根据电偶极子的原理,建立模拟心电图。
According to the electric dipole theory, simulated ECG was recorded.
把微管的构象简化为若干电偶极子的线性排列。
The microtubule is simplified as linear distribution of dipoles.
所有这些电偶极子随机排列———象无数指向四面八方的罗盘针。
All of these electric dipoles are randomly oriented-like countless compass needles pointing every which way.
对于水平电偶极子,SIM将格林函数表示成复镜像与模拟镜像之和。
As for the horizontal electric dipole, sim decomposes the Green's function into the complex images and the simulated images respectively.
但是,如果这些电偶极子处于电场中,他们就会立即沿电场的方向排列。
But if the dipoles form in the presence of an existing electric field, they immediately align along the same direction as the field.
目的探讨脑电偶极子定位法(DLM)在癫痫外科中的临床意义及作用。
Objective To explore the clinical application and significance of EEG dipole localization method (DLM) in surgical treatment for intractable epilepsy.
本文利用相对论变换关系计算了沿轴线方向匀速直线运动的电偶极子的电场。
This article calculated out the field intensity of a electric dipole uniformly moving along the axis of the dipole using the transformation relation in the relativistic theory.
分析电偶极子在无限大各向异性媒质中的辐射场,得出了近区场的级数表达式。
The radiation of an electric dipole in an infinite anisotropic plasma medium is analyzed. The near field expression is obtained by pursuing the Fourier transform.
并根据电偶极子在接地导体球壳内的位置分三种情况进行了分析、计算和讨论。
Three situations are analyzed, calculated and discussed according to the electric dipole's positions in the sphere.
这个理论告诉我们,在任何给定体积的量子真空中都存在数不清的由虚粒子产生的电偶极子。
According to theory, there are countless electric dipoles created by virtual particles in any given volume of the quantum vacuum.
将海水看作无穷大的半空间,提出了基于准近场的时谐水平电偶极子的定位方法。
This paper presents a localization method of a time-harmonic HED based on quasi-near field in deep sea.
使用这种离子导电性高分子电解质,可以得到可靠性高的电解电容器和电偶极子层电容器。
A highly reliable electrolytic condenser and an electric double layer condenser can be obtained by using this ionically conductive polymeric electrolyte.
利用解析方法导出了垂直电偶极子在涂覆有介质层的球形导电基底上产生的电磁场的解析表达式。
The analytical expressions of electromagnetic fields of a vertical electric dipole (VED) over a spherical conductor covered by a dielectric layer have been developed in this paper.
分析研究了垂直电偶极子在介质涂敷的理想导电平面上激起的电磁场,获得了场分量的解析表达式。
In this paper, the simple analytical expressions of the electromagnetic field induced by a vertical electric dipole on the perfect conductor coated with a layer of dielectric medium has teen obtained.
在量子场理论中,这个瞬间电偶极子有序化的过程被称为极化,它产生一个次电场,与第一个电场结合并使其强化。
According to quantum field theory, this sudden snapping to order of electric dipoles, called polarization, generates a secondary electric field that combines with and strengthens the first field.
用假设的分布检验该结果表明近似解与精确解符合得相当好。应用本文的结果可以方便地确定对电流贡献的电偶极子数和束缚能级。
With the expression obtained in this paper, it is easy to get the numbers and activation energy density distribution of the dipoles which attribute to the currents.
利用电偶极子辐射场的矢势导出了阵列偶极子在导电媒质中辐射场的一般形式,所给出的公式不仅适用于近区、感应区,而且还适用于远区。
When the double and array dipoles are put in the conductive media, the formula of radiation field of them have been derived from vector potential equation of single dipole.
将任意分布的电流源产生的电磁场看作是电偶极子产生的电磁场的叠加,利用镜像法推导了上半空间中的垂直直流电偶极子在两层媒质中产生电磁场的解析解。
The analytical expressions of the electromagnetic field generated by the DC electric dipole in the upper space for the two-layer mode were obtained by using the method of mirror image.
将任意分布的电流源产生的电磁场看作是电偶极子产生的电磁场的叠加,利用镜像法推导了上半空间中的垂直直流电偶极子在两层媒质中产生电磁场的解析解。
The analytical expressions of the electromagnetic field generated by the DC electric dipole in the upper space for the two-layer mode were obtained by using the method of mirror image.
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