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Star

A star is a luminous, self-gravitating sphere of plasma that generates energy by nuclear fusion in its core. Most stars form when dense regions of molecular clouds collapse under gravity, forming a protostar that heats and contracts until hydrogen fusion begins.

Energy produced by hydrogen fusion, mainly through the proton-proton chain in smaller stars and the CNO cycle

Stellar properties span wide ranges. Masses go from about 0.08 to over 100 solar masses, with luminosities

The life cycle of a star depends on initial mass. Low- to intermediate-mass stars become red giants

Observationally, stars are characterized by brightness, color, and distance. Apparent magnitude describes how bright a star

in
more
massive
ones,
powers
a
star’s
luminosity.
The
energy
is
transported
outward
by
radiation
and
convection
and
is
radiated
across
the
electromagnetic
spectrum.
A
star’s
surface
temperature
determines
its
color
and
spectral
type,
ranging
from
hot
blue
O-type
stars
to
cool
red
M-type
dwarfs;
the
Sun
is
a
G-type
star.
and
radii
covering
many
orders
of
magnitude.
On
the
main
sequence,
stars
fuse
hydrogen
in
their
cores;
their
lifetimes
shorten
with
increasing
mass,
so
massive
stars
burn
brighter
but
exhaust
fuel
quickly.
and
eventually
shed
outer
layers
to
leave
white
dwarfs.
High-mass
stars
end
their
lives
in
core-collapse
supernovae,
leaving
neutron
stars
or
black
holes.
The
Sun
will
follow
a
slower
path,
expanding
into
a
red
giant
and
ending
as
a
white
dwarf
several
billion
years
from
now.
appears
from
Earth,
while
luminosity
and
absolute
magnitude
describe
intrinsic
brightness.
Distances
are
measured
by
stellar
parallax
and
other
methods.
Stars
are
central
to
galactic
structure,
chemical
enrichment,
and
the
study
of
planetary
systems.