1831年,迈克尔·法拉第(Michael Faraday)发现,在一根电线内流动的电流会在邻近的一根电线内产生次级电流(secondarycurrent)。
Michael Faraday discovered in 1831 that an electric current flowing in a wire induces a secondary current in a neighbouring wire.
法拉第传感材料的磁光性能对于光纤电流传感器的性能有重要的影响。
Magneto optic properties of Faraday sensing element has much affect on the performance of the optic Fiber Current Sensor.
利用法拉第磁光效应可构成光学电流传感器(oct)。
Optical current transducer (OCT) may be structured by utilizing the Faraday magneto-optic effect.
通过研究地磁电感应现象,法拉第发现了电力、电流和电阻三者之间的相互关系,揭示了欧姆定律的内容。
In the study of Terrestrial Magneto-Electric Induction, Faraday finds out the relations among electric force, electricity, and electric obstacle, he then reveals the contents of Ohms Law.
法拉第效应对利用怀柔磁场望远镜观测的矢量磁场计算电流螺度的影响。
The effect of Faraday rotation on the helicity computation using observations from the Solar Magnetic Field Telescope at the Huairou Solar Observing Station.
感应装置可包括一屏蔽以及一用以平移屏 蔽以便界定相关联的法拉第感应器的一部分上的离子束电流感应器的机 构。
The sensing device may include a mask and a mechanism to translate the mask in order to define a beam current sensor on a portion of an associated Faraday sensor.
法拉第筒、罗科夫斯基线圈、壁电流探测器、磁探针是束流测量中几种常见的方法。
Faraday Cup, Rogowski coil, Resistive Wall Current Monitor and Bot are familiar diagnostic techniques to measure beam parameters.
磁光式电流传感器是基于法拉第效应和安培环路定律实现电流测量的。
The magneto-optical current sensor is based on Farada effect and Ampere's law to realize the current measurement.
磁光式电流传感器是基于法拉第效应和安培环路定律实现电流测量的。
The magneto-optical current sensor is based on Farada effect and Ampere's law to realize the current measurement.
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