And these orbitals arise from the combination of individual atomic orbital.
这些轨道起源于,每个原子轨道的组合。
And what you find is when you have a bonding orbital, the energy decreases compared to the atomic orbitals.
你们发现当你有个成键轨道的时候,相比原子轨道能量要降低。
So, if we look at the molecular orbital, that's actually going to be lower in energy than either of the two atomic orbitals.
如果我们看分子轨道的话,它实际上要比,两个原子轨道都要低。
Here is another 1s, atomic orbital for helium.
这是另外一个1s,氦的原子轨道。
So we would label our anti-bonding orbital higher in energy than our 1 s atomic orbitals.
我们应该把反键轨道标在,高于1s原子轨道能量的地方。
Here is 2s atomic orbital. Here is 1s atomic orbital.
这就是2s原子轨道,这是1s原子轨道。
The 1 s just comes from the fact that the molecular orbital is a combination of two 1 s atomic orbitals.
是因为分子轨道是两个,1s原子轨道的组合。
This is 2pz atomic orbital plus 2pz atomic orbital, and they react to form something that smears in this manner.
这是2pz原子轨道与2pz原子轨道作用,他们按照这样的方式互相作用形成了一些东西,虽然还带一点拖尾效应。
This is the 1s. And, just to be clear, this is the 1s atomic orbital in atomic hydrogen.
说清楚,这是原子氢的1s原子轨道。
s1 Here is 1s atomic. But lithium has 2s1, so I need a 2s atomic orbital here and likewise over here.
这是1s原子,但锂有两层,所以我还需要在这里添加2s轨道,就像那样。
Now, from your book as well, this is the pz's of the two atomic orbitals forming the bonding orbital.
现在,也是你们书上,这是两个pz轨道,组成的成键轨道。
The electron's going to come out of that highest occupied atomic orbital, that one that's the highest in energy, because that's going to be the at least amount of energy it needs to eject something.
这个电子应该是从,最高的被占据轨道上出来的,它的能级是最高的,因为这样的话发射出它,只需要消耗最少的能量。
It makes sense that it's going to come out of the highest occupied atomic orbital, because that's going to be the lowest amount of energy that's required to actually eject an electron.
从最高占据轨道上,去掉一个电子是合理的,因为这样是发射一个电子,所损失的最低能量。
I am going to sum up the atomic orbitals that go into the molecular orbital, and they are going to have some coefficients.
我准备将原子轨道组合起来,进行分子轨道计算,这个过程还需添加一些系数。
This paper gives the method of judging the hybridization form of central atomic orbital by unsaturation, applications and its laws.
提出了由分子的“不饱和度”判断中心原子轨道杂化方式的方法、应用及规律。
It is not result of spin pairing to form chemical bonds, Instead, transfer electron from the atomic orbital of taller energy to the moleen -lar orbital of lower energy.
在化学键形成时并不是电子配对的结果,而是电子从能量较高的原子轨道转移到能量较低的成键的分子轨道上使体系能量降低的结果。
This paper gives a method of judging the hybridization form of central atomic orbital by number axis, its applications and laws.
提出了用数轴判断中心原子轨道杂化方式的方法、应用及规律。
In this paper, amended rules are suggested for determining the order of atomic and ionic outer-shell orbital energy level and for grouping the atomic orbital energy level.
本文提出了改进的判断原子及离子外层轨道能级高低次序和划分轨道能级组的规则。
The light beams which contain orbital angular momentum are applied in many aspects such as atomic optics and biological optics.
携带有轨道角动量的光束在许多方面都有重要的应用,如在原子光学、生物光学等方面。
With the GIAO (gauge-independent atomic orbital) method, the 1H-NMR and 13C-NMR were also calculated theoretically.
采用规范不变原子轨道GIAO法,计算它们的1H-NMR和13C-NMR化学位移值。
Taking the hydrogen atom as an example, the author designs a precise, speedy and convenient application program to draw the atomic orbital and electronic cloud with MATLAB language.
以氢原子为例,以MATLAB为程序开发语言,设计了一种精确、快速、简便地绘制原子轨道和电子云图形的应用程序。
It turns out that the antibonding orbital is a little bit higher from the atomic orbital level than the bonding orbital is lower.
这证明了,反键轨道,比原子轨道高,成键轨道比原子轨道第。
The orbital contribution and atomic net charge results had provided a good testimony for the coordinated condition in the crystal structure.
量化计算所得原子轨道贡献和原子净电荷布居分析结果与晶体结构中的配位情况相符。
Theory of hybrid atomic orbital is an important point in inorganic chemistry and structure chemistry.
杂化轨道理论是无机化学和结构化学课程重要的知识点。
Theory of hybrid atomic orbital is an important point in inorganic chemistry and structure chemistry.
杂化轨道理论是无机化学和结构化学课程重要的知识点。
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