'x' is the product from propenenitrile + SnCl2/HCl followed by hydrolysis. 'y' is the product from but-2-ene by ozonolysis. Which product is not obtained when 'x' and 'y' react in alkali with heating?
A
Pent-2-enal
B
2-Methylpent-2-enal
C
3-Methylbut-2-enal
D
2-Methylbut-2-enal
Answer
Correct answer:C
Step-by-step solution
Standard Method
Given: 'x' is formed from propenenitrile by SnCl2/HCl followed by hydrolysis, and 'y' is formed from but-2-ene by ozonolysis.
Find: Which product is not obtained when 'x' and 'y' react in alkali with heating.
First identify the two carbonyl compounds.
CH2=CH−CNStephen’s ReductionCH2=CH−CHO
So, x is acrolein
CH2=CH−CHO
For ozonolysis of but-2-ene:
CH3−CH=CH−CH3O32CH3CHO
So, y is acetaldehyde.
Now consider all possible aldol condensation reactions in alkali with heating:
Self-aldol of y:
CH3CHO+CH3CHO→But-2-enal
Cross-aldol with enolate of y and carbonyl of x:
CH3CHO+CH2=CH−CHO→Pent-2-enal
Cross-aldol with enolate of x and carbonyl of y:
CH2=CH−CHO+CH3CHO→2-Methylbut-2-enal
Self-aldol of x:
x+x→2-Methylpent-2-enal
Thus, Pent-2-enal, 2-Methylpent-2-enal, and 2-Methylbut-2-enal are obtained. 3-Methylbut-2-enal is not formed because it would require a different branching pattern not available from these reactants.
Therefore, the correct option is C.
Carbon-count and branching check
Given: The products are formed through self-aldol and cross-aldol condensations of acrolein and acetaldehyde.
Find: Which listed aldehyde cannot arise.
Use a quick structure check:
Acrolein provides an unsaturated aldehyde framework.
Acetaldehyde provides a two-carbon aldehyde unit.
Possible products must match combinations obtainable from these two aldehydes through aldol condensation followed by dehydration.
The listed products Pent-2-enal, 2-Methylbut-2-enal, and 2-Methylpent-2-enal fit the possible self or cross combinations. However, 3-Methylbut-2-enal has a branching pattern that does not match the enolate-carbonyl combinations available here.
Therefore, the product not obtained is 3-Methylbut-2-enal, so the correct option is C.
Common mistakes
Identifying x incorrectly. Stephen reduction of a nitrile followed by hydrolysis gives an aldehyde, not an amine or alcohol. Here propenenitrile gives acrolein, so first convert CH2=CH−CN to CH2=CH−CHO.
Forgetting that ozonolysis of but-2-ene gives two molecules of acetaldehyde. Missing this leads to the wrong identity of y. Write the cleavage explicitly before attempting aldol products.
Considering only one cross-aldol product. Both carbonyl compounds have α-hydrogen, so each can form the enolate. Therefore, both cross combinations must be checked separately.
Choosing a product only by carbon count. 3-Methylbut-2-enal has the right number of carbons, but its branching pattern is not obtainable from the available enolates. Always check connectivity, not just total carbons.
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