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weifen
- Mathematica求解复杂偏微分方程的例子
DifferentialEquations
- 用matlab解决微分方程中的问题,提供一些实例和代码,希望大家支持-Using matlab to solve differential equations of the problem, provide some examples and code, I hope you will support
a5
- 本程序通过求解偏微分方程,研究分部泵浦情况下的功率密度分布-This procedure by solving the partial differential equations to study the division of pump power density distribution of cases
equation
- 求解动力微分方程的数值解,包括位移、速度、加速度。-To solve the dynamic numerical solution of differential equation, including displacement, velocity and acceleration.
buwanquanweifen_PID
- 基于PCI-1711板卡 不完全微分PID实现温度控制 C++builder上位机控制软件-Based on PCI-1711 boards incomplete differential PID control of temperature C++builder PC control software
did
- 利用微分法算出机器人动力学模型的雅克比矩阵-jacobn matrix
program
- 采用matlab编写的常微分方程的数值解法,有算例,以及改进龙格库塔方法。-The numerical solution of ordinary differential equation by using Matlab prepared, with examples, and the improvement of the Runge Kutta method.
COMSOL
- comsol求解拉普拉斯方程,对于求解偏微分方程很重要-comsol solving the Laplace equation
huojianyunzainengli
- 使用龙格库塔法求解微分方程,建立火箭模型,大气密度用函数计算,对比两种改进型的高度,速度及距离随时间的变化规律。-Using the Runge-Kutta method to solve differential equations, build model rockets, air density is calculated using the function, comparison of the two modified height, speed and distance variat
qiujiefangcheng
- 计算求解二次微分方程实例,包括三角函数和直线代替求解,并计算二者的误差大小-Calculation of two cases of differential equations, including the trigonometric functions and linear instead of solving, and calculate the size of the error of the two
fj
- 采用微分先行PID控制实现对液位的控制采用增量式PI控制实现流量的快速跟踪且波动范围较采用经验方法分别对上述两个PID控制器参数进行整定。-Of liquid level control is realized by using derivative ahead PID control flow is realized by using incremental PI control of the fast track and the fluctuation range respectively
NewMyModel
- 两级行星齿轮传动的微分方程,以扭振模态计算(The differential equation of two-stage planetary gear transmission is calculated by torsional vibration mode)