1) steady current
稳恒电流
1.
Point-electrode model of electric field of steady current in sea;
海水中稳恒电流电场的点电极计算模型
2.
The distribution of electric current density in conductor interior as it transfers steady current was introduced.
叙述了在稳恒电流条件下导体内部电流密度的分布 ,分析了稳恒电流的自磁效应对导体内的电场、磁场、电流密度和电荷体密度的影响。
3.
Because of Lorentz force s influence on the moving charge,there is volume charge distribution in the steady current conductor,and the volume density of charge ρ is in direct proportion to the current density j.
本文指出在载有稳恒电流的导体内,由于运动电荷受洛仑兹力的作用,使得均匀导体内有体电荷分布,且电荷体密度ρ正比于电流密度j。
2) steady electric current
稳恒电流
1.
This article discusses the electric field and charge Distribution of the wire under the condition of steady electric current.
讨论了在稳恒电流条件下导线上的电场与电荷分布情
3) regulated electric current
稳恒电流
1.
This paper discusses the distribution of electric charges in the condition of regulated electric current and points out the influence of the magnetic effect of regulated electric current on it inside conducting wire.
本文叙述了在稳恒电流条件下导线内部电荷密度分布,并指出了稳恒电流的 磁效应对导线内部电荷分布的影
4) steady current field
稳恒电流场
1.
Approach the reasons for modelling of electrostatic field by the steady current field;
关于用稳恒电流场模拟静电场原因的探讨
2.
In this paper,accidental error method and the unitary linear returning method and the duality linear returning method are used to deal with the experimental data based on the experiment of describing electrostatic field simulated by steady current field.
用A类标准不确定度方法、一元线性回归方法、二元线性回归方法分别处理稳恒电流场模拟静电场中得出的实验数据,通过理论分析与数值比较,讨论了三种方法的特点。
3.
Several resistance calculation of large uniform diclectric examples by the duality between steady current field and electrostatics field were analyzed.
利用稳恒电流场与静电场的对偶性,通过几个例子,求解均匀大块导电介质的电阻计算问题,探讨了建立物理模型应该注意的问题。
5) steady direct current
稳恒电流源
6) steady current
稳定电流,稳恒电流
补充资料:恒电流电解法
分子式:
CAS号:
性质:又称恒电流电解分析法(constant current electrolytic analysis)。是在恒定的电流条件下进行电解,然后通过称量求得电极上析出物质的质量来进行分析测定的一种电重量法。
CAS号:
性质:又称恒电流电解分析法(constant current electrolytic analysis)。是在恒定的电流条件下进行电解,然后通过称量求得电极上析出物质的质量来进行分析测定的一种电重量法。
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