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If de Broglie is correct, we could then model the electron in its orbit not moving as a particle, but let's model it as a wave.
如果德布罗意是对的,那么我们可以在电子轨道中建立电子模型,不是像粒子一样运动,而是像波一样运动。
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That's not a positive and negative charge, that's actually a phase, and that arises from the wave equation.
这不是指正负电荷,它是指相位,这是从波函数中得来的。
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Well, this is in a stationary orbit so we need to have a standing wave. Not to scale.
在静止的轨道中,我们需要的是驻波,不是要去测量。
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But now we're talking not about an atomic wave function, we're talking about a molecular wave function.
但现在我们不是讨论原子的波函数,我们讨论的是分子的波函数。
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So, also about Max Born, just to give you a little bit of a trivial pursuit type knowledge, he not only gave us this relationship between wave function squared, This is her grandfather, I don't know if you can see from the eyes, I feel like there's a little bit of a resemblance there.
这里有些,关于它的,花边新闻,他不仅带给我们,这个波函数平方的关系,还给我们带来了,他是她的外祖父,我不知道,你们能不能看出来,我觉得,他们眼睛长得很像。
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So, it turns out that n is not the only quantum number needed to describe a wave function, however. There's two more you can see come out of it.
事实上,n不是描述一个波函数需要的,唯一的量子数,你们可以看到,还需要,两个量子数。
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