方法来解2维的微分方程-In fortran languages, eular method to use 2-dimensional differential equation solution
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.
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
Euler
- 用Euler法计算常微分方程数值解,由文件输入,以表格形式输出-Using Euler method to calculate the numerical solution of ordinary differential equations
moto
- 电机仿真,含阻尼微分方程的M函数程序和仿真图,需要这个方面的学者可以参考-moto simulink and about M .
weifen_lgkt
- 可以方便的求解一阶微分方程,代码思路清晰,有例子解释-Can be convenient to solve first-order differential equations, the code clear, there is an example to explain