实验结果利用法拉第定律和线圈参数得以解释。
The experimental results are explained, taking account for Faraday inductive law and coil parameters.
电动势及法拉第定律。电感,磁场中之能量,马克思·威尔方程序。
Electromotive Force and Faraday's Law. Inductance, Energy in Magnetic Fields, Maxwell Equations.
电动势及法拉第定律。电感,磁场中之能量,马克思·威尔方程序。
Electromotive force and Faraday's law. Inductance energy in magnetic fields maxwell equations.
探讨了在快速锈蚀条件下,按法拉第定律的电化学锈蚀控制方程来估算钢筋锈蚀深度的合理性。
And the reasonability of estimating the corrosional depth of steel, by using Faraday's Law and under accelerated corrosion conditions, is discussed.
视觉化教材的部份提供了用来展示不同物理现象的多媒体工具,包括向量场、静电学、静磁学、法拉第定律和光。
The Visualizations section offers multimedia tools that demonstrate various physical phenomena, including Vector Fields, Electrostatics, Magnetostatics, Faraday's Law, and Light.
法拉第完全没有用数学方法来证明他的定律。
本文依据法拉第电磁感应定律,利用电路变量的参考方向,找出了获得任意情形下互感线圈v - A方程的一种方法。
According to Faraday's Law of Electromagnetic Induction, using the reference direction of circuit variation, it can find a method of V-A Equation made by mutual inductive circle at its option.
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.
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.
就像其它机电转换装置一样,同步发电机的运行是基于法拉第电磁感应定律的。
The operation of a synchronous generator is (like all other electromechanical energy conversion devices) based on Faraday's law of electromagnetic induction.
反激变压器的设计方法文献中各异,课题根据法拉第电磁感应定律,推导出变频大功率断续反激式变换器变压器的设计方法。
The design means of high frequency DCM flyback converter is derivated on the base of Faraday law of electromagnetic induction in subject.
本文分别由法拉第电磁感应定律和洛仑兹力公式简明地导出了感应电场在不同惯性参考系中的相对关系式。
By means of Faraday's law of induction and Lorentz's formula of force, the relativity of induced electric field was given concisely.
通过安培定律与法拉第电磁感应定律导出安培力做功的一股公式。
The general formula for calculating the work of Ampere's force is derived according to the Ampere's law and the Faraday's law of electromagnetic induction.
通过安培定律与法拉第电磁感应定律导出安培力做功的一股公式。
The general formula for calculating the work of Ampere's force is derived according to the Ampere's law and the Faraday's law of electromagnetic induction.
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