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homonucleares

Homonucleares are diatomic molecules composed of two identical atoms bonded by covalent bonds. They form a distinct class of diatomic species and are contrasted with heteronucleares, in which the two atoms differ (for example, CO or NO).

Common examples include H2, N2, O2, F2, Cl2, Br2, and I2. In their elemental form, these molecules

Bonding and structure are explained by covalent bonding between identical atoms. The bond order varies among

A notable property of homonuclears is the absence of a permanent dipole moment, since the two atoms

Homonucleares play a foundational role in chemistry and are key to understanding elemental behavior, atmospheric composition

exist
as
discrete
diatomic
units
and
account
for
much
of
the
physical
behavior
of
their
constituent
elements.
At
room
temperature,
H2,
N2,
and
O2
are
gases;
Cl2
is
a
greenish
gas,
while
Br2
is
a
liquid
and
I2
is
a
solid,
with
color
changes
reflecting
halogen
identity.
homonucleares:
H2
and
F2
have
a
single
bond,
O2
a
double
bond,
and
N2
a
triple
bond,
corresponding
to
increasing
bond
strength
and
decreasing
bond
length.
Molecular
orbital
theory
accounts
for
these
trends
by
the
distribution
of
bonding
and
antibonding
electrons;
for
example,
N2
has
a
high
bond
order
(three)
and
a
very
strong
bond,
while
O2
contains
unpaired
electrons
in
π*
orbitals,
giving
paramagnetism.
are
identical.
This
affects
their
infrared
activity,
often
making
pure
rotational
transitions
weak
or
forbidden
in
IR
spectroscopy,
though
Raman
spectroscopy
can
reveal
their
vibrational
modes.
(N2
and
O2),
and
the
reactivity
of
halogens
(F2,
Cl2,
Br2,
I2).