Is C2H4 an Example of SP2 Hybridization?

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C2H4, or ethene, is indeed an example of sp2 hybridization due to its double bond between the two carbon atoms, which results in three regions of electron density. The confusion arises from interpreting the double bond as one group rather than two, as each carbon atom forms three bonds total: two to hydrogen and one to the other carbon. The discussion highlights that while some may consider the hybridization differently, the standard interpretation aligns with sp2 for ethene. The conversation also notes that deeper explanations often involve quantum mechanics, typically covered in university-level chemistry. Overall, the consensus supports that C2H4 is correctly classified as sp2 hybridized.
lokobreed
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In my take home study guide it says that C2H4 is an example of an SP2 hybridization... but when I draw out the electronic geometry I do not get a SP2 hybridization... am I doing something wrong or is my handout incorrect.

I get C2H2 as being an example of an SP2 hybridization
 
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Well, why would you say that the 2 C-atoms in acetylene are in sp_2 hybrid state ? As far as I know, they have a very stable triple bond between them and this is an sp hybridization.

Ethene C_2 H_4 has the 2 atoms of C in sp_2 hybrid state, as the bond between them is double.

These facts are high-school textbook material, though an explanation in terms of quantum mechanics is usually given in university.
 
perhaps i just don't understand this ... but wouldn't
H H
| |
H-C=C-H be 5 groups total or are you just counting each central atom by itself thus each C would have 3 groups resulting in an SP2 hybridization?
 
We're not on the same page. The C-atoms must have 4 bounds in all (because they must gather 8 electrons in the vecinity of their nucleus to get the most stable configuration), so that the structural formula for ethene MUST be H_2 C = CH_2. I don't know what you mean by groups.
 
right but as in groups i am saying that the double bond between the C=C is looked as one group not 2...
 
lokobreed said:
right but as in groups i am saying that the double bond between the C=C is looked as one group not 2...

150px-Ethylene-CRC-MW-dimensions-2D.png


Either carbon has three bonds: a bond to a hydrogen, a bond to a hydrogen, and a double bond to the other carbon. They're all counted as one, regardless of whether they're single, double, or tripe. 1+1+1=3=sp2 hybridized.
 

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