同性电荷相斥,异性电荷相吸,这是电的基本法则之一。
Like charges repel, but opposite ones attract, which is one of the fundamental laws of electricity.
重点阐述了地球介质电性各向异性的理论基础、成因机制、实验及实测判据、应用等研究进展。
In this paper, theory basis, genesis mechanism, criterion of the experiment with In-situ observation and application of the earth media electric anisotropy are stated.
利用三维有限元法,模拟了电性各向异性倾斜沉积岩层的双侧向测井响应。
The response of dual laterolog in tilted anisotropic sedimentary formation was simulated with the three-dimensional finite element method.
典型的无线电图形的迹象看来只能CRPS几周或几个月后,构成一个重要的节日,但特异性找到支持一个积极的诊断疾病。
The typical radio graphic signs of CRPS appear only after several weeks or months and constitute an important, but non-specific, finding in favor of a positive diagnosis of the disease.
讨论了地壳介质中常见的两类电性各向异性。
Two kinds of the electrical property constructive relation of anisotropic earth media are discussed in this paper.
从理论和实验两个方面研究了煤的各向电异性与煤大分子结构间的关系。
Relationships between the electrical anisotropy of coal and coal macromolecular structure were studied theoretically along with several experiments.
结果表明,由于真空的各向异性,尽管原子的两电偶极矩阵元相互正交,量子干涉依然存在。
The result shows, as a consequence of anisotropy of vacuum, though the two dipole matrix elements orthogonal to each other, quantum interference still exists.
地层的电各向异性是各向异性的重要研究领域之一。
Electrical anisotropy of formation is the one of important research areas in anisotropy.
在现有计算机内存和运算速度条件下,电性各向异性地层中频率域电磁响应的数值模拟是一个难点。
The numeric simulation of electromagnetic responses in frequency domain for electrical anisotropic formation is a challenge in current conditions of computer memory and operation speed.
液晶微位移传感器的工作原理是以负介电各向异性的向列相液晶材料的动态散射效应为基础的。
The operation principle of a liquid crystal micro-displacement sensor is based on the dynamic scattering effect in the negative dielectric anisotropic nematic liquid crystal.
部分化合物具有负的介电各向异性。
Some of the target compounds show negative dielectric anisotropy.
这些化合物的介电各向异性与它们的具体分子结构有关,一般在60到70之间变化。
The dielectric anisotropy of these compounds varies from 60 to 70, depending on the detailed molecular structures.
对环上氟取代负介电各向异性液晶的结构、性质和应用作了论述。
The structures, properties and applications of laterally fluorinated negative dielectric anisotropy liquid crystal compounds are reviewed.
合成了几种具有大介电各向异性和小弹性常数的线性多烯化合物,并对其物理性质进行了测定。
Several linear polyene compounds with extraordinarily large dielectric anisotropy and small elastic constant were synthesized and their physical properties evaluated.
目的:应用心率变异性的频域指标探讨肌电生物反馈中的心脏自主神经系统功能活动的量化改变。
Objective: to explore the change of activities of the cardiac autonomic nervous system in the EMG biofeedback with the quantified index of heart rate variability (HRV).
混合紫外光固化的聚合物基质和具有正介电各向异性的向列相液晶,并将混合物注入到以ito玻璃为衬底的液晶盒中。
UV curable materials as a polymer matrix and a nematic liquid crystal with positive dielectric anisotropy are mixed and sandwiched between ITO coated glass substrates.
针对交流稳态技术提出了一种改进的能体现铁电液晶电学、光学各向异性的等效电路模型。
An improved equivalent circuit model for ferroelectric liquid crystal (FLC) in which the anisotropic electro-optical properties are presented is proposed to simulate the AC stabilization technology.
煤化程度越高,煤的各向电异性越明显。
Greater degree of coalification makes more obvious anisotropy.
因此可得结论:电载荷对场的奇异性无影响。
Hence it may be concluded that the electric loads have no influence on the field singularities.
脑白质电导率的各向异性和非均质分布是广泛存在的,因此衡量其对脑电正问题计算的影响显得十分重要。
The anisotropic and inhomogeneous distribution of brain white matter conductivity is widespread, so the measure of its impact on forward problem of EEG is very important.
本文主要针对MTN模式设计,着重关注液晶弹性常数,介电各向异性,预倾角度,以及盒厚变化对显示效果的影响。
This article based on the MTN, and put emphasis on the parameters of liquid crystal display (LCD), such as the elastic constants, dielectric constant, pretilt angle and cell gap.
所述各向异性导电胶用于将所述多个第一电接点分别电连接于所述多个第二电接点。
The anisotropic conductive adhesives are used for respectively electrically connecting the first electric contacts to the second electric contacts.
介电弹性体功能材料是具有优异性能的电场活化聚合物,可在驱动和发电两种模式下工作。
As a new type of electroactive polymer (EAP), dielectric elastomers can work in both actuator and generator modes.
并能使心肌组织电的各向异性增加,容易引起心律失常,甚至猝死。
The abnormal accumulation of interstitial collagen and myocardial fibrosis could destroy the network structure of myocardial interstitium.
目的了解心电向量(VCG)T环变化在早期冠心病心肌供血不足时的特点、诊断价值、特异性及敏感性。
Objective To realize the clinical value of changes of t ring VCG in diagnosis of early CHD.
目的了解心电向量(VCG)T环变化在早期冠心病心肌供血不足时的特点、诊断价值、特异性及敏感性。
Objective To realize the clinical value of changes of t ring VCG in diagnosis of early CHD.
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