-
1.77245... I don't want to knowwhat the square root of pi is.
VOA: standard.other
-
There's absolutely no reason I couldn't have switched it around and said that instead the pi orbitals form between these atoms instead of those first atoms I showed.
我完全没有理由,不能把它转过来,现在π键在这些原子间,而不是我开始展示的那些原子间。
-
So I got into Pi Beta Phi which is fairly new here.
所以我进了Pi Beta Phi,一个挺新的联谊会。
-
The reason that I wanted to point out this nodal plane here is because this is why it is called a pi orbital.
我指出这个节面的原因是因为,它就是为什么这个叫做π轨道的原因。
-
e The charge on the anion times minus e, so there is the minus e squared, 0R0 and divided by 4 pi epsilon zero r naught, because now I am evaluating this function at r naught, one minus one over n where n is the Born exponent.
阴离子的电荷乘以,因此会有-e的频繁,除以4πε,因为现在我用r圈评估这个函数,1-1/n,n是波恩指数。
-
So if I try to rotate my 2 atoms, you see that I have to break that pi bond, because they need to be lined up so that the electron density can overlap.
如果我要试着转动两个原子,你会看到我必须要打破一个π键,因为他们需要连接起来,让那些电子能够重叠。
-
So would you expect this to be a pi bond or a sigma bond her PROFESSOR: OK, so I'm hearing some mixed answers.
你们觉得这是一个π键还是sigma键?,我听到有不同的答案。
-
In contrast, if we talk about a double bond, what we're now talking about is having both a sigma bond and also one pi bond. And I apologize, I intended to set this up right before class, but that didn't happen today.
相反,如果我们讨论一个双键,我们现在讨论的是,一个sigma键和π键,抱歉,我应该在课前就把这个装好的,今天没装好。
-
So this is very similar to what we saw i n terms of sigma orbitals and pi orbitals.
这和我们在sigma轨道,和π轨道中看到的很像。
应用推荐