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常微分方程求解
- 包括欧拉法求解、改进欧拉法求解、经典四阶龙格库塔法求解,同时还有这三种方法的结果比较
运用Runge-Kutta法数值求解常微分方程
- fortran90程序,运用Runge-Kutta法数值求解常微分方程的程序,非常适用,包括源代码、一个算例和输出程序,fortran90 procedures, the use of Runge-Kutta method for numerical solution of ordinary differential equations of the process, is very applicable, including source code, a numerical example a
matlab2
- matlab求解常微分方程在机械设计中的应用-matlab solving ordinary differential equations in mechanical design
numerical
- 按显示R-K算法编制任意m级显式R-K程序,用四阶或五阶的方法解决方程求解常微分方程的求解问题。-The use of R-K method for solving equations of the mathematical model
adams
- 用四阶亚当斯显式公式求解常微分方程初值问题是一种比较有效的方法-Adams with the fourth-order explicit formula for solving ODEs is a more effective method
odesbvp
- 利用边值问题求解器bvp4c求解常微分方程的数值解(The numerical solution of ordinary differential equations is solved by using the boundary value solver bvp4c)
常微分方程求解
- 常微分方程求解,人体液透析过程的模型,求解方程组(Ordinary differential equation solution, the human body dialysis process model, solving equations)
用MATLAB解常微分方程
- 利用MATLAB求解常微分方程,列举例子后并进行说明(Using MATLAB for solving ordinary differential equations, cited examples and explained)
常微分方程求解算法
- 高阶线性常微分方程的求解算法步骤实验报告。(Solving algorithm, procedure and experiment report of higher order linear ordinary differential equation.)
常微分方程
- 你投资了100元在某个储蓄账户,存款年利率为 。令 表示 年后你的账户金额。假设该账户是连续计息,那么 满足以下常微分方程初值问题: 利用欧拉法或使用ode45求解该常微分方程初值问题,并画出10年内的 函数图像,和该常微分方程精确解比较(You invest 100 yuan in a savings account, the annual interest rate is. The amount of your account after that. Assuming
Matlab解微分方程(ODE+PDE)
- MATLAB解常微分方程和偏微分方程求解器介绍,算法和用法。结合几个有代表性的案例,一步步讲解,非常简单、清楚,明了(MATLAB solutions to ordinary differential equations and partial differential equations solver, algorithm and usage. A few representative cases, step by step, are very simple, clear and clear.
rongerKUTA
- 龙格库塔法求解常微分方程,matlab程序,解决速率方程的计算(Runge-Kutta method for solving ordinary differential equations, matlab program, to solve the calculation of the rate equation)
Matlab60个小程序代码
- 利用Eular求解常微分方程、牛顿插值、迭代求解等计算方法(Use Eular solving ordinary differential equations)
自适应变步长的龙格库塔法
- 常微分方程的数值解,可用于求解常微分方程,自适应步长的龙格法(Numerical solutions of ordinary differential equations)
4阶龙格库塔法求解二阶微分方程
- 基于打靶法采用4阶龙格库塔法对而降常微分方程进行求解求解二阶微分方程(Solving the Second Order Differential Equation by Solving the Fourth Order Runge-Kutta Method Based on the Shooting Method)
matlab 常微分方程数值解法 源程序代码
- 11.1 Euler方法 380 11.1.1 Euler公式的推导 380 11.1.2 Euler方法的改进 383 11.2 Runge-Kutta方法 385 11.2.1 二阶Runge-Kutta方法 385 11.2.2 三阶Runge-Kutta方法 388 11.2.3 四阶Runge-Kutta方法 390 11.2.4 隐式Runge-Kutta方法 391 11.3 线性多步法 392 11.3.1 Adams外推公式
常微分方程
- 运用fortran求解常微分方程,1.利用四阶龙格库塔法,计算t每增加h时,利用给定方程先找到变量y的k1和变量p的K1,然后利用公式得到y的k2和p的K2,如此,得到变量y的k1,k2,k3,k4和变量p的K1,K2,K3,K4(Solving Ordinary Differential Equations by Fortran)
微积分和微分方程
- 利用MATLAB进行微积分和微分方程的求解计算,包括:常微分方程、 符号微分方程、高斯积分法、矩形域高斯二重积分等。(MATLAB is used to solve calculus and differential equation, including ordinary differential equation, signed differential equation, gaussian integral method, gaussian double integral in recta
微分方程求解————————matlab
- 常微分方程的数值解法,设计到欧拉解法,欧拉改进解法,矩阵解法等等(Ordinary differential equation numerical solution, design to euler solution, euler improved solution, matrix solution and so on)
python 求解常微分方程
- python 求解常微分方程 x=np.arange(0, 10, 0.1) #创建时间点 sol1=odeint(Pfun, [0.0, 1.0], x) #求数值解