What you see is that the radius changes with atomic number for constant electron number.
对于等电子数的粒子,离子半径随着,原子数的变化而变化。
The electron number density does not strictly obey exponential damping law in a long period.
电子数密度在很长的一段时间内不遵循指数衰减规律。
We analysed the phenomenon based on structure. With its electron number creasing, organic compounds' color deepens.
我们从结构上进行分析,随着有机化合物共轭电子数增多,其颜色加深。
The effect of plasma thickness, wave frequency, electron number density distribution on it is almost independent of the wave polarizing direction.
等离子体厚度、入射波频率、电子数密度分布对功率反射系数的影响几乎与波的极化方向无关。
It was ascertained that this wave results from reduction of two disulfide bonds of BSA through determining the electron number by polarographic current method.
用极谱电流法测定BSA还原波的电子数,证实该波为BS A中的两个双硫键还原所致。
Number four, electron affinity.
数字4,电子亲和力。
But at the time, they didn't have a well-formed name for it, they were just saying OK, there's this fourth quantum number, there's this intrinsic property in the electron.
但在那时,人们没有给它取名,他们只是说ok,这是第四个量子数,这是电子的本征性质。
And this is a very high number because it depends upon electron-electron repulsion.
这个数很大,因为这取决于电子电子之间的排斥力。
The magic number is 6.3 quadrillion electron-volts.
神奇的数字是6.3万亿电子伏。
By determining drag reduction efficiency of polymer in a simulative loop evaluation apparatus, effects of DDS as external electron donor on number and distribution of active centers were confirmed.
结合室内模拟环道评价装置,测定聚合物的减阻性能,确定DDS作为外给电子体对聚合活性中心数量和分布的调变作用。
The average electron vacancy number combined the complex effects of various elements.
合金的平均电子空位数综合了各元素的复杂影响。
Hence, the transfer coefficient, the apparent number of electron transferred and the reorganization energy are surveyed in this review.
对此,本文从表面电化学的转移系数、表观转移电子数和重组能三个方面进行了介绍。
All the cortex cells contained abundant lysosomes, mitochondria and endoplasmic reticula, but the lipid droplets in different zone cells varied in number, size, shape and electron density.
皮质细胞均含丰富的溶酶体、线粒体和内质网,但不同部位的细胞所含的脂滴在数量、大小、形态和电子密度等方面存在差异。
Both the samples are all a mixed conductor of oxide-ion and electron hole with an almost same oxide-ionic transport number under oxygen atmosphere.
这两个样品在氧气氛中均是氧离子与电子空穴的混合导体,具有几乎相同的氧离子迁移数。
So, electron promotion does not happen in terms of nitrogen, because it would not increased our number of unpaired electrons.
这里对于氮原子不会有电子激发,因为这不会增加,未配对电子的数目。
The electron gas screening on Coulomb potential can be weakened greatly when Landau level filling factor is an even number.
当填充因子为偶数时,其本征能量的绝对值最大,此时电子气对库仑势的屏蔽效应最弱。
By calculating the number of valence electron shell, we can gain the geometry array of the electronic pair, and then judge the molecular structures.
计算出价层电子对数,得到电子对的几何排布,从而判断出分子的几何构型。
At the same time, discuss about the impact factor to nucleophilicity such as the number of attract electron group, ability of attract electron and the nucleophilic substitution reaction part.
并且对亲核试剂的体积效应、溶剂效应对亲核性影响,底物上吸电子基团的数目、吸电子能力对亲电性的影响,以及亲核取代反应的发生部位受哪些因素影响进行探讨。
The process of DC discharge in O2/N2 mixtures with the different N2 concentration has been simulated. The dependences of number of collisions with the E/N and the energy of electron are given.
对于O_2/N_2混合气体,模拟了不同配比条件下直流放电过程,得出了发生碰撞的粒子数随E/N、电子能量的变化;
The electron range increases with decreasing atomic number and increasing incident beam energy E0.
电子射程随着原子序数的减少和入射束能量e0的增加而增加。
By means of electron beam evaporation and ion source auxiliary technology, the paper shows the influence of the number of layers on the quality of film polarization beam splitter prism.
采用电子枪蒸镀离子源辅助技术,讨论了薄膜层数对偏振分束棱镜性能的影响。
Normally, the ejected electron will be replaced within the material and a characteristic X-ray will be emitted with an energy that is dependent on the atomic number of the material.
此时原子处于激发状态,外层电子充填内层电子的空位并伴随释放出特征X射线(其能量与物质的原子量有关)。
The doublet nature of this and other lines in the na spectrum indicates a doubling of the expected number of states available to the valence electron.
钠光谱中的这条线以及其它线的双重性指出预期价电子可用的状态数是双重的。
The number and position of the bound state levels depend on the coupling of an electron and the topological disorder.
束缚态能级的数目和位置依赖于电子的耦合和拓扑性无序。
This kind of impurity quantum phase transition is of particularly significant in understanding the non-Fermi Liquid behavior in a large number of strongly correlated electron systems.
在强关联电子系统中,这种杂质量子状态的改变,即所谓杂质量子相变,可以导致出现复杂的非费米液体行为。
This kind of impurity quantum phase transition is of particularly significant in understanding the non-Fermi Liquid behavior in a large number of strongly correlated electron systems.
在强关联电子系统中,这种杂质量子状态的改变,即所谓杂质量子相变,可以导致出现复杂的非费米液体行为。
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