搜索资源列表
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- PDETOOLBOX工具箱在偏微分方程中对圆形边界的实例应用-The toolbox in partial differential equations PDETOOLBOX circular boundary instance applications
codes-for-numerical-analysis
- 高教版数值分析的matlab代码,误差与范数,非线性方程(组)的数值解法,解线性方程组的直接方法,解线性方程组的迭代法,矩阵的特征值与特征向量的计算,函数的插值方法,函数逼近与曲线(面)拟合,数值微分,数值积分,常微分方程(组)求解-entire codes for numerical analysis based on matlab
MATLAB_PDE
- 偏微分方程的MATLAB解法,包括偏微分方程工具箱,图形用户界面,典型方程及实用例子,工具箱命令,有限元和有限差分法常微分方程解法-matlab solutions for partial differential equation
MATLAB-for-solving-differential
- MATLAB解微分方程;遗传算法工具箱;laplace偏微分方程求解;-MATLAB for solving differential equations genetic algorithm toolbox laplace partial differential equations
rk4
- 常微分方程求解必备工具:4阶龙格库塔法 -Ordinary differential equation solver essential tool: 4-order Runge-Kutta method
Solution-of-nonlinear-equations
- 偏微分方程的MATLAB解法,主要介绍非线性方程组求解方法,给出不同方法的数值解法。-MATLAB Solution of partial differential equations, describes the nonlinear equations solving methods, given the different methods of numerical solution solution.
ICE1_sfun
- matlab发动机仿真模型,根据微分方程建立。包括传热模型,燃烧模型。-the matlab engine simulation model
solution-of-differential-equations
- 常微分方程的数值解(定步长经典四阶算法)-The numerical solution of ordinary differential equations (fixed step classical fourth-order algorithm)
Runge-Kutta-method
- 常微分方程的求解(自适应步长的龙格库塔法)-The solution of ordinary differential equations (adaptive step Runge-Kutta method)
solving-differential-equations
- matlab 常用的解微分方程的算法程序 -classical algorithm matlab program for solving differential equations
inelastic
- 仿真绳动力学 模型为非弹性模型,解代数微分方程-simuliation of tether
Untitled-
- 偏微分方程中关于有限差分的其中一个格式,向前差分格式-failed to translate
constitutive-equation-PDE
- 用偏微分方程求解流变力学中的本构方程,对纺丝动力学的研究很有用-constitutive equation Partial Differential Equations
Differential-Equations
- 解带时滞微分方程的两个例子,拓扑图请读者根据代码中的邻接矩阵自行构造-Two examples of the solution with Delay Differential topology diagram based on the adjacency matrix code reader to construct their own
source-code-of-Gray-system-theory
- 灰色系统理论相关源代码(Matlab语言)目前使用最广泛的灰色预测模型就是关于数列预测的一个变量、一阶微分的GM(1,1)模型。它是基于随机的原始时间序列,经按时间累加后所形成的新的时间序列呈现的规律可用一阶线性微分方程的解来逼近。经证明,经一阶线性微分方程的解逼近所揭示的原始时间序列呈指数变化规律。因此,当原始时间序列隐含着指数变化规律时,灰色模型GM(1,1)的预测是非常成功的。-Gray system theory, source code (Matlab language) is the
ScieCompLec6Q1
- solve boundary value problem of Cousera课程Scientific Computing的Lecture 6对应的Quiz中Question 1的求解程序。 求解常微分方程的边值问题。 y =-4y (y of Theory: y=0.5*sin(2x)) x∈[0,1] BC: y(0) = 0 y (1) = cos(2). -solve boundary value problem of Cousera course Scien
system-phase-portrait
- 用于计算3维4维微分方程的轨道,并根据需要舍去计算中前若干个点-compute the phase portraits of 3D or 4D differatial equations
hundunxitong
- 主要介绍Lorenz 混沌系统,利用MATLAB数学软件对微分方程求解,进行数值模拟。 -Describes Lorenz chaotic system, using MATLAB mathematical software for solving differential equations, numerical simulation.
changweifenfangchengshuzhiqiujie
- 主要介绍常微分方程数值求解方法,从最简单的入手,适合新手-Introduces numerical solution of ordinary differential equations, starting from the most simple, suitable for beginners
Matlabjieweifenfangcheng
- 利用MATLAB求解常微分方程,偏微分方程方法教程-Using MATLAB for solving ordinary differential equations, partial differential equations method tutorial