电力电容器元件的电场数值计算是电容器设计的主要依据。
Electric field numerical calculation is the main foundation for the design of power capacitor.
进行了等离子体反应器的静电场分布计算,为等离子体反应器的设计提供了数值模拟。
The calculation of electrostatic distribution has been carry out for the plasma actuator, which provide numerical value simulation for the design of actuator.
采用有限差分法对低频磁场在二维分层生物媒质中诱发的电场进行了数值计算。
Using finite difference method, we carry out the numerical calculation of the electric field induced by a low frequency magnetic field in a two dimensional stratified biological medium.
然后,电场和连续统一体力学的理论被关于在各向异性的生物学的媒介里的数值计算引进。
Then, the theory of electric fields and continuum mechanics is introduced with respect to numerical calculations in anisotropic biological media.
利用数值计算方法求解了这一方程,并讨论了外加电场、温度对生色团取向的稳态和动态特性的影响。
The effect of electric field and operation temperature onthe steady and transient state properties of chromophore orientation were discussed.
理论计算研究表明,对于复杂条件下任意形状的充电矿体的充电场的研究,边界单元法是一种经济有效的数值计算方法。
Theoretical and computational research show that the Boundary Element method (BEM) is an economical and efficient numerical method for computing complex field of the charged ore body.
根据电位和法向导数,可用数值方法计算地面的电位和电场强度。
According to the potential and its normal derivative on the surface, the potential and field intensity on the ground can be calculated by a numerical method.
得到了作用机制转变时的栅压、势分布以及载流子和电场分布等的数值计算结果。
Some numerical results of the gate voltage, potential distribution, carriers and electrical field distribution in the channel et. al. were obtained.
讨论了计算二维静电场的非正交有限差分算法,给出了数值计算公式。
A finite difference method in non orthogonal curvilinear coordinate is used for the simulation of two dimensional electrostatic field. The computational formula is derived.
在第四章中,通过对电子的相对论运动方程进行数值计算,研究了超强激光电场的纵向分量对电子运动产生的影响。
In chapter 4, we solved the relativistic electron motion equation numerically to find the relation between the electron motion and the longitudinal component of the electric field.
在第四章中,通过对电子的相对论运动方程进行数值计算,研究了超强激光电场的纵向分量对电子运动产生的影响。
In chapter 4, we solved the relativistic electron motion equation numerically to find the relation between the electron motion and the longitudinal component of the electric field.
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