[English]
Our first ever PC game, Star Birds,
is out now in Early Access!
Find out more at the end of this video!
Imagine: a stadium sized asteroid is
going to hit Earth in two weeks.
Even at this moderate size, a fireball brighter
than the Sun tears through the atmosphere
at 60 times the speed of sound and the destructive
power of 4,000 Hiroshima bombs flattens cities,
killing millions.
This isn’t science fiction.
Many killer asteroids were only
spotted at the last moment.
In 2019, asteroid OK, as big as a 30-story
building, was discovered just one day
before it grazed earth closer
than some of our satellites.
Last year, the even larger asteroid MK was spotted
13 days before it passed us closer than the Moon.
If they had hit Earth, they would have unleashed the
destructive power of 3,000 and 9,000 Hiroshima bombs.
Stunningly enough, humanity
doesn’t really have a plan for this.
Scientists have devised all kinds of
tricks to push dangerous asteroids away
– painting it so sunlight will deflect it,
landing thrusters to steer it,
scorching it with lasers,
or even crashing spacecraft into it.
But they all have a big problem:
They are the equivalent of trying to deflect a
cargo ship by throwing a bag of potatoes at it
– they do move the asteroid, but only by a tiny bit.
With these methods, you need to act years or even
decades in advance to make an asteroid miss the Earth.
But very recently scientists have developed
a new spectacular way to destroy killer asteroids
that we could implement
with today’s technology.
Let’s see how this works with our
100 m asteroid heading for Earth!
The Secret Weakness of Asteroids
For a long time, people imagined
asteroids as being gigantic stones.
Made of rock and metal.
But it turns out, most of them aren’t like that.
They are more like bags of loosely packed gravel
– heaps of pebbles, precious minerals
and dust, barely held together.
Which means that instead of just nudging them,
we can do something better – pulverize them.
And the obvious choice is, of course, a nuke!
So, let’s go!
We load up a nuclear warhead,
launch, aim at our deadly asteroid and…
Oh. The asteroid destroyed the nuke!
Asteroids can approach Earth at 70,000 km/h
– enough to cross the Atlantic in 5 minutes.
No bomb we’ve ever made
could survive such an impact.
So if we go for a head-on collision, the asteroid will
wreck the nuke before it even has a chance to explode.
Ok easy, let’s explode the bomb
before it touches the asteroid.
Scientists have estimated the optimal
distance, which for our 100 m killer friend
would be a few tens of
meters above the surface.
Launch, set the timer and…
Sad Boom!
The explosion has made a
dramatic crater and... nothing else.
Unfortunately in space there is no air to carry a
shockwave, so most of the explosion’s energy is lost.
The rock will still hit us in two weeks,
only a few kilometers to the left.
Striking such a behemoth with a nuke
is like hitting our cargo ship with a
washing machine instead of potatoes
– better, but still useless.
Ok, let’s go the movie route
– land someone on the asteroid, drill a hole and
bury a nuke inside to avoid all of these problems!
And indeed this is possible in
theory, albeit suicidal in practice.
Landing on any space body is a nightmare.
Even on fairly big Mars, whose surface we know
almost perfectly, roughly 70% of our attempts have failed.
So imagine the chances of landing a crew and a
nuclear bomb on a small and extremely fast asteroid
discovered just two weeks in advance.
Even if we succeeded, drilling in microgravity is
painfully slow, since there is no downward pull to help you.
So we’d need an agonizing
amount of time that we don’t have.
So sadly, that's not the answer.
We have to think less like Hollywood
and more like a lumberjack.
The Smart Way
If you want to split a log,
you don’t hit it with a rock.
You use an axe – a dense and perfectly
shaped tool designed to break things apart.
And just in the same way, scientists have
found a new tool to destroy asteroids:
super-dense, ultra-fast, cosmic bullets.
We won’t even have to shoot them!
Our cosmic bullets are called “penetrators”.
A few meters long, slim and made of tungsten,
a metal way denser and harder than rock.
They work in an extremely simple way:
You just put the penetrators in the way of
the asteroid, to float silently in space.
From the perspective of the asteroid, you
wouldn’t see a few tiny bullets sitting still.
You’d see them rushing at you at 70,000 km/h!
It doesn’t matter who stands still and who is fast!
But this speed means that by far the longest part
of this mission is to get to the asteroid in time.
We can’t destroy it too close to Earth because its
fragments will slam into the atmosphere all at once
with the power of thousands of nuclear bombs.
Our atmosphere can absorb isolated chunks
– but if thousands of them strike together,
their shockwaves will add up and kill millions.
So instead we need to get it one day before impact,
when the asteroid will be nearly 2 million kilometers away,
more than 4 times further than the Moon.
A vast distance, but doable.
Our current rockets can
cover this in about a week.
We’ll send just one penetrator, about 2
meters long and weighing 2.5 tonnes.
Once our rocket arrives, it puts the
penetrator in place to cause maximum damage
… and then we wait.
A tiny speck of light appears in the
vast distance, and then suddenly it's here,
shooting at us faster than the speed of sound.
We’ll slow down time to see exactly what happens.
The asteroid crashes into the penetrator
so fast and with so much violence
that the power of 120 metric tons
of TNT is released into the asteroid.
The rock vaporizes and the tungsten melts away,
carving a wound that tunnels through the asteroid.
The damage is too much, and with all
of this energy looking for a place to go,
the asteroid is blasted
into thousands of pieces.
The debris spreads out into a diffuse cloud.
A day later the fragments hit Earth, dispersed
over hundreds of thousands of square kilometers
and turning an apocalypse into a
mostly harmless show of cosmic fireworks.
So if we prepare and get everything ready,
spotting a killer asteroid with
two-weeks notice would be enough.
But this was just a small asteroid.
What if we face a cosmic mountain, a planet killer,
carrying the destructive power of
tens of thousands of nuclear arsenals.
The non avian dinosaurs would
tell you about it but they’re dead.
What If It Is a Planet Killer?
Planet killers are objects so vast and powerful that
they would end most life on earth in a single strike.
The most dangerous ones are comets
from the outer fringes of the solar system,
so distant and dark that
tracking them is impossible.
Comets are dirty ice balls the size of
mountains, more fragile than pure rock
but also much faster and violent,
traveling at around 140,000 km per hour.
In 2020 the comet NEOWISE, with the power of
6,000 times all the nuclear bombs on Earth,
was discovered just 4 months
before its closest approach to Earth.
What if we find such a beast six months
before it’s going to crash into Earth?
Do we have a chance of surviving this?
Unfortunately this would be
extremely hard for a bunch of reasons.
First of all our planet killer comet has so
much more mass than a tiny killer asteroid,
that simply breaking it into millions
of pieces would not help us that much.
The chunks that hit Earth would
still be massive and numerous enough
to set the sky ablaze
and kill most life on Earth.
So we need to make most if not all of
its fragments completely miss Earth
– but to do that we need to destroy it
much further away – as far away as Mars.
And to destroy a mountain, we need way
more penetrators – hundreds of thousands.
And this is... well, a huge problem.
To travel this far and to transport this much payload,
we need at least 24,000 super heavy rockets.
As of today, humanity has…
two
– and they’re not really finished yet.
Even if all the industries in the world do
nothing but switch to building rockets,
we would not finish in time.
If we actually discovered a planet killer today,
there is literally nothing we could do about it.
Except…
Maybe if we combine penetrators with a bit of Hollywood
and our old friend, the nuclear bomb, there is still a way.
For this plan to work we basically need
to have all the parts ready beforehand.
A rocket like NASA’s SLS – the one
planned to take astronauts to the Moon
– loaded up with everything
we need, ready to launch.
As soon as the planet killer is spotted on its way
to wipe us out we launch a single rocket to meet it.
For 5 long months it travels through the nothingness
of space as life on Earth nervously continues.
Finally it reaches its destination
a bit beyond the orbit of Mars.
Now we deploy 5 massive penetrators in sequence,
one perfectly lined up two kilometers after the other.
The engineering challenge of aligning and timing this
correctly is horrendous and we only have one attempt.
So a few very brave astronauts go on this one way
trip to supervise the process, with no way home.
Nervous hours pass as all of humanity
watches the skies and screens.
And then the moment comes.
The icy mountain of death appears
in full and then it’s already here!
Slow down time again!
The comet smashes into the
first penetrator at 140,000 km/h,
unleashing the power of 2,000 tons of TNT.
Ice, rock and tungsten liquify in an instant
as the energy of the impact eats itself
dozens of meters deep into the mountain.
Here is the second one, perfectly hitting the same spot
punching directly into the crater, smashing, melting, drilling.
The third and fourth penetrators repeat the process
again, now smashing a tunnel about 100 meters deep.
But this time this is just a scratch on the surface of
the monster, the comet is not really damaged yet.
And then comes the final
penetrator and its toxic load.
300 megatons in nuclear warheads – 20,000 times
more energy than the bomb that destroyed Hiroshima.
It travels deep into the tunnel and
just before it hits the end, it explodes.
This time the nuke works.
Instead of hitting nothing in the vacuum the energy
of the explosion smashes into rock and gravel and ice.
On top of vaporizing it from the inside,
there is so much shock and push and punch that
a frozen world billions of years old dies from within.
Turning into a cloud of millions
of fragments spreading in all directions.
Humanity is saved.
To make this happen in reality would take
unprecedented planning and precision.
And yet, it’s possible.
Not in a century with sci-fi technology.
Just with the rockets, engineering, and
knowledge we already have today.
Want to drill some Asteroids yourself?
Our first ever PC game, Star Birds,
is out now in Early Access!
Join a brave flock of intergalactic birds as
they venture into space to mine asteroids,
build production chains, and unlock new technologies
that will help them thrive across the galaxy.
Scan and claim nearby asteroids, build up your
production lines, and create a sprawling network
of floating space factories. Whether you're a seasoned
strategy player or completely new to the genre,
Star Birds welcomes you to explore,
build, and discover at your own pace.
We've been working on this
game for over two years
together with the amazing team at
Toukana Interactive, the creators of Dorfromantik.
And now, we’re incredibly excited
to finally share it with you.
So grab your space helmet and head
over to Steam to start your adventure.
You’ll find the link in the description.
From all of us at kurzgesagt and Toukana:
thank you for being part of this journey.
We can’t wait to hear what you think and to keep
building Star Birds together with your feedback.
See you in space!