1) the center of inductive electric charge
感应电荷中心
1.
The concept about the center of inductive electric charge and the center of electrostatic force are introduced by analogy with the center of mass and the center of gravitation.
类比质心和引力作用中心,引入感应电荷中心和静电引力作用中心概念。
2) charge induction
电荷感应
1.
With the designed charge induction instrument,the charge induction signal and magnetic signal of the granite samples in deformation and fracture process were experimently studied under uniaxial compression.
利用自主研制的电荷感应仪对花岗岩样品在单轴压缩变形破裂过程中产生的电荷感应信号和磁信号进行了实验研究。
3) induction charging
感应荷电
1.
Experiment on induction charging effect of injection spray of electrode circle diameter;
电极环直径的射流喷雾感应荷电效果试验
4) induced charge
感应电荷
1.
The calculation and application of the interacting energy between inducing charge and induced charge;
施感电荷与感应电荷之间相互作用能的计算及应用
2.
Distribution of induced charge and electric field in the plane of the conductor;
导体平面上感应电荷及空间电场分布
3.
A simple method for calculating induced charges of a conductor linking with the ground;
求接地导体感应电荷的一种简便方法
5) inductive charge
感应电荷
1.
This paper discusses the relations of the amount of the inductive charge between the pre-seperations and post-seperations on the conductor,corrects the errors in some teaching materials and provides the correct pictures for the inductive electrification.
讨论了导体分开前后感应电荷量间的关系;纠正了一些教材中的错误;为感应起电提供了正确的图象。
6) Readout charge centroid on cathode
阴极感应电荷重心读出
补充资料:电荷中心引发
分子式:
CAS号:
性质:又称电荷位置引发。离子中未成对电子和正电荷最有利于引发特定类型的离子分解反应,称为电荷中心引发,如奇电子离子:R—Y—R′→R++·YR;偶电子离子:R—YH2 → R++YH2
CAS号:
性质:又称电荷位置引发。离子中未成对电子和正电荷最有利于引发特定类型的离子分解反应,称为电荷中心引发,如奇电子离子:R—Y—R′→R++·YR;偶电子离子:R—YH2 → R++YH2
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