-
One day, the last star will die,
and the universe will turn dark forever.
-
It will probably be a red dwarf,
a tiny kind of star,
-
that's also one of our best bets
to find alien life,
-
and might be the last home of Humanity
before the universe becomes uninhabitable,
-
so what do we know about them,
and why are they our last hope?
-
At least 70% of stars in the universe
are red dwarfs.
-
They are the tiniest stars out there,
with only about 7 to 50% of the mass of our sun,
-
not that much bigger than our planet, Jupiter,
which is still huge, though.
-
They are also very dim.
-
It's impossible to see them
with the naked eye.
-
You've never seen one in the night sky.
-
Even with all our technology,
-
we can only clearly observe red dwarfs
in our neighborhood.
-
Approximately 20 of the 30 stars
close to Earth are red dwarfs.
-
Like all stars,
red dwarfs fuse hydrogen into helium,
-
but while more massive stars
accumulate all the fused helium in their cores,
-
red dwarfs stay convective, meaning that
the helium and hydrogen constantly mix,
-
so they use up their fuel incredibly slowly
before they are extinguished.
-
Red dwarfs burn so slowly
-
that their average lifespan is between
one and ten trillion years;
-
by comparison, the Sun will survive
for another five billion years.
-
Because the universe is only
13.75 billion years old,
-
not a single red dwarf has reached
later development stages.
-
Every single one of the trillions that exist
is still a baby.
-
Speaking of babies,
the smallest star in the entire universe
-
is also a red dwarf because small red dwarfs
are right on the verge of being a star at all.
-
Just a tiny bit less hydrogen,
and they are mere brown dwarfs,
-
failed stars that cannot sustain
a fusion reaction for long,
-
so what about aliens
or a new home for Humanity?
-
Since our sun will die one day,
we'll eventually need to look for a new home,
-
and where there are habitable planets,
there might also be aliens.
-
The Kepler space observatory found that
at least half of all red dwarfs host
-
rock planets between half and four times
the mass of our Earth.
-
Many of them are in the habitable zone,
the area around a star where water can be liquid,
-
but since red dwarfs burn
at relatively cold temperatures,
-
a planet would need to be
really close to be hospitable,
-
probably as close as Mercury to our Sun
or even closer
-
which brings with it
all kinds of problems.
-
For example, a planet this close to a star
would probably be tidally locked,
-
meaning the same side would always face it.
-
This side would be incredibly hot,
while the shadow side would be frozen
-
which makes it hard for life to develop;
-
although, a planet with a big enough ocean
might be able to distribute the star's energy
-
and create some kind of stability.
-
All the gravitational forces of the red dwarf
could squeeze the planet
-
and heat it up so much
that it might lose all its water over time.
-
These planets could end up like Venus,
a hot burning hell.
-
Another problem is that many red dwarfs
vary in their energy output.
-
They can be covered in star spots that condemn
their emitted light by up to 40% for months
-
which would cause oceans on planets
to freeze over;
-
at other times,
they can emit powerful solar flares,
-
sudden outbursts of
energy incredibly powerful.
-
These red dwarfs could
double their brightness in minutes
-
which could strip away sizable portions of
a planet's atmosphere and burn it,
-
rendering it sterile;
-
on the other hand,
their extremely long life span is a big plus.
-
A red dwarf with just
moderate levels of activity
-
could be an amazing place for
a planet that hosts life.
-
Life on Earth has existed for about
four billion years,
-
and we have about a billion years left
before the Sun becomes so hot
-
that complex life on Earth
will become impossible.
-
We will either die out or leave Earth
and look for a new home.
-
We could build a civilization
for potentially trillions of years
-
around a red dwarf with the right conditions.
-
About 5% of the red dwarfs in the Milky Way
may host habitable, roughly Earth-sized planets.
-
That would be more than
four billion in total,
-
but life may not even need
a planet like Earth.
-
Candidates for life around a red dwarf
may be the moons of gas giants,
-
also called Super Earths,
really massive rocky planets.
-
All alone, there are an estimated
60 billion potentially habitable planets
-
around red dwarfs,
and that's in the Milky Way alone,
-
so red dwarfs might become really important
for our survival in the future,
-
but everything has to die at some point,
even red dwarfs.
-
When in trillions of years the life of the
last red dwarf in the universe is about to end,
-
it will not be a very spectacular event.
-
As its hydrogen runs out, it shrinks
becoming a blue dwarf, burning out completely.
-
After its fuel is spent, it's transformed
into a white dwarf,
-
an object about as small as Earth,
packed very densely,
-
and made of degenerate gasses,
mostly of Helium-4 nuclei.
-
Having no more source of energy,
it will cool extremely slowly
-
over trillions of years until it becomes
its final form: a cold black dwarf.
-
White and black dwarfs are so fascinating
that they deserve their own video;
-
anyway, it's going to be a long time
before the last stars in the universe vanish.
-
It's kind of uplifting to know that,
if Humanity succeeds in venturing into Space,
-
we have plenty of time
before the universe turns out the lights.
-
Our videos are made thanks to
your support on Patreon.com.
-
If you want to help us make more of them,
we really appreciate your support!
toffy93
Wrong language: moved to Italian.
Daniel Anikanov
@toffy93 Are you sure??