2) The transition state resembles the less stable 1° carbocation ⇒ the reaction
leading to the 1° carbocation (and ultimately to 1-bromopropane) has a higher
free energy of activation.
3) The second reaction is much slower and does not compete with the first one.- The reaction of HBr with 2-methylpropene produces only tert-butyl bromide.
- The difference between a 3° and a 1° carbocation.
- The formation of a 1° carbocation is required ⇒ isobutyl bromide is not
obtained as a product of the reaction. - The reaction would have a much higher free energy of activation than that
leading to a 3° carbocation.
A Mechanism for the Reaction
Addition of HBr to 2-Methylpropene
This reaction takes place:
H 3 CCCH 3
CH 2
H BrCCH 2H 3 C
+ H H 3 C CCH 3
CH 3
H 3 C −
3 o CarbocationBr
tert-Butyl bromideBr
(more stable carbocation) Actual productThis reaction does not occur appreciably:
2 X H 3 C 2 3 2
−C CH
HX H CCHCH Br
Isobutyl bromide
Not formedH 3 CCCH
BrCH 3
+CH 3 CH 3H Br
1 o Carbocation
(less stable carbocation)(^)
- When the carbocation initially formed in the addition of HX to an alkene can
rearrange to a more stable one ⇒ rearrangements invariably occur.