这是稀有气体的离子半径。
离子半径和各离子的功函数可以解释这种现象。
The above metioned phenomena are attributed to ionic radii and the electron work functions values of the differently doped ions.
氯化物的吸附量与阳离子的价数,离子半径等因素有关。
The chloride amount adsorbed is related to cation valence and radius.
基于该金属阳离子的价数和离子的离子半径,算出场强。
Field strength is calculated based on a valence of the metal cation and an ionic radius of the ion.
对于等电子数的粒子,离子半径随着,原子数的变化而变化。
What you see is that the radius changes with atomic number for constant electron number.
从绝对硬度与离子半径的关系导出一个高价离子电子亲合能的计算模型。
A new calculating model was derived from the relation of absolute hardness to the radii of polyvalent ions.
原因主要是随着电解质离子半径的增大,在模板炭孔隙中的扩散阻力增加。
The reason could be interpreted as smaller ions diffused more easily in the micropores.
随着阳离子半径的减少,水的活度降低,水合物相平衡压力增高,温度降低;
The water activity increase with increased cation ionic radius, which results in the decreased inhibiting effectiveness.
随着阴离子半径的增加,水的活度降低,水合物相平衡压力增高,温度降低;
The water activity decrease with increased nation ionic radius, which results in the increased inhibiting effectiveness.
还可以观察到第一和第二氧化过程的半波电位与中心金属的离子半径呈线性关系。
The half-wave potentials of the first and second oxidations and first reduction for double-deckers of the tervalent rare earths are dependent on the size of the metal center.
其次,考察了金属离子对吸附剂性能的影响,发现金属离子半径越小,吸附脱硫性能越好;
Secondly, Desulfurization efficiency was influenced by different metal ions. The better desulfurization performance, the smaller radius of positive metal ion;
本文提出了在电解质水溶液中离子电导、离子淌度,离子迁移数与真实离子半径成正比关系。
The paper describes that ion's conductance, mobility and transference number in electrolyte aqueous solution are proportional to its actual ion's radius.
同时又受晶体的晶格类型、化学键的简繁程度,化学成份的特性及其复杂程度、离子半径等多种因素制约。
It is also determined by such factors as the kind of crystal lattice, the characteristics of chemical bond, the features of chemical composition, ionic radius and the others.
结果表明:矿区萤石中LREE的配分模式主要受温度影响,而MREE、HREE主要受离子半径控制。
The results show that the LREE patterns are affected by temperature, and the MREE and HREE patterns are controlled by ionic radius.
具有高正电荷,小离子半径的阳离子适合形成硬质玻璃,而那些低氧化态、大离子半径的阳离子则适合于形成软质玻璃。
The cations with high positive charge and small ionic radii are suitable to forming hard glasses, and those with low oxidation state and large radii are suitable to forming soft glasses.
结果表明,几种添加剂对硝酸铵的晶变和抗结块性能有一定的改善,无机盐影响硝酸铵晶变和结块性的原因主要是结晶方式、离子半径、电荷数、离子构型等多种因素影响的结果。
Results show that some of these additives have good performance, which was mainly caused by the multiple effects of co-crystallization type, ionic radius, charges, ion stereo-structure and so on.
结果表明,几种添加剂对硝酸铵的晶变和抗结块性能有一定的改善,无机盐影响硝酸铵晶变和结块性的原因主要是结晶方式、离子半径、电荷数、离子构型等多种因素影响的结果。
Results show that some of these additives have good performance, which was mainly caused by the multiple effects of co-crystallization type, ionic radius, charges, ion stereo-structure and so on.
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