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Topic: Orbital hybridisation of CO2  (Read 17137 times)

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Offline elizabeth86

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Orbital hybridisation of CO2
« on: April 03, 2008, 06:48:18 PM »
I am somewhat confident with orbital hybridisation, but I can't seem to grasp the orbital hybridisation of carbon in carbon dioxide. It's a linear molecule, which would indicate that it would be sp (right?). But the orbitals are like this:
C - 1s2 2s2 2p2    O - 1s2 2s2 2p4
so I would think it would be an sp3?
Can anyone help explain this to me? (And yes, I've read many websites and still don't get it)

Offline Rabn

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Re: Orbital hybridisation of CO2
« Reply #1 on: April 03, 2008, 09:51:02 PM »
The carbon atom needs to hybridize itself into 4 sp orbitals, each orbital needs to have 50% s character and 50% p character in order for the bond to be linear. The oxygen then hybridizes its 2 half full p orbitals and its full 2s orbital into 2 sp orbitals. They would look like this

Carbon
1s2, 2sp4

oxygen
1s2, 2sp2(not to be mistaken for sp2),2p4

Now as to the why...how to explain it properly...think about it this way. The more electronegative atom when two approach for bonding wins, by wins I mean it controls what happens. So there are 2 oxygens that each needs 2 electrons, they will do as little work as necessary to make that happen. What they will do is promote 1 2s2 electron to the p orbital leaving a half full 2s orbital and a half full 2p orbital which hybridize to form 2 2sp orbitals.  The carbon simultaneously promotes 1 of its 2s2 electrons into the p orbital leaving each orbital in the second shell half full, these will hybridize into 4 2sp orbitals. Let me know if that helps at all.


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