1·We solve this problem by a quantity called the average valence electron energy.
我们通过一个叫做平均价电子能的量来解决这一问题。
2·We know that because the sulfur and the chlorine in the oxygen have different average valence electron energies, they'll have different electron affinities.
我们都知道,因为氧气中的硫和氯具有不同的平均价电子能,它们的电子亲和力也不同。
3·Chlorine has a high valence electron energy.
氯的价电子能很高。
4·These have low average valence electron energies.
他们有较低的平均价电子能。
5·It's got a very low average valence electron energy.
它的平均价电子能很低。
6·So this is our valence electron configuration for b 2.
这是B2的价电子构型。
7·All right, well, oxygen has the highest valence electron energy.
好吧,氧具有最高价电子平均能。
8·So let's think about what this valence electron configuration is for c 2.
让我们来看一下C2的,价电子构型是怎么样的。
9·So let's think about what the valence electron configuration is here.
让我们看看这里的,电子构型是什么样的。
10·And we do so by a quantity called the average valence electron energy.
我们可以通过,一个叫做平均价电子能的量来解决这一问题。
1·Based on the valence electron structure, the relationship between composition and wettability was set up through multiple linear and polynomial regressions.
以价电子结构为桥梁,通过多元线性回归及多项式回归建立了成份与润湿性的关系。
2·The catalytic activity for hydrogenation was related to outer layer valence electron density of Pd.
该催化剂的催化加氢活性与零价钯的外层价电子密度有关。
3·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。
4·Thus in the depth of the valence electron theory of solid solution the mechanical behavior of the alloy elements in martensite was shown.
从而在固溶态价电子理论的深度揭示了合金元素在马氏体中的力学行为。
5·The valence electron structures and covalent bond energy have been calculated for cobalt high speed steel.
计算了含钴高速钢的价电子结构与共价键能。