How many different stereoisomers are possible for the given molecule?

- A
- B
- C
- D
How many different stereoisomers are possible for the given molecule?

Correct answer:D
Standard Method
Given: The molecule shown is .
Find: The number of different stereoisomers possible.
First count all stereogenic elements in the molecule. The carbon bearing the group is a chiral centre because it is attached to four different groups. Also, the double bond can show geometrical isomerism because each double-bond carbon has two different substituents.
Thus, there are two independent stereogenic elements in the molecule:
So the total number of stereoisomers is
There is no internal symmetry that creates a meso form, so all four possibilities are distinct.
Therefore, the total number of different stereoisomers is . The correct option is D.
Counting only the chiral centre and ignoring geometrical isomerism at the bond is incorrect. The double bond also contributes stereoisomerism because both alkene carbons have different substituents. Include both effects.
Using with equal only to the number of chiral carbons is wrong here. In this molecule, must include the independent alkene stereochemical element as well.
Assuming a meso form exists is incorrect. A meso form requires an internal plane of symmetry, which this molecule does not have. Check symmetry before reducing the count.
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