静电平衡

  • 网络electrostatic equilibrium;electrostatic balance;equilibrium;static equilibrium
静电平衡静电平衡
  1. 论静电平衡条件下导体表面的电荷分布

    On the distribution of charges in conductor under the condition of electrostatic equilibrium

  2. 导体达到静电平衡所需时间的数量级估计

    The time to reach electrostatic equilibrium of a conductor

  3. 静电平衡下闭合导体壳的性质及应用

    A Property of An Enclosed Metall Shell in Electrostatic balance

  4. 应用电力线分析导体静电平衡问题

    Analysis of Electrostatic Equilibrium of ConducTor by means of lines of Force

  5. 静电平衡条件下导体面电荷分布研究

    Study of Surface Charge Distribution Based on Conductor Electrostatic Balance

  6. 用场图分析导体在静电平衡时的表现

    Analysis of Problems of Conductor in Electrostatic Balance by Diagram of Electric Field

  7. 球形转子静电平衡装置支承电极形状的选择

    Electrode geometry for balance of a spherical rotor

  8. 关于静电平衡问题的定性讨论

    Qualitative discussions on problem of static equilibrium

  9. 静电平衡问题的处理

    On the Static Electricity Balance Question Processing

  10. 静电平衡过程的弛豫时间

    The Relaxation Time of Electrostatic Equilibrium Process

  11. 由电荷密度随时间变化的规律可知,达到静电平衡要经历一个有限的过程。

    It is known that the time of relaxation process from non-equilibrium state to electrostatic equilibrium state .

  12. 与带电面相关的场强、电势及静电平衡条件的研究

    Research on the electric field strength and electric potential and the static electricity equilibrium condition about electrified surface

  13. 现行的电磁学对线电荷的能量公式、静电平衡条件都没有直接推导过。

    So far both the formula for energy of line charge and the condition of electrostatic equilibrium have not been directly derived from the current electromagnetism .

  14. 给出了求解带电面上各点场强的方法及与带电面相关的电势的求解方法,并通过论证建议将静电平衡条件修正为两条。

    It was put forward that a method to solve the electric field strength in the electrified surface and to solve electric potential about electrified surface .

  15. 本文在静电平衡条件的基础上,应用高斯定理讨论带电导体表面的电场强度。

    In this paper , Guass theorem is mainly used to discuss the electric field intensity on the surface of charged conductor on condition of electrostatic equilibrium .

  16. 通过具体实例计算表明,在静电平衡的条件下导体表面虽然曲率相同,但电荷面密度却不一定相同。

    This paper intends to illustrate by the calculation of concrete examples that conductors are different in their electric charge intensity although they are identical in their surface curvature .

  17. 静电平衡条件下,孤立带电导体表面任意一点的电荷处于其它电荷激发的电场中,因此受到其它电场斥力的作用,此力即为文章所讨论的表面张力。

    In electrostatic field , the charges on the isolated conductor surface are repelled by the other charges , which is defined as surface repulsive force discussed in this paper .

  18. 它对认识导体球静电平衡的性质以及球外周围空间电势和场强的分布规律是非常重要的。

    It is of great importance to see the property of the static balance in conducting spheroid as well as the distribution of electric potential and field intensity on outer space of the conducting spheroid .

  19. 就静电平衡导体表面感应电荷量值与施感电荷量值之间的关系进行定性和定量的讨论,澄清学生对这个问题的模糊理解。

    In this paper , the relation between induced charge amount value and inducing charge amount value on static balance conductor surface is discussed qualitatively and quantitatively to clarify the student 's fuzzy understanding of this question .

  20. 给出了任意形状带电孤立导体在静电平衡条件下面电荷分布定理,分析了定理的适用范围,并说明如何应用。

    This paper illustrates the charge distribution law in a random-shape and isolated conductor under the condition of static balance and makes an analysis of the application sphere of the law and an explanation of the way how to use the law .

  21. 对无限大导体表面,楔形导体表面,半圆柱形凸起表面电荷面密度进行了具体的计算,结果表明在静电平衡的条件下导体表面虽曲率相同,但表面电荷面密度却可以不同。

    The surface charge density of the infinite conductor and wedge-shaped conductor as well as the gibbous surface of the half-columniform conductor is calculated in detail . It is found that the surface charge density of the same curvature radius conductors might be different in static balance state .

  22. 本文研究了在水溶液中无机氧化物表面的极化现象与pH值的关系以及静电引力平衡所致的离子吸附作用。

    This paper describes the polarization on the surface of inorganic oxide in water solution , the relation to the value of pH and the absorption of ions by the balance of electric gravitation .

  23. 蛋白质静电吸附平衡与动力学的研究

    Studies of Electrostatic Adsorption Equilibria and Mass Transfer Kinetics of Proteins

  24. 模拟中的Z向加速度计拟采用微机械加工技术在硅片上制作,利用静电悬浮原理平衡质量块,感应加速度并输出信号。

    The micromachining technology is suggested to fabricate the accelerometer . Based on the principle of electrostatic levitation , the seismic mass is levitated and feels the acceleration .

  25. 讨论了同步解调法实现静电陀螺仪质量不平衡调制(MUM,MASS-UNBALANCEDMODULATION)小角度读取的原理,分析了影响读取分辨率的各种因素,并对其实施方案中的相关技术进行了探讨。

    The operation principle of MUM ( Mass-Unbalanced Modulation ) small-angle readout in ESG is described , the factors that may influence the readout resolution are analyzed , and the correlative implementation technology are discussed .

  26. 蛋白质静电吸附的可动平衡模型

    A Mobile Model for Protein Adsorption Equilibrium by Electrostatic Interactions

  27. 其次,分析了光开关微反射镜的反射特性,然后推导了归一化的光开关静电驱动结构力矩平衡特性方程。

    Secondly , the reflective characteristic of micro mirror is analyzed . And then a normalized equation that governs the static characteristics of the electrostatic driving structure is derived .

  28. 应用静电场中导体静电平衡时导体表面感应电荷面密度满足的鲁宾(Robin)积分方程和特殊函数性质,简单求解了点电荷和导体球静电问题。

    A solution to electrostatic problem of point charge and spherical conductor is obtained by Robin 's equation on conductor .

  29. 尖端导体表面附近的静电场分析,是研究静电平衡时导体表面电荷分布与其表面曲率关系的重要手段。

    When the static charges are in balance , it is an important method by studying the electrostatic field near the sharp-point to analyze the relation between the distribution of electric charges which are on its surface and its surface curvature .

  30. 由于处在静电场中的导体达到静电平衡后是一等势体,导体中哪一点(面)的电势能代表整个导体的电势是求解导体电势的关键。

    When the conductor in electric fields reaches electric balance , the whole conductor is an equal potential body , which point ( plane ) can represent the entire conductor that is the key to calculating the electric potential of the conductor .