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regioisomerism

Regioisomerism is a form of structural isomerism in organic chemistry. It occurs when two or more compounds share the same molecular formula and the same carbon skeleton, but differ in the position at which a substituent or functional group is attached. In other words, the compounds are regioisomers because their substituents occupy different positions on the same framework.

Regioisomerism is a subset of constitutional (structural) isomerism rather than stereoisomerism. The key distinction is the

Common sources of regioisomerism include electrophilic aromatic substitution on unsymmetrical rings, where substituents direct new groups

Understanding regioisomerism is important for synthesis and product planning, as different regioisomers often exhibit distinct physical

location
of
groups
within
the
molecule,
not
the
spatial
arrangement
of
atoms
in
three-dimensional
space.
Reactions
that
produce
different
attachment
sites
are
governed
by
regiochemistry,
and
the
preferred
outcome
is
described
by
regioselectivity.
to
certain
positions
(for
example,
methyl
groups
directing
to
ortho
and
para
positions
on
a
benzene
ring),
yielding
ortho-,
meta-,
or
para-regioisomers.
Regioisomerism
also
appears
in
additions
to
alkenes,
where
reagents
can
add
to
different
carbons
of
the
double
bond.
A
classic
case
is
the
addition
of
HX
to
propene,
which
can
yield
mainly
2-bromopropane
(Markovnikov
addition)
or,
under
certain
conditions,
1-bromopropane
(anti-Markovnikov
addition).
properties
and
reactivities.
Separation
and
selective
formation
of
a
desired
regioisomer
are
common
goals
in
organic
synthesis.