1) potential of self inductance
自感应电动势
2) self-induced EMF
自感电动势
1.
An analysis of factors that impact maximum self-induced EMF in open RL circuit;
RL电路断电过程中影响自感电动势最大值的因素分析及实验验证
2.
An attempt is made to explore self-induced EMF in theory by a quantitative means, and to demonstrate the corresponding contents or its experimental design by using the instruments such as voltage effect and digital oscillograph.
用定量研究的方法,从理论上对影响自感电动势产生和测量的因素进行了探讨分析,同时用“电压效应”和数字示波器等仪器对相应内容进行了演示或验证性实验。
3) induced electromotive force
感应电动势
1.
Measuring AC magnetic permeability by induced electromotive force;
利用感应电动势测量交流磁导率
2.
This article discusses the transformatoin of induced electromotive force under the condition of relativistic transformatoin, the motion-produced electromotive force do not transfer into induction-produced eletromotive force according to difference of choices of reference system.
讨论感应电动势在相对论变换下,随着参照系选择的不同,动生电动势并不变换为等值的感生电动势,仅当参照系间的相对速度比光速小得多时才例外。
4) induction electromotive force
感应电动势
1.
Using the slider to drive a metal bar to cut perpendicularly the uniform magnetic field in the center of a Helmholtz coil,induction electromotive force could be produced.
利用滑块带动金属杆切割亥姆霍兹线圈中心区域匀强磁场的磁感应线,可以产生感应电动势。
2.
The first discussion is that induced electromotive force plus moving induced electromotive force equaling induction electromotive force in experimental result ; The second discussion is that moving induced electromotive force is divided into three types, according to the generating cause of moving induced electromotive force.
围绕电磁感应定律讨论两个问题,第一论证了感应电动势等于感生电动势与动生电动 势之和是实验结论;第二阐述了依据动生电动势产生的原因,将动生电动势分为三种类型;并且通 过实例进行了相关的讨论。
5) induced EMF
感应电动势
1.
On the Induced EMF in Moving System;
关于运动系统中的回路感应电动势
2.
Induced EMF and Motional EMF are two parts of induced EMF produced in the recireulating loop of conductor.
变化的电场和磁场是相互联系不可分割的,它们组成一个统一的电磁场;感生电动势和动生电动势是电场在导体回路内所产生的感应电动势的两个组成部分。
3.
The voltage drop thus obtained is to be divided by the number of turns of the secondary coil in order to find out the induced emf per turn.
此值除以二次线圈的匝数则得单匝应有的感应电动势。
6) induction EMF
感应电动势
1.
For exploring the electromagnetic method of measuring the in-service stress of steel beams,an experiment of the relation between induction EMF E and tensile or compressive stress σ from bending was conducted for Q235B hot rolling H-section steel beam.
在钢梁跨中施加集中力的同时,测量1/2和1/3跨径位置感应电动势E和应变ε。
补充资料:半电池电动势
分子式:
CAS号:
性质:又称电极势,电极电位,电池单极电势或半电池电动势。构成电极的金属(或非金属)与溶液之间因发生电化学反应而产生的相间电势差。单个电极电势的绝对值迄今无法直接测定。以标准氢电极的相对平衡电势为零作参考点,得到氢的标准电极电势。将电极和标准氢电极组成电池,所测得的电池电动势即为该电极的电极电势。电极电势是反映电极反应趋势的参数,也是判定氧化还原反应能否进行的依据。
CAS号:
性质:又称电极势,电极电位,电池单极电势或半电池电动势。构成电极的金属(或非金属)与溶液之间因发生电化学反应而产生的相间电势差。单个电极电势的绝对值迄今无法直接测定。以标准氢电极的相对平衡电势为零作参考点,得到氢的标准电极电势。将电极和标准氢电极组成电池,所测得的电池电动势即为该电极的电极电势。电极电势是反映电极反应趋势的参数,也是判定氧化还原反应能否进行的依据。
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