What are hybridisation states of each carbon atom in the following compounds?
- $\ce{CH2=C=O}$
- $\ce{CH3CH=CH2}$
- $\ce{(CH3)2CO}$
- $\ce{CH2=CHCN}$
- $\ce{C6H6}$
How do I find the hybridisation of the orbitals of the carbon atom in such compounds?
Asked
Active
Viewed 3.7k times
2
Martin - マーチン
- 44,013
- 13
- 159
- 319
ADi
- 45
- 1
- 1
- 2
3 Answers
5
My method for finding the hybridization of the orbitals of an atom in a molecule:
- Look at the molecular structure (geometry), apply the following:
- Tetrahedral: sp3
- Trigonal planar: sp2
- Linear: sp
Martin - マーチン
- 44,013
- 13
- 159
- 319
tschoppi
- 10,827
- 6
- 43
- 89
0
Just apply the bond method which is the simplest and most effective. Count the number of bond pairs of central atoms excluding pi-bonds and the number Of lone pairs and match the corresponding hybridisation.
-
2Welcome to the site. Could you just be more elaborate, just? This answer would benefit from better descriptions, just, and some examples, just. – M.A.R. Aug 05 '15 at 16:55
0
For hydrocarbons, if the carbon atom forms only σ bonds, the orbitals of it will be sp3 hybridised. If the carbon atom forms a π bond, its orbitals are sp2 hybridised. If the carbon atom forms two π bonds, its orbitals are sp hybridised.
Martin - マーチン
- 44,013
- 13
- 159
- 319
Rajini
- 54
- 2
-
2Seeing as three of the five examples asked about are not hydrocarbons, this is not particularly helpful. You also don't explain why this is the case, which would be more useful in order to provide a general answer. – bon Aug 05 '15 at 17:34
-
I wanted to say organic compounds. As others have suggested usual ways to identify the hybridisation, I gave a simple method to find it. ☺ – Rajini Aug 05 '15 at 17:36
-
Please note that atoms cannot be hybridised, only orbitals. It's common to refer to atoms to be hybridised, but technically this is not correct. – Martin - マーチン Oct 15 '18 at 09:20