1) dynamic equation
动力方程
1.
Existence of convex solutions for boundary-value problem of dynamic equations on time scales;
测度链上动力方程边值问题凸解的存在性
2.
Positive solution of boundary-value problem for nonlinear first-order dynamic equation;
非线性一阶动力方程边值问题的正解
3.
Convergence and stability of an explicit method for direct integration of dynamic equation in case of negative-stiffness;
动力方程的一种直接积分方法在负刚度条件下的收敛性和稳定性
2) dynamic equations
动力方程
1.
Oscillatory of sencond-order dynamic equations on time scales
时标上一类二阶动力方程的振动性
2.
In this paper,by means of Riccati transformation technique,we establish oscillation criteria for second-order nonlinear dynamic equations on time scales(r(t)x△)△+p(t)xγ(σ(t))=0,where p is positive real value rd-continuous function defined on T,and is quotient of odd positive integers,such that γ≥1.
利用R iccati-变换方法,研究了测度链上二阶非线性动力方程(r(t)x△)△+p(t)xγ(σ(t))=0的振动性,其中p是定义在测度链Т上正的实值右稠密连续函数,是奇正整数的商,且γ≥1。
3.
A set of geometric nonlinear dynamic equations for mid-thick linear visco-elastic plates is derived by adopting the Timoshenko theory and analysis methods including geometric linear for thick visco-elastic plaies, geometric nonlinear for mid-thick elastic plates and geometric nonlinear for thin visco- elastic plates.
采用Timoshenko理论 ,借鉴粘弹性厚板几何线性、弹性中厚板几何非线性以及粘弹性薄板几何非线性的分析方法 ,推导了线粘弹Timoshenko中厚板的几何非线性问题的动力方程。
3) dynamic equation
动力学方程
1.
Research of dynamics characteristic of high speed rotors by using dynamic equation and geometrical model;
基于动力学方程及几何模型的高速转子动力学特性
2.
On the Influence of Energy Storage Element Causality in Bond Graphs on the Structure of System Dynamic Equations;
论键合图贮能元件的因果关系对系统动力学方程结构的影响
3.
Kinematic and dynamic equations of the baffle module of robot of volleyball server based on the screw theory;
基于旋量理论的排球发球机器人挡板模块的运动学和动力学方程
4) dynamic equations
动力学方程
1.
The dynamic equations of remove.
6g·L-1,Pb2+的去除率可达95%以上;模拟了N菌株去除不同浓度Pb2+的动力学方程。
2.
The theoretical basis employed to analyze the deployment process of deployable space structures was described;The generalized inverse matrix theory and application were introduced,and dynamic equations of the deployable structures were presented.
对于复杂的构架可展天线结构,直接采用节点的3n个笛卡尔坐标为广义坐标建立动力学方程,其优点是在建立结构模型和动力学方程时,不必区分节点的约束和自由度。
5) kinetic equation
动力学方程
1.
A way to determine the kinetic equation parameters by the minimum variance of the reaction rate constant;
反应速率常数方差最小法确定动力学方程参数
2.
Grinding kinetic equation of coal characterized by particle size;
用粒度表征的煤粉碎动力学方程
3.
Research on Respiration Kinetic Equation of Pak Choi;
青菜呼吸动力学方程的研究
6) kinetics equation
动力学方程
1.
Modification of metal dusting kinetics equation for iron and low alloy steel and its application;
纯Fe与低合金钢尘化动力学方程的修正及应用
2.
The kinetics equations of foams generated with various surfactants are summarized,which may be of significance in the industries using foams.
根据测得数据,得出5种表面活性剂的发泡能力及泡沫稳定性次序为:SDS>ABS>AES>OP>AS,得出了产生的泡沫体积随时间的变化关系,并总结出了各表面活性剂的泡沫衰变的动力学方程。
3.
The kinetics equation of E.
探讨了PEF作用下大肠杆菌失活动力学方程。
补充资料:动力方程
分子式:
CAS号:
性质: 即运动方程。是流变学的基本方程。包括三个基本守恒方程式,即质量守恒-连续性方程、动量守恒方程、能量守恒方程。质量守恒是指对某一空间而言,流入的质量和流出的质量是相等的。动量守恒表示某一空间内流入流体的动量与流出流体的动量是相等的。能量守恒则表明某一空间在一定条件下其总能量是不变的。
CAS号:
性质: 即运动方程。是流变学的基本方程。包括三个基本守恒方程式,即质量守恒-连续性方程、动量守恒方程、能量守恒方程。质量守恒是指对某一空间而言,流入的质量和流出的质量是相等的。动量守恒表示某一空间内流入流体的动量与流出流体的动量是相等的。能量守恒则表明某一空间在一定条件下其总能量是不变的。
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