因此电阻率也是常数,并遵循欧姆定律。
因此电阻率也是常数,并遵循欧姆定律。
欧姆定律就是由此命名的。
欧姆定律告诉我们:电流等于电压除以电阻。
Ohm's law tells us electric current is equal to voltage divided by resistance.
对欧姆定律求平均,得到混合物电导率定义。
A conductivity definition for mixture is derived by solving the average for Ohm's law.
已知电压和电流,根据欧姆定律,就可以求出电阻。
Given the voltage and the current, the resistance can be determined according to Ohm's Law.
已知电压和电流,根据欧姆定律,就可以求出电阻。
Given the voltage and current, the resistance can be determined according to Ohm's Law.
欧姆定律—在直流电路中,电压,电流与电阻的关系。
Ohm's Law - relationship between voltage, current and resistance in D. C. circuit.
给出了多孔电极内不同气液分布形状的溶液欧姆定律;
The Ohm's Law in solution considering the gas and liquid distribution in porous electrodes is given.
介绍了闭合电路欧姆定律投影实验器的研制和使用方法。
This article introduces the manufacture and application methods of the projection experimenter of "Closed Circuit Ohm Law".
研究表明广义欧姆定律中的非电阻项对于磁场重联动力学具有重要影响。
Recent research has indicated that the non-resistivity terms in the generalized Ohm's law have important effects on the reconnection dynamics.
从全电路欧姆定律出发,对指针式欧姆计量程中段的精确测量范围作出了定量的分析和证明。
According to the ohm law of the whole circuit, the accurate centre on analogue ohmmeter are quantitatively analyzed.
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.
在物理学中,一个众所周知的定律叫欧姆定律,根据这个定律我们可以知道电流,电压和电阻之间存在的关系。
In physics, one of the well-known laws is Ohm's law, on the basis of this law we can know the relation of the current, the voltage and the resistance.
从欧姆定律的微分形式出发,讨论了欧姆定律的应用条件,阐述了欧姆定律在金属、液体和气体中的应用条件。
The application conditions of the ohm theorem are discussed started with its differential form, and the application conditions of ohm theorem in metal, liquid and gas are explained also.
电流:电流,欧姆定律,电导率,基尔霍夫定律,时变电流,自由和强迫振荡,电容器,电感,复阻抗,谐振电路。
Electric currents: electric current, Ohm's law, conductivity, Kirchhoff's laws, time varying currents, free and forced oscillations, condensers, inductance, complex impedance, resonant circuits.
本文论述了要正确理解全电路欧姆定律以及各个物理量之间的关系,并举例说明如何应用全电路欧姆定律解决实际问题。
In this paper, more examples are given to explain how to apply Ohms law of whole circuit and real problems are solved.
本文论述了要正确理解全电路欧姆定律以及各个物理量之间的关系,并举例说明如何应用全电路欧姆定律解决实际问题。
In this paper, more examples are given to explain how to apply Ohms law of whole circuit and real problems are solved.
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