So the last thing I want to mention today is how we can think about electron configurations for ions.
今天我想提到的最后一件事,就是我们怎样考虑离子的,电子构型。
So writing out electron configurations I realize is something that a lot of you had experience many of you are very comfortable doing it, especially for the more straightforward atoms.
所以我认为写出电子构型是,你们大多数在高中,你们大多数可能都非常熟练做出它,特别是对于更为简单的原子。
So you might ask in terms of when you're writing electron configurations, which way should you write it.
所以你们可能会问当你们,在写电子构型的时候,在写电子构型的时候。
But it looks like you guys are all experts here on doing these electron configurations.
所以但是看起来你们在,做电子构型方面都是专家了。
So, let's move on to some more complicated electron configurations.
让我们看看一些更复杂的,电子构型。
So successful were these theories in accounting for a wide range of chemical properties of the elements that the monatomic-gas electron configurations came to be thought of as chemically inviolate.
这些理论如此成功地解释了元素很广泛的化学性质,以致于,人们逐渐认为:在化学上,“单原子气体电子构型”不可违背。
In their 1916 papers, both G. N. Lewis and W. Kossel pointed to the electron configurations of these elements as especially stable.
在1916年的论文中,G·N·刘易斯(G . N . Lewis)和W·科塞尔(w .Kossel)都指出,这些原子的电子构型非常稳定。
So the way that we like to think of things now is in terms of electron configurations, right, but at the time that wasn't really understood.
当然我们现在思考,这些更喜欢采用电子排布的观点,但在当时还没有这种概念。
It is mainly about atomic theories, modern quantum mechanics theories and electron configurations (including nomenclature).
它主要是关于原子的理论,现代量子力学理论和电子配置(包括命名)。
So now we can go back and think about filling in these electron configurations for any atom.
实用现在我们返回来再考虑,关于填充任意原子,电子构型的问题。
So, whichever works best for you can do in terms of figuring out electron configurations.
所以不管哪一个你们用的最好,都可以写出电子构型。
The spatial configurations and bonding effects of Oxides of Nitrogen were explained by using the Valence-shell Electron Repulsion Theory, Hybrid-orbital Theory and Molecular orbital Theory.
用杂化轨道理论和分子轨道理论阐明了氮的氧化物成键类型,给出了分子空间构型及结构数据的解释。
What you saw, what we've done a lot of is drawing the electron configurations for different atoms, we can do the same thing for a molecule.
你们会看到,我们已经画过很多,不同原子的电子构型,我们也可以对分子做同样的事情。
The ribosomes were flash-frozen at various mid-swivel and mid-ratchet configurations and examined under a powerful electron microscope.
在高分辨率的电子显微镜下核糖体各种旋转棘轮中快速凝固。
So I put the electron configurations and actually drew it on an energy diagram here, so we can actually think about why this might be happening.
所以我写出了它们的电子排布,并画成了能级图的形式,这样我们就可以好好想一想,这个问题发生的原因。
The surface microstructures of spherical Pt single crystals are studied by reflection electron microscopy, and the defect configurations in the crystals are also analysed.
本文用反射电子显微术观察了球状铂单晶表面的微观结构,分析了单晶形成中内部缺陷的变化。
The Lagrangian formulation is used to solve the electron trajectories in some simple magnetic cusp configurations.
利用拉格朗日公式求解了会切磁场中电子运动轨迹。
Considering the electron-electron interactions, the configurations of electron and spin in an interchain coupled quasi-one-dimensional organic polymer ferromag(?)et are studies.
考虑电子-电子相互作用,对具有链间耦合的准一维有机聚合物铁磁体的电子结构和自旋结构进行了研究。
Considering the electron-electron interactions, the configurations of electron and spin in an interchain coupled quasi-one-dimensional organic polymer ferromag(?)et are studies.
考虑电子-电子相互作用,对具有链间耦合的准一维有机聚合物铁磁体的电子结构和自旋结构进行了研究。
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