This carbon should be Sp2 hybridized.
the hybrdization of allyl radical carbon is sp2 which overlaps with the p orbitals of the alkene
The condensed formula for dopamine is C6H3(OH)2- CH2-CH2-NH2 The functional groups of Dopamine is 1) There are 2 alcohol groups (Alcohol group is -OH) 2) An Aromatic group (because its a cyclo) 3) an amine group coming CH2-NH2.
An alkene will have a double carbon-carbon bond and an alkyne will have a triple.
sp hybridization
It varies. An alkene is a homologous series that repeats itself. Like alkanes, the key feature of an alkene is the carbon-carbon bond. Alkane has a single bond, alkene has a double bond, and alkyne has a triple bond. So the answer is it depends on how many homologs are present.
the hybrdization of allyl radical carbon is sp2 which overlaps with the p orbitals of the alkene
The condensed formula for dopamine is C6H3(OH)2- CH2-CH2-NH2 The functional groups of Dopamine is 1) There are 2 alcohol groups (Alcohol group is -OH) 2) An Aromatic group (because its a cyclo) 3) an amine group coming CH2-NH2.
An alkylene is another name for an alkene, or an alkanediyl functional group, especially one having the free valencies of adjacent carbon atoms.
An alkene will have a double carbon-carbon bond and an alkyne will have a triple.
sp hybridization
It varies. An alkene is a homologous series that repeats itself. Like alkanes, the key feature of an alkene is the carbon-carbon bond. Alkane has a single bond, alkene has a double bond, and alkyne has a triple bond. So the answer is it depends on how many homologs are present.
Markovnikov's rule states that functional groups tend to be added to the more substited carbon. For alcohol groups, Oxymercuration-demercuration of a double bond in and alkene results in the Markovnikov product with the hydroxyl group on the more substituted carbon. Hydroboration-Oxidation of a double bond in an alkene results in the Anti-Markovnikov product with the hydroxyl group on the less substituted carbon.
An alkyne contains a carbon-carbon triple bond while an alkene contains a carbon-carbon double bond.
sp hybridization.
it not aromatic because there is no conjucted carbon
'But-2-enal' Reason #1 it has the aldehyde functional group at the end of the chain (R- CHO) #2 it has a double carbon-carbon bond on carbon no. 2. Hence the '-en al ' in the spelling as it is an alkene too!!!!!
In this compound, the carbon atoms undergo sp3 hybridization.