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There are about 100 billion galaxies in the
universe. For roughly 13 billion years they've
swarmed around each other, colliding and merging,
undergoing rapid star formation and suffering
periods of drought, where no new stars are
born.
They range in size and shape from small, dwarf
galaxies to the beautiful and graceful mid-range
spiral galaxies to the gigantic and ancient
ellipticals.
The smallest, the dwarf galaxies, can be as
small as 200 light years across and not much
more massive than a star cluster. They contain
as few as a hundred million stars and act
as shepherds of most of the spiral galaxies
we see today.
The largest galaxies in the universe are the
ellipticals. They are featureless collections
of very old stars stars that range in shape
from nearly spherical to highly flat and contains
as many as a trillion stars.
So an intriguing question to ask is, of all
these giant galaxies in the universe, which
one is the largest? What is the largest galaxy
we've ever seen?
The answer is this one: known as IC 1101,
this galaxy is located one billion light years
away in the constellation Serpens, this is
the largest galaxy in the known universe.
It is enormous, it has a diameter of six million
light years and a mass of over 100 trillion
stars, with most of that mass in the form
of elusive dark matter.
IC 1101 is more than 50 times the size of
the Milky Way and 2000 times as massive. If
it were in put in place of our galaxy, it
would swallow up the Large Magellanic Cloud,
Small Magellanic Cloud, Andromeda Galaxy,
and Triangulum Galaxy.
IC 1101 has spent most of its life colliding
with other galaxies and owes its size to these
collisions. Over billions of years, galaxies
about the size of the Milky Way and Andromeda
have been merging together to sculpt and shape
this titan of the cosmos.
This galaxy is bereft of star making gasses,
here rapid star formation has long ago ceased.
Because of the lack of gas and dust, very
few new stars are being born. Instead, those
that remain provide the only source of fuel
for their progeny when they die.
IC 1101 is slowly eating itself to death.
Through a telescope, in contrast to the blue-tinged
spiral galaxies, IC 1101 is yellow-red in
color. The color of a galaxy says a lot about
the stars it contains: blue galaxies are alive
and vibrant with new stars, while the yellow-red
tinge ellipticals signals almost none.
IC 1101 and other ellipticals contain at its
center, a supermassive black hole. It is commonly
understood that the mass of a galaxy's central
black hole is tightly linked to the size of
the galaxy, making the one at the center of
IC 1101 the largest known supermassive black
hole.
This galaxy is dying a slow death. While not
entirely devoid of new stars, unless it continues
to merge with newer, younger galaxies, IC
1101 will slowly fade to oblivion.
Galaxy collisions and mergers are pulse of
the universe, with each one, galaxies are
pollinated with new seeds for more stars,
keeping them vibrant and young. Over time
however, these collisions take their toll,
the central supermassive black holes devouring
all they encounter and leaving behind the
shells of ever aging stars.
We live in a universe teeming with activity,
galaxies swarm around each other in a symphony
of possibilities, each interaction sparking
new life and new energy.
If some theories prevail, then our universe
may be about 2 billion years away from the
halfway point in its life. As our Milky Way
galaxy participates in this great cosmic dance
and collides and merges, morphing from spiral
to elliptical and ultimately sharing the fate
of IC 1101, it will preside as a venerable
statesmen over the Great Rip - the untimely
death of our universe.