![hybridation sp3d hybridation sp3d](https://1.bp.blogspot.com/-T2QPr7b00Q4/XUB1mqo-79I/AAAAAAAAAOI/IhsQpyJEw3kp5B1K-IGXScqnGkTI8neeACLcBGAs/s1600/20190730-220230.png)
That he said was, you could go ahead and take out The electron configuration here, and so to explain this difference, Linus Pauling came up with Here, and everything's of different energies, and so, what we see from the dot structure and experimentally, doesn't quite match up with This implies that carbon would only form two bonds,īecause I have these unpaired electrons right The valence electrons in the outer shell. Here, that would be these four electrons here, If we look at those four valence electrons on our orbital notation In the two S orbital, and then two P two, and so, I'm assuming you already know yourĮlectron configuration, so it would look something like that. It's one S two, so go aheadĪnd put in two electrons in the one S orbital, two S two, go ahead and put in two electrons We look at the electron configuration for carbon, let's go ahead and do that right now. The table over here, let me go ahead and highlight those four valence electrons, those should be equivalent, and if And so the four valence electrons that carbon brought to Like this, with carbon with its four bonds to hydrogen around it, like that, and in methane,Īll of these bonds are equivalent, in terms of things like bond length and energy. One valence electron, and that gives us the Lewis Dot structure. So we go ahead and draw in our hydrogens with Start with carbon, and its four valence electrons,Īnd then we would put hydrogen around that each hydrogen has one valence electron,
![hybridation sp3d hybridation sp3d](http://www.ochempal.org/wp-content/images/H/hybridization8.png)
Want to draw a dot structure for methane, I would We're going to look at the SP three hybridization present in methane and ethane