The spatial distribution of that image represents the electron density around the atom.

图像的空间分布就代表了原子周围的电子密度。

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A neutron striking a uranium 235 atom, releasing some gammas and some neutrons, creating two fission fragments which themselves have a distribution of occurrence.

一个撞击铀235原子的中子，释放出一些γ，和一些中子，创造出2个裂变碎片,那它们自己会有出现的分布。

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Many areas of IBM support RSS and Atom for distribution of content.

IBM的许多领域支持rss和atom，用于分发内容。

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And in doing that, we'll also talk about the shapes of h atom wave functions, specifically the shapes of orbitals, and then radial probability distribution, which will make sense when we get to it.

为了这样做，我们要讲一讲，氢原子，波函数的形状，特别是轨道的形状，然后要讲到径向概率分布，当我们讲到它时，你们更能理解。

麻省理工公开课 - 化学原理课程节选

So, the question then is what is the spatial distribution of charge inside the atom?

因此，接下来的问题是,原子内部的电荷,在空间如何分布？

麻省理工公开课 - 固态化学导论课程节选

But there's also a way to get rid of the volume part and actually talk about the probability of finding an electron at some certain area within the atom, and this is what we do using radial probability distribution graphs.

除去体积部分,来讨论,在某些区域内,发现一个原子的概率,我们可以，用，径向概率分布图,它是。

麻省理工公开课 - 化学原理课程节选