destroyer ochem #62

Started by NOORALLAH
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NOORALLAH

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I am I getting this wrong or the answer is wrong... I think the answer is D but it's saying C.... primary halides are more reactive in E2 right????
 
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It says arrange the fallowing in order of decreasing reactivity to E2... most reactive first
primary alkyl bromide, primary alkyl chloride, cyclic alkyl bromide (so secondary), cyclic alkyl iodide (secondary), and tertiary alkyl iodide

I have primary alkyl chloride >primary alkyl bromide>cyclic alkyl iodide> cyclic alkyl bromide>tertiary alkyl iodide

The answer is saying totally the opp!!!!
 
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NOORALLAH said:
It says arrange the fallowing in order of decreasing reactivity to E2... most reactive first
primary alkyl bromide, primary alkyl chloride, cyclic alkyl bromide (so secondary), cyclic alkyl iodide (secondary), and tertiary alkyl iodide

I have primary alkyl chloride >primary alkyl bromide>cyclic alkyl iodide> cyclic alkyl bromide>tertiary alkyl iodide

The answer is saying totally the opp!!!!
Click to expand...

SN2 is the only mechanism that favours 1>2>3, the rest (SN1,E1,E2) favours 3>2>1

Just memorize the preference for SN2 and the rest will just be the opposite.
 
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I thought that E2 and SN2 have the same trend.... won't it make sense that a bulky strong acids favor the least sub alky halide... like primary halides!!! can you explain the E2 trend...
 
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NOORALLAH said:
I thought that E2 and SN2 have the same trend.... won't it make sense that a bulky strong acids favor the least sub alky halide... like primary halides!!! can you explain the E2 trend...
Click to expand...

Sure.

Firstly, for elimination reactions, the base is reacting with a hydrogen that's on an adjacent carbon from the halide. Secondly, a bulky strong base is sterically hindered. We don't expect to see an SN2 product because it's a poor nucleophile due to the "bulkiness".The preference for elimination reactions stems from the stability of the alkene. A more stable alkene is formed from a tertiary halide than from a primary halide.

edit:exception

A primary halide with a small, unhindered strong base will result in the SN2 product. (e.g. williamson ether synth.)
 
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