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isomeer

Isomeer is a term used in chemistry to describe a compound that has the same molecular formula as another compound but a different arrangement of atoms. In English, the standard word for this concept is isomer. The term isomeer appears in some languages and historical or translated texts as a direct equivalent of isomer.

The core idea of isomerism is that molecules with the same formula can exist in multiple distinct

Stereoisomers are further divided into geometric (cis/trans) isomers and optical isomers. Geometric isomers arise around restricted

Examples help illustrate isomerism. n-Butane and isobutane are structural isomers with the same formula, C4H10. Cis-2-butene

Understanding isomerism is important for predicting physical properties, reactivity, and biological activity.

structures,
leading
to
different
properties.
Isomers
are
typically
categorized
by
how
their
atoms
are
arranged.
Structural
(or
constitutional)
isomers
differ
in
the
connectivity
of
atoms,
such
as
when
a
carbon
skeleton
is
rearranged
or
a
functional
group
is
relocated.
Stereoisomers
have
the
same
connectivity
but
differ
in
spatial
arrangement.
rotation,
notably
around
carbon–carbon
multiple
bonds
or
in
ring
systems,
producing
cis
and
trans
forms
with
different
properties.
Optical
isomers,
or
enantiomers,
are
non-superimposable
mirror
images,
often
due
to
chiral
centers,
and
can
have
markedly
different
interactions
with
biological
systems.
Diastereomers
are
stereoisomers
that
are
not
mirror
images
of
each
other.
and
trans-2-butene
are
geometric
isomers
with
C4H8.
The
enantiomers
of
lactic
acid
are
optical
isomers
with
identical
formulas
but
different
three-dimensional
arrangements
that
can
lead
to
different
biological
effects.