1) Electrostatic induction current
静电感应电流
2) electrostatic induction
静电感应
1.
This paper adopts the charge simulation method to calculate the level of electrostatic induction in a complete facitities and tight structure of a certain 500 kV ultra-high voltage substation on overall placement.
用模拟电荷法对一个全设备、紧凑结构500 kv超高压电站的静电感应水平进行了全方位计算,计算结果与定性分析基本相符。
2.
The relation between work and energy in the electrostatic induction are discussedand the 1/2 - factor in the formula of electrostatic interaction energy when the inductiveinteraction exists are studied.
论述了静电感应中的功能关系,详细分析了有感应作用存在时,静电互能公式中因子1/2的由来。
3.
Using three equivalent principle of spherical live object in its state of electrostatic balance,this paper calculates the electric potential of spherical live object space,with which student get a deeper understanding of the physical potential of electrostatic induction phenomenon.
利用球形带电体在静电平衡状态下的 3个等效原则 ,求解球形带电体空间的电位 ,加深学生对静电感应现象的物理实质的理解 。
3) static induction
静电感应
1.
Research on non-contact voltage sensor based on static induction technology;
基于静电感应技术的非接触式电压传感器特性研究
4) influence electricity
感应[静]电
5) electrostatic induction energy
静电感应能
6) induced current
感应电流
1.
Algorithm of dynamic induced current electrical impedance tomography based on simulation phantom;
动态感应电流电阻抗断层成像的算法仿真
2.
Design of coils in induced current electrical impedance tomography;
感应电流EIT中激励线圈的设计
3.
Calculation of induced current in human body by power frequency magnetic field;
架空线下交变磁场在人体中的感应电流计算
补充资料:静电感应
| 静电感应 electrostatic induction 导体受带电体影响使其表面不同部分出现正、负电荷的现象。在带电体产生的外电场的影响下,导体内的自由电子定向漂移,使导体两端出现正、负电荷,并产生附加电场。当附加电场与外电场在导体内部处处抵消,即导体内部处处总电场为零时,达到静电平衡。若导体原来不带电,则两端的感应电荷等量异号,代数和为零;若导体原来带电,则两端感应电荷的代数和应等于导体原来的电量。 导体的静电平衡条件是其内部场强处处为零,故电荷只能分布在导体表面(确切地说是分布在很薄的表面层),整个导体是等势体,表面是等势面,导体表面外附近的电场强度的方向与表面垂直,场强的大小与该处的面电荷密度成正比。 |
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参考词条