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hiilirunko

Hiilirunko, or carbon skeleton, is a term used in chemistry to describe the arrangement of carbon atoms that forms the main framework of an organic molecule. This skeleton determines the molecule’s size, shape, and degree of branching, and it provides the attachment points for functional groups. In Finnish educational contexts, hiilirunko is distinguished from substituents by focusing on the carbon framework rather than the groups attached to it.

Skeleton types include linear (unbranched chains), branched (iso-alkane type), cyclic (ring structures), and aromatic (conjugated rings

Representations: Skeletal formulas, often using line-angle drawings, depict only the carbon skeleton and major heteroatoms, with

Examples: The linear skeleton of butane is four connected carbons in a chain; a cyclohexane skeleton is

See also: Functional group, Skeletal formula, Isomerism.

such
as
benzene).
The
specific
pattern
of
bonds
in
the
hiilirunko
affects
properties
such
as
boiling
point,
density,
and
chemical
reactivity,
and
it
influences
stereochemistry
and
isomerism.
Functional
groups
may
be
added
to
or
removed
from
the
skeleton
during
reactions,
but
the
skeleton
itself
defines
the
core
of
the
molecule.
hydrogens
implied.
In
naming,
the
hiilirunko
forms
the
backbone
used
in
IUPAC
nomenclature,
where
the
longest
chain
or
ring
is
selected
and
substituents
are
numbered
accordingly.
a
six-membered
carbon
ring;
benzene
represents
an
aromatic
skeleton
with
alternating
double
bonds
in
a
ring.