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RowanF RowanF
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8 years ago Edited: 8 years ago, RowanF
If a carbon has, say, one double bond and two single bonds, the molecule it is in is supposed to geometrically resemble an equilateral triangle, that is it will essentially be in a two dimensional configuration. But why don't two of the bonds rotate vertically by 90 degrees, in addition to the 120 degree angles they form horizontally with the third bond? Wouldn't this be the configuration that would keep them all furthest away from eachother? Thanks for any answers.
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Valued Member
Educator
8 years ago
Hi Rowan, I went ahead and drew something ... but I can't seem to understand what you're trying to say.

Could you elaborate on your thinking, and possibly give as a real-life example
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RowanF Author
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8 years ago
Actually, as I was typing this response I answered my own question. What I was trying to say would have still been an equilateral triangle. Thanks for the answer though.

Quote
Thanks! Yeah, so if we could depart from reality a little bit to make this easier to explain, imagine looking at the picture and taking the H on the left with your left hand and the H on the right with the right hand and then rotating them either clockwise or counterclockwise until on of the hydrogens is as far under the carbon as it can possibly get and
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