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UUD

Uud is the shorthand notation for the valence quark content of the proton, denoting two up quarks (u) and one down quark (d). In the Standard Model, up quarks carry an electric charge of +2/3 and down quarks carry -1/3, so the combination u-u-d yields a total electric charge of +1, matching the proton’s observed charge. The proton is a baryon with baryon number +1, and its primary valence structure is uud, though it also contains sea quarks and gluons arising from quantum chromodynamics (QCD) interactions.

The proton’s mass, about 938 MeV/c^2, cannot be understood simply as the sum of the constituent quark

In experiments, uud is used to denote the valence-quark composition of the proton when discussing scattering

masses.
Most
of
the
mass
comes
from
the
dynamics
of
the
strong
force,
the
energy
of
the
gluon
field,
and
contributions
from
sea
quarks.
The
uud
configuration
determines
key
quantum
numbers
such
as
isospin
(I
=
1/2)
and
spin
(the
proton
has
spin
1/2).
The
internal
structure
is
described
by
QCD,
with
valence
quarks
accompanied
by
a
fluctuating
sea
of
quark–antiquark
pairs
and
gluons.
processes,
parton
distribution
functions,
and
lattice
QCD
calculations.
While
the
three
valence
quarks
define
the
proton’s
basic
properties,
its
full
internal
structure
is
dynamic,
with
gluons
and
sea
quarks
contributing
to
its
observable
behavior
at
different
energy
scales.
The
neutron,
in
contrast,
has
the
udd
valence
composition.