1.
Apply Lagrange equation of the first kind to the system , and get a set of the differential - algebraic equations (DAEs) of its absolute coordinates .
对系统应用第一类拉格朗日方程,得到系统位形坐标的微分 — 代数方程组。
2.
A Derivation of Lagrange Equation(Ⅱ) from the Power Equation
从功率方程推导第二类拉格朗日方程
3.
Lagrange's dynamical equations
拉格朗日动力学方程
4.
Lagrange's planetary equation
拉格朗日行星运动方程
5.
lagrange's hydrodynamic equations
拉格朗日铃运动方程
6.
Lagrange-Helmholtz equation
拉格朗日-亥姆霍兹方程
7.
Lagrange Equation and Lagrange Function for the Free Particle of the Theory of Relativity;
相对论中质点的拉格朗日方程与拉格朗日函数
8.
An Intuitive Approach to Lagrange Equation for Constrained System
导出具约束系统的拉格朗日方程的一个直观途径
9.
Implementation of the Semi Lagrangian Method in the Primitive equations Model
半拉格朗日方法在全球原始方程模式中的实现
10.
MATHAMATICAL STUDY ON SEMI_LANGRANGIAN ADVECTION COMPUTATIONAL SCHEME
半拉格朗日方案计算平流过程的数学研究
11.
Lagrange Equation and Its Application in the Rotation Coordinate System;
转动坐标系中的拉格朗日方程及其应用
12.
Deriving Orbit With Lagrange Function;
保守力系的变形拉格朗日方程及其应用
13.
The Application of Lagrange s Equation in Dynamical Problems of Noninertial System;
拉格朗日方程对非惯性系动力学问题的应用
14.
Lagrange Equation and Its Application in Non-Inertial System
非惯性系下基本形式拉格朗日方程及其应用
15.
The Three Order Langrange Equantion Contain Dependent Broad Coodinate
含有非独立广义坐标的三阶拉格朗日方程
16.
Then its generalized variational principle is established on the basis of Lagrange multiplier method by absorbing the first kind of boundary condition.
然后利用拉格朗日乘子法,吸收第一类边界条件,从而得出其广义变分原理;
17.
Fast Lagrangian is a new type of numerical calculating method.
快速拉格朗日法是一种新型的数值计算方法。
18.
lagrange d'alembert principle
拉格朗日 达朗伯原理