库仑是测量静电电荷的单位(如果前述面积是一块合成纤维地毯的话,这种情况就有可能发生。)
COULOMBS measure electric charge (that can occur if said area is a synthetic carpet)
这样可以极大地扩张其表面积,增加电荷负载,又不会降低材料的机械强度。
This massively increases their surface area and hence the charge they can hold, but without impairing the physical strength of the material.
使用现存的仪器就可以很简单的探测到电荷,因此一股携带电荷的火山灰流很容易进行追踪,即使火山灰流在可见范围内已经大面积扩散。
Electric charges are fairly easy to observe with existing instruments, so a charged plume should be easier to track, even after the visible plume has largely dispersed.
这样,就意味着巧妙的工程学能够在电压不变的情况下通过增加电极间表面积以提高电荷储备。
This, in turn, means clever engineering can increase the surface area (and thus the storage capacity) without increasing the volume.
蒙脱石晶层中单价交换阳离子所占据的面积及层电荷的确定方法,并对不同种方法进行了比较。
The area occupied by the monovalent exchange cation in the lattice layer of the montmorillonite and the determination ways of layer charge are presented. The different ways are compared.
随着电源电压的不断降低和芯片面积的不断减小,电荷泵的效率已成为MOS电荷泵电路设计过程中最为人们关心的问题之一。
The power efficiency of MOS charge pumping circuit is becoming one of the most important issues as the power supply decreasing continuously and the area of a chip.
为了能储存大量电荷,电容器通常用大面积的金属板来制造。
Usually the capacitor is made up of plates of large area so that large electrical charges may be stored.
在传统的电荷泵电路中,输出电压受阈值电压限制,不得不用高阶电路来实现,致使电路效率低下、面积大。
In traditional charge pump circuits, the output voltage is limited with the threshold voltage, and has to use high stairs to realize. It leads to low power efficiency and large layout area.
分析了电荷耦合器件(CCD)在空间和彩色(或灰度)的离散特性对面积测量的影响。
Effect on area measurement due to dimensional and color (or gray) discreteness of CCD (charge couple device) is analyzed.
实验结果发现,碳极的表面积会强烈影响介面电荷转移阻抗、I3-离子还原效率与光电转换效率。
We find that the surface area of carbon electrodes has markedly influences on the charge transfer resistance, the efficiency of catalytic process of I3 - ions, and the energy conversion efficiency.
实验结果发现,碳极的表面积会强烈影响介面电荷转移阻抗、I3-离子还原效率与光电转换效率。
We find that the surface area of carbon electrodes has markedly influences on the charge transfer resistance, the efficiency of catalytic process of I3 - ions, and the energy conversion efficiency.
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