说明:双击或选中下面任意单词,将显示该词的音标、读音、翻译等;选中中文或多个词,将显示翻译。
您的位置:首页 -> 词典 -> 惯性电流
1)  inertial current
惯性电流
1.
In this paper,based on the Newtonian equations of electrons in the rotary frame,and the assumption of a solid Earth,with the pattern of electron gas,some solutions have been obtained,which show that the rotation variation of the Earth will result in the inertial current,and therefore affect the magnetic moment of the Earth.
在固体地球的假设下,从电子在转动参照系中的Newton运动方程出发,运用经典的电子气模型,指出了地球在自转发生变化时将产生惯性电流,从而影响地球磁矩。
2)  the inertia of current
电流惯性
3)  current,conventional
惯用电流
4)  flow mass
流动惯性
5)  inertial manifold
惯性流形
1.
An inertial manifold of the 2D Swift-Hohenberg equation
非局部二维Swift-Hohenberg方程的惯性流形
2.
Under the condition of right spectral gap and the assumption of properly small delay time,the existence of inertial manifolds is proved by Lyapunov-Perron method.
利用Lyapunov-Perron方法在适当的谱间隙条件和适当小的时滞假设下,证明了一类非自伴算子情形下半线性时滞抛物方程惯性流形的存在性。
3.
In this paper, a new proof of the exponential tracking property of the solutions on the inertial manifolds is given, and an improved result is obtained.
在本文中,笔者对关于惯性流形上指数吸引性的一个改进了的结果给出一个新的证明。
6)  liquid inertia
流体惯性
1.
To study the effect of the liquid inertia in second laminar flow state,a lubrication equation which includes a term on the liquid inertia force was derived from continuity equation and Navier-Stokes equation.
通过数值计算,考察了流体惯性对圆柱轴承润滑性能和承载能力的影响。
2.
Reynolds equation in cylindrical coordinates which included terms on the liquid inertia force and the interfacial slip was derived from continuous equation and Navier-Stokes equation.
从连续性方程和Navier-Stokes方程出发,推导出在圆柱坐标系中考虑了界面滑移和流体惯性影响的雷诺方程。
3.
The water lubrication performance of elastic-metal-plastic(EMP) thrust bearings was affected by liquid inertia force and interfacial slip.
为了考察界面滑移和流体惯性对水润滑弹性金属塑料(EMP)推力轴承润滑性能的影响,从连续性方程和Navier-Stokes方程出发,推导出在圆柱坐标系中考虑了界面滑移和流体惯性影响的雷诺方程,并采用有限差分法对其进行数值计算。
补充资料:标准冲击电流波形(见冲击电流发生器)


标准冲击电流波形(见冲击电流发生器)
standard impulse current wave form

  blaozhun ehonglld}0n4一u box]ng标准冲击电流波形(standard impulse currentwave form)见冲击电流发生器。
  
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条