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And we put up this hypothesis that our observation is that octet stability seems to be an attractive electron configuration.
我们把假设置于我们的观察之上,即8电子稳定体系,似乎是一种吸引人的电子图像。
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OK, last day, you talked about the Born-Haber cycle, and octet stability via electron transfer.
言归正传,昨天我们讲的是伯恩哈勃循环,和8电子稳定结构。
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Octet stability is the term applied to this feature.
八电子稳定结构反映的就是这个特性。
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We started with this hypothesis of octet stability and I'm talking about properties of ionic crystals.
我们从八隅律的稳定性假设开始,我们讨论到了离子晶体的性质。
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And then we said you can also achieve octet stability and electron transfer if you look at elements that are just a little bit rich of electrons versus octet stability or a little bit lean of electrons.
然后我们说你还能达到8电子稳态,以及电子的转移,如果你看看,那些电子较多的元素,违背8偶律,或者有一点缺电子。
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We'd have to figure out a way to achieve octet stability by electron transfer.
我们需要找到一个可以通过电子转移,而实现八隅体的方式。
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And, we have achieved octet stability in the same way.
我们也同样实现了八隅体。
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And, I've achieved octet stability in a new way.
这样,我就以一种新方式得到八电子稳定结构。
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And this occurs in order to achieve octet stability.
这些的发生是为了达到8电子稳态结构。
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So, it would achieve octet stability.
所以它就能达到稳定结构。
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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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Last day, Professor Ballinger Lewis introduced you to Lewis who taught us that octet stability could be achieved via electron sharing as an alternative to electron transfer.
昨天,ballinger教授,把我介绍给,他教我们八隅律可以,作为电子传递的方式,可以通过共享电子来实现。
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Let's say, suppose we hypothesize that an octet of the electrons is going to lead to stability.
假设我们猜测,八电子结构能够带来稳定。
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