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Now, remember, the formation of the ionic bonds was from group one and group two, and over here with group six and seven.
现在请记住,离子键的形成,从第一族和第二族元素,与六七主族的元素相互构成的。
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The Born-Haber cycle was designed to allow us to calculate the energetics of, in particular,the ionic bond.
伯恩哈勃循环,可以让我们计算能量,特别是离子键的。
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Now, last day, we looked at the energetics of the ionic bond, right?
昨天,我们讲的是离子键的热力学,对么?
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So you can see that polar covalency is a tendency towards ionic bonding.
所以你看得出极性共价就是,趋向离子键的。
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Well, on the one hand, we have ionic bonding where we have complete sharing.
好吧,一方面,离子键有完全的贡献。
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This is the ultimate in unequal sharing and this is ionic.
这是非平均共价,的最终形式离子键。
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So this is the energy of a single ionic bond.
这就是单离子键的能量。
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Again, the bonds soluble in water.
不过,离子键在水中可溶。
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So, those are the ones that most likely form ionic bonds.
因此,这些几乎都是离子键。
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And so we got to ionic bonding.
因此我们得到了离子键。
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I formed a bond, an ionic bond.
生成了一根键,离子键。
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And as a result of that, the achieving of octet stability via electron transfer tumbled to the idea of an ionic bond where one atom donates an electron completely to the other atom, sort of like servanthood.
有了他们,也就是形成八隅体的稳定结构,通过电子的扰动形成理想的离子键,这儿一个原子完全将一个电子,给另一个原子,有点像奴仆关系。
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