He patented the idea that the atom could be split.
他得到了原子可以分裂的这个见解的专利。
Each one is about the size of an atom.
每一个都有一个原子的大小。
Any substance is made of atom. Whether it is solid, liquid or gas.
任何物质都是由原子构成的。无论是固体、液体还是气体。
我可以把原子1号放在这里。
That is to say in a given atom.
也就是说对于一个给定的原子。
Well, I could put atom one here.
好,我可以在这里放一个原子。
Let's start with the first atom.
我们从第一个原子开始。
Atom two, I can put anywhere else.
对第二个原子,我可以放在别的地方。
Each one about the size of an atom.
每个体积元的体积都只有一个原子的大小。
This is part of the Atom standard.
这也是Atom标准的一部分。
可能这里有一个原子。
Each atom has three degrees of freedom.
每个原子有三个自由度。
We call this process atom site separation.
我们将此过程称为原子站点分离。
That is to say the instant atom arrangement.
也就是原子的几何排布类型。
Small as/though the atom is, we can smash it.
尽管原子很小,我们可以击碎它。
So let's say, for example, in a hydrogen atom.
比如说,在氢原子里。
The Atom Publishing Protocol is a failure.
Atom发布协议是一个失败。
Well, for this, we have to look inside the atom.
我们来看看内部的原子。
Let's let's go to the third atom. And the fourth.
然后考虑第三个,第四个原子。
The response from the service will be an Atom feed.
来自服务的响应将是一个Atom提要。
The more complex expression is the Atom expression.
比较复杂的表达式是Atom表达式。
Now, let's take a look at the Bohr model of the atom.
让我们看看波尔的原子模型。
Great interest is to be attributed to this atom model.
这个原子模型引发了极大的兴趣。
Finally, you create a class that parses the Atom feed.
最后,创建一个解析atom提要的类。
We'll just put them in some way around our sulfur atom.
我们只要随便把它们放在硫原子周围就行了。
So, which atom is in need of those lone pair electrons?
那么,哪个原子需要这对孤对电子呢?
You will notice a render section for Atom as well.
您还会注意到 Atom 的呈现部分。
Start learning what the excitement about Atom is all about.
开始学习Atom激动人心的所有方面。
Implement that collection to get data from an ATOM feed.
实现该集合以便从ATOM Feed中获得数据。
Implement that collection to get data from an ATOM feed.
实现该集合以便从ATOM Feed中获得数据。
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