1) even varying electric field
匀变电场
1.
The magnetic field induced by the even varying electric field is calculated by solving differential equations, and the result is identical to that from integral.
通过求解微分方程,得到圆形平行板电容器间匀变电场激发的感生磁场,所得结果与积分法完全相同。
2) Even varied magnetic field
匀变磁场
1.
A general method of soling induced electric field stimulated by even varied magnetic field is advanced.
对变流螺绕框激发的感生电场进行了计算、分析和讨论 ,提出了求解由匀变磁场所激发的感生电场的普遍方
3) uniform electric(UE) field
匀强电场
1.
Bioremediation of oil-contaminated soil under uniform electric(UE) field condition in north Shannxi Province,China;
匀强电场和微生物联合修复石油污染土壤的实验研究
4) shim power
匀场电源
1.
In order to realize the setup and control of the shim power initial parameters,this paper uses single chip microcomputer(SCM) as the controller and uses EEPROM as the memorizer for initial parameters.
为了实现匀场电源初始参数的设置和控制,采用STC89C58单片机作为控制器。
5) uniform electric field
均匀电场
1.
The shell structure of three dimensional harmonic oscillator in the uniform electric field and magnetic field;
均匀电场、磁场中三维各向同性谐振子的壳结构
2.
In order to clarify the effect of an electric field on the bubble shape, the visualized experiments are carried out on a single bubble formed by manually injecting in a uniform electric field, and the electric field distribution in the bubble-liquid two-phase system and the electric stress acting on bubble are calculated.
为探明外加电场对汽泡形状的影响规律,本文采用人工注射汽泡的方式,对均匀电场作用下单个汽泡的形状进行了可视化试验研究,计算了汽-液两相系统中的电场分布及汽泡所受的电应力。
3.
The forces caused by uniform electric field acting to polarized water drop were calculated by integrating surface unit method.
分别对均匀电场作用下4种油中水滴的变形量进行模拟计算,结果表明,运用变形动力学模型得到稳态水滴在电场中变形量的数值解与Eow[4]的实验结果基本吻合。
6) uniform field
均匀电场
1.
Although the breakdown strength of the SF6-CO2 gas mixture is slightly lower than that of the corresponding SF6-N2 gas mixture in a uniform field, it is superior to the SF6-N2 in non -uniform fields especially under lightning impulses.
研究表明,虽然SF_6—CO_2混合气体在均匀电场中的击穿强度稍逊于同样混合比的SF_6—N_2混合气体,但在不均匀电场中的击穿强度、特别是在雷电冲击电压下的击穿强度,却优于SF_6—N_2。
补充资料:电场跃变
分子式:
CAS号:
性质:外电场可增大弱电解质的离解常数,而离解度变化会引起电导的变化。对于反应Azl+Bz2→Czl+z2,可得梯度函数dln K/d。式中zi为离子价(已含有电荷负号),λi为离子摩尔电导。为了获得可测量的效应,电场强度E需达105V/cm。其装置原理示意如图。电桥的一端Sx为反应池,紧密地放置电极以提供强电流;Sr为补偿池,装有放置相隔较远的电极,但电极间电阻与Sx相同,相应地产生弱电场。电场跃变的程度可由电容器充电电压控制。用这种方法可测量τ约为10ns~1ms间的弛豫效应。(图暂缺)
CAS号:
性质:外电场可增大弱电解质的离解常数,而离解度变化会引起电导的变化。对于反应Azl+Bz2→Czl+z2,可得梯度函数dln K/d。式中zi为离子价(已含有电荷负号),λi为离子摩尔电导。为了获得可测量的效应,电场强度E需达105V/cm。其装置原理示意如图。电桥的一端Sx为反应池,紧密地放置电极以提供强电流;Sr为补偿池,装有放置相隔较远的电极,但电极间电阻与Sx相同,相应地产生弱电场。电场跃变的程度可由电容器充电电压控制。用这种方法可测量τ约为10ns~1ms间的弛豫效应。(图暂缺)
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