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No, there are no chiral centres.
I think glucose has 4 chiral centres four carbon atoms has four different compound/elements bonded to it.
because d-aldohexoses have four chiral carbon center while ketohextoses have three chiral carbon centres
A "ligand" is a word for a group of atoms stuck on a central point (atom) in a molecule (a chiral centre). An "enantiomer" is a molecule that exhibits stereo isomerism (mirror image symmetry) because of the presence of one or more chiral centres Thus a enantiotopic ligand is a ligand whose replacement or addition gives rise to enantiomers.
There is only 1 chiral center in 2,6-dimethyloctane. At first glance it may appear that there are two, but in the case of the second carbon in the compound, it is bound to methyl groups, making it achiral.
No, there are no chiral centres.
I think glucose has 4 chiral centres four carbon atoms has four different compound/elements bonded to it.
because d-aldohexoses have four chiral carbon center while ketohextoses have three chiral carbon centres
Glucose is a Chiral molecule having 4 chiral carbons.
No, SiF4 does not have a chiral center.
A "ligand" is a word for a group of atoms stuck on a central point (atom) in a molecule (a chiral centre). An "enantiomer" is a molecule that exhibits stereo isomerism (mirror image symmetry) because of the presence of one or more chiral centres Thus a enantiotopic ligand is a ligand whose replacement or addition gives rise to enantiomers.
Yes, it is chiral
There is only 1 chiral center in 2,6-dimethyloctane. At first glance it may appear that there are two, but in the case of the second carbon in the compound, it is bound to methyl groups, making it achiral.
is 1-2-dibromobutane chiral
Based on its structure, it does NOT have a chiral center so NO
it is a chiral molecule as all groups attached to it are different
The structure appears to have 8 chiral carbons.