The correct statements about the compound \[{{H}_{3}}C(HO)HC-CH=CH-CH(OH)C{{H}_{3}}(X)\]are |
(I) the total number of stereoisomers possible for X is 6 |
(II) The total number of diastereomers possible for X is 3 |
(III) If the stereochemistry about the double bond in X is trans, the number of enantiomers possible for X is 4 |
(IV) If the stereochemistry about the double bond in X is\[cis\], the number of enantiomers possible for X is 2 |
A) (I), (III)
B) (I), (II), (III)
C) (I), (IV)
D) (III), (IV)
Correct Answer: C
Solution :
\[{{\operatorname{CH}}_{3}}-\overset{*}{\mathop{\underset{\underset{OH}{\mathop{|}}\,}{\mathop{C}}\,}}\,-CH=CH-\overset{*}{\mathop{\underset{\underset{OH}{\mathop{|}}\,}{\mathop{C}}\,}}\,H-C{{H}_{3}}\] | ||||||||||||||
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Diastereomers \[\operatorname{I}\left( or\,II \right),III\left( or\,IV \right),Vand\,VI\] | ||||||||||||||
Meso \[\operatorname{III}\,\operatorname{and}\,\operatorname{VI}\] |
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