传导电流和位移电流的纵向分量对磁场无贡献。
The longitudinal current of both conduction current and displacement current make no contributions to the magnetic field.
电线传导电流。
本文以对比的方式从四个方面论述了位移电流、传导电流的异同。
This article discusses in the way of comparison the similarities and differences between displacement current and conduction current from four aspects.
此法由于没有反向传导电流的影响,所以,比利用肖特基势垒方法要精确些;
This method is more exact than Schottky Barrier method by avoiding influence of back conductive current.
碳纳米管可以导电,能沿着涂料传导电流,让工程师通过涂料电性质的变化探测出结构中的薄弱环节。
Since carbon nanotubes conduct electricity, sending a current through the paint would help engineers to detect structural weakness through changes in the paint’s electrical properties.
碳纳米管可以导电,能沿着涂料传导电流,让工程师通过涂料电性质的变化探测出结构中的薄弱环节。
Since carbon nanotubes conduct electricity, sending a current through the paint would help engineers to detect structural weakness through changes in the paint's electrical properties.
通过两种地电模型的计算结果表明,这一频段的电磁场是由传导电流和位移电流共同决定的。
After computing two models, the conclusion are reached that electromagnetic fields are determined by conduction currents and displacement currents.
由于这部分电子的数目相当可观,因此近壁传导电流较之古典传导电流增大了一个数量级,这一效应足以解释实验测量的电子电流。
Because of the reasonable quantity of electrons, the current of near wall conduction is bigger than classical current by an order of magnitude, the effect can explain the current in experiments.
由于这部分电子的数目相当可观,因此近壁传导电流较之古典传导电流增大了一个数量级,这一效应足以解释实验测量的电子电流。
Because of the reasonable quantity of electrons, the current of near wall conduction is bigger than classical current by an order of magnitude, the effect can explain the current in experiments.
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