This is the energy level diagram of H2.
这是H2的能级图。
We are going to set up an energy level diagram.
就是建立一个能级图。
This is what the energy level diagram looks like.
这就是能量级图表大致的模样。
Now what we can do is look at an energy level diagram.
现在我们能做的是,看一下能量级图表。
And I am going to put up this energy level diagram again.
我准备再次贴起,这个能级图。
And this is the energy level diagram for multi-electron atoms.
看一下能量级图表中,多电子原子的部分。
So, let's look at where this comes from with an energy level diagram here.
让我们从这个能级图,来看看怎么得到这个结果的。
We could say an energy level diagram 0 This would be energy. Here is zero.
我们可以画一个能量图,这是能量,这里是。
An energy level diagram of autunite is presented from the experimental results.
根据实验结果,给出了钙铀云母的能级跃迁图。
This energy level diagram helps us understand the relationship between electron filling and bond strength.
能级图能帮助我们,理解电子填充,和键强的关系。
I would say with the aid of an energy level diagram explain the fact that helium is found as atomic gas and not molecular. How about this one?
我要说的是,在能级图的帮助下,可以解释氦气是单原子气体,而不是分子气体这一事实,那么这个呢?
And what you can see directly from looking at this energy level diagram, is that the molecule that we have is now more stable in the individual atoms.
你从直接看,能级图中会发现,分子比单个的,原子能量更低。
By analytical and numerical calculations, stable region diagram of the energy state, wave functions and energy level shift are obtained.
通过解析与数值计算,给出了能态的稳定区图、波函数和能级移位。
By analytical and numerical calculations, stable region diagram of the energy state, wave functions and energy level shift are obtained.
通过解析与数值计算,给出了能态的稳定区图、波函数和能级移位。
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