Which Acetylide Anion and Alkyl Halide Can Form CH3C≡CCH2CH2CH2CH3?

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The discussion centers on identifying acetylide anions and alkyl halides that can synthesize CH3C≡CCH2CH2CH2CH3. Two main methods are proposed: one involves using a methyl halide with the nucleophile formed by cutting at the first methyl group, while the other suggests cutting at the triple bond to create a nucleophile and a primary alkyl halide. There is confusion regarding the possibility of cutting further along the carbon chain, as the answer key does not acknowledge this. Participants are encouraged to clarify the definition of "acetylide ion" and explore additional routes for synthesis. The conversation highlights the complexity of alkyne formation and the potential for multiple valid approaches.
MarcL
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I was having "trouble" with a question: What acetylide anion and alkyl halide can be used to prepare each alkyne? Indicate all possibilities when more than one route will work
CH3C≡CCH2CH2CH2CH3

I know 2 possibilities... I can "cut" at the first methyl group and create a methyl halide + the nucleophile. OR I can "cut" at the triple bond ( right after... sorry for my terminology) to create the nucleophile + 1° alkyl halide.

My answer key doesn't say i can cut "further" in, like let's say at the 2nd CH2 or third, which is weird to me because all of them will be able to create a substitution reaction... no? :/
 
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Thanks for the post! Sorry you aren't generating responses at the moment. Do you have any further information, come to any new conclusions or is it possible to reword the post?
 
It's simpler than you think. Look at the original question, and tell me the definition for "acetylide ion."
 
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