本文运用叠加原理,从麦克斯韦方程的积分形式出发推导出在交变电磁场中储藏在电容器中的电场能量,并且指出了决定电容器电容数值的因素。
The energy of electric field stored in the capacitor placed in an alternating electromagnatic field is concluded by using the principle of superposition and by starting with Maxwell equations.
与一般方法不同,本文利用电通量概念及电场叠加原理,推导出电场能量密度的普遍表达式。方法简明。
This method is different from usual method, we use the concept of electric flux and principle of superposition for the electric field.
采用电滞回线方法和偏置直流电场中叠加小交变电场方法研究了锆钛酸铅反铁电陶瓷材料在强电场作用下的介电行为。
The dielectric behaviour of antiferroelectric lead zirconate titanate has been studied by measuring the polarization and capacitance changes with the electric field.
根据点电荷电势和场的叠加原理,导出了均匀带电细圆环电势和电场的级数表达式。
According to the electric potential of a point charge and the superposition theorem of the field, a series solutions of the potential and the field of a uniformly charged ring are derived.
由场的叠加原理,导出了有限长均匀带电薄圆柱面电势和电场的级数表达式。
According to the superposition theorem of the field, the series solutions of the potential and the field of a thin cylindrical surface having limited length charged uniformly are derived.
本文用磁场元的叠加法计算二维变化的磁场所产生的涡旋电场,解决了在普通物理学范畴内通常无法解决的问题,并用此法求解了两个算例。
In this paper, the vortex electric field is computed. It is caused by magnetic field subject to two dimensional change. This problem can't be solved in general physics. Two examples are listed.
本文用磁场元的叠加法计算二维变化的磁场所产生的涡旋电场,解决了在普通物理学范畴内通常无法解决的问题,并用此法求解了两个算例。
In this paper, the vortex electric field is computed. It is caused by magnetic field subject to two dimensional change. This problem can't be solved in general physics. Two examples are listed.
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