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Transcript
00:00:00Millions of people around the world go out into the streets and onto the rooftops to observe this amazing cosmic phenomenon.
00:00:08Another planet, right next to the moon, big and red.
00:00:12At first, everyone is excited. Mars, which comes out of nowhere, has a strange effect on humanity.
00:00:19Just as the moon can affect the psychological and physical state of some people,
00:00:24the unexpected visit of Mars leads people to behave in a rather strange way.
00:00:29Every night, the sky is illuminated by the white light of the moon and the red glow of Mars.
00:00:35Many people feel a kind of instantaneous insomnia.
00:00:38Some even stop drinking coffee because they no longer feel tired.
00:00:43Mars brings out the energy, or even a little savagery in people.
00:00:47It makes them laugh more and even makes some poor people crazy.
00:00:51They start going out more often and enjoy this unusual night sky.
00:00:57A few days later, everyone can see what is happening.
00:01:00Mars is getting bigger.
00:01:02Scientists announce that the red planet is slowly heading towards Earth.
00:01:07The collision is inevitable.
00:01:09Earthlings only have a few more years to live.
00:01:12A few months ago, a huge asteroid crashed on the red planet with such force
00:01:17that Mars simply left its orbit and drifted away.
00:01:22The probability that Mars is getting closer to Earth has always been quite high.
00:01:26After about three seconds of announcement, the news went viral and panic set in.
00:01:32The situation is getting worse.
00:01:35The closer Mars gets, the more it affects people physically.
00:01:39Hundreds of videos appear showing collisions between Mars and Earth.
00:01:44And there is never a happy ending.
00:01:46You want to see what's going to happen? Ask a famous blogger to his subscribers.
00:01:50The Earth is almost entirely covered in water.
00:01:53And Mars is only dust, sand and rocks.
00:01:56Then she places a huge watermelon in the middle of her room.
00:02:00From the opposite corner, she throws a bowling ball towards the fruit.
00:02:03And it's a strike.
00:02:05Mars seems almost the same size as the Moon now.
00:02:09It is about to enter the orbit of the latter.
00:02:11And it affects the magnetic field of the Earth.
00:02:14Floods, hurricanes, tsunamis, powerful storms.
00:02:18It's getting worse and worse.
00:02:20The animals go crazy.
00:02:22The birds no longer migrate to the South.
00:02:25The auroras, formerly polar, appear in the Caribbean.
00:02:29The economy is not so well received by the news.
00:02:31People stop going to work.
00:02:33Why keep working?
00:02:35They just want to have fun and be with their loved ones.
00:02:38There are enough resources on the planet to hold out until the disaster.
00:02:42So no one tries to solve the problems of the Earth.
00:02:45Clothes, food, cars, yachts.
00:02:48Everything loses its value and becomes free.
00:02:52Every day, huge street parties appear all over the world.
00:02:56People decide to spend their last months in peace and harmony.
00:03:00The world catastrophe unites humanity like never before.
00:03:04To go off on a rampage,
00:03:06the earthlings come together to organize a huge rock concert.
00:03:10The red giant that destroys our beautiful blue planet.
00:03:13Yes, rock'n'roll and the band are perfect.
00:03:16There is just enough time to eat, dance, party and listen to good music.
00:03:21Huge stages are installed all over the planet.
00:03:24It is the last concert of each musician.
00:03:27During all this preparation, hope suddenly appears.
00:03:30Scientists have calculated all the events that will occur
00:03:33when Mars collapses on Earth.
00:03:36And they have a simple plan.
00:03:38Fortunately, humans had already planned to go to Mars,
00:03:41so they had started building spaceships for years.
00:03:44People will not have time to go to another planet before the collision.
00:03:48But they will be able to wait for the disaster just outside the Earth's orbit.
00:03:53You will be able to sit in a space station,
00:03:55nibble popcorn, relax and enjoy the show.
00:03:59When the dust settles, it may be possible to return to Earth.
00:04:03Or what is left of it.
00:04:05After learning about this plan,
00:04:08people start working day and night to finish the spaceships.
00:04:11Everyone participates.
00:04:13There are still two years before the big day.
00:04:16The huge concert stages are transformed into other space stations.
00:04:20Mars now gives people more energy.
00:04:22And thanks to an incredible teamwork,
00:04:24people manage to create thousands of stations in just a few months.
00:04:28This is what happens when 7 billion people work together.
00:04:32Farmers, kinesiotherapists, cooks, engineers, athletes, accountants.
00:04:37Everyone works together.
00:04:39Mars is now closer to us than the Moon.
00:04:42The red giant blocks the sun and our planet is plunged into darkness.
00:04:46There are only a few days left.
00:04:48People work like ants in a massive colony,
00:04:51putting the final touch on hundreds of thousands of space stations.
00:04:55It takes four whole days for everyone to get on board.
00:04:59Not to mention the loading of essential data.
00:05:02Animals, fish, seeds, plants, vegetables, fruits, video games.
00:05:08The red giant must enter Earth's orbit in a few days.
00:05:12It is at this moment that it will really pick up speed.
00:05:15Mars is only a little over half the size of Earth.
00:05:18But in the sky, it seems infinitely large.
00:05:22The spaceships begin to take off.
00:05:25People take a last look around them, memorizing every square centimeter.
00:05:29In a few hours, everything will change forever.
00:05:33The stations fly far enough to get out of orbit.
00:05:37People who collide should still get a bang.
00:05:41The rock stars of each ship organize a space music festival.
00:05:46To the impressive sound of hard rock, Mars enters Earth's atmosphere
00:05:50and burns a thin layer of its own surface.
00:05:53This releases an incredible amount of energy.
00:05:56It becomes faster and faster and crashes into the Pacific Ocean.
00:06:00The breath of a huge explosion swallows the entire planet.
00:06:04Everything is illuminated by flames,
00:06:07and everyone on the ships must wear sunglasses so as not to be blinded.
00:06:11Our blue planet is transforming into an incandescent ball.
00:06:15Mars dust mixes with Earth's water.
00:06:18The force of the impact travels through the Earth's crust to the liquid and hot magma.
00:06:23Hundreds of pieces of Mars, some of which are the size of entire countries,
00:06:27float in some way in the atmosphere.
00:06:30The collision generates so much energy that all the oceans boil and evaporate.
00:06:35Seas and melted-metal rivers now spread all over the Earth.
00:06:40Days, weeks, months pass.
00:06:43A belt made up of fragments of Mars forms around the Earth,
00:06:47like a burning version of Saturn's rings.
00:06:50It will take a long time to land safely,
00:06:53but humanity cannot stay alive on the ships during all this time.
00:06:57Food, water and oxygen will be depleted after a few years,
00:07:01but scientists already have a plan.
00:07:04The ships activate a switch and become huge cryogenic chambers.
00:07:08The ships are equipped with energy panels,
00:07:11and the burning Earth releases a lot of energy.
00:07:14This energy is used to operate the ships
00:07:17while everyone on board takes a few thousand year nap.
00:07:20As soon as the planet cools down, humans will wake up.
00:07:24Hundreds of thousands of years pass.
00:07:27One day, alarms go off simultaneously on all the ships.
00:07:31People wake up slowly.
00:07:33Their bodies are exhausted, but after a few billion cups of coffee,
00:07:37everyone is ready to go.
00:07:40New continents should be formed,
00:07:42and the atmosphere is probably different.
00:07:45The planet may have lost its original orbit,
00:07:48so it turns at a different angle.
00:07:50Seasons as we know them have disappeared.
00:07:53All the water on Earth evaporated in the first hours.
00:07:56But there were huge glaciers on Mars,
00:07:59which may have melted during the impact.
00:08:01Mars may have shared its water with our planet.
00:08:04Dust and dirt clouds should be receded now,
00:08:07and the soil should be fertile enough to grow things.
00:08:10All this magma has probably spat out a lot of minerals
00:08:13and useful chemical compounds.
00:08:15It will be difficult,
00:08:17but humanity must somehow adapt to the new Earth.
00:08:21People are ready for anything.
00:08:23All earthlings run to the nearest windows
00:08:25to see what their beloved planet looks like after all these centuries.
00:08:29But where is it?
00:08:31People turn their necks,
00:08:33look at the empty area where the Earth was.
00:08:37The impact of Mars was so strong
00:08:39that it pushed the Earth out of its orbit around the Sun,
00:08:42and it disappeared.
00:08:44Great, what are we going to do now?
00:08:47A bearded guy grabs a guitar and says,
00:08:50we just have to play.
00:08:53He looks at you and you look at him back.
00:08:56A giant eye that seems to attract you in the abyss.
00:08:59You fly it over your spaceship.
00:09:02But as scared as you can be,
00:09:04you still have to do your job.
00:09:06So you drive your ship to the surface of the red planet.
00:09:09And yes, that's where you are,
00:09:11flying over Mars.
00:09:12But everything in its time.
00:09:14You take a moment to remember everything you know
00:09:16about the fourth planet closest to the Sun.
00:09:19It is the last of the inner planets.
00:09:21These are the planets that are in the perimeter of the asteroid belt.
00:09:25They are also called telluric planets
00:09:27because they are made up of rocks and metals.
00:09:29The atmosphere of Mars is much thinner than that of Earth.
00:09:33It contains 95% carbon dioxide
00:09:36and barely 1% oxygen.
00:09:38In other words,
00:09:39do not even consider removing your helmet.
00:09:41Anyway, there is no time to waste.
00:09:43You land on the surface of the planet
00:09:45and you find yourself in the middle of a brunette red world.
00:09:48Fortunately, you are wearing a space suit.
00:09:50The place is glacial.
00:09:52The thermometer sewn into the sleeve of your suit
00:09:54indicates minus 62 degrees Celsius.
00:09:57It's time to take your first step on the Martian surface.
00:10:00The planet looks pretty colorful.
00:10:02And the shade of a specific area
00:10:04depends on the minerals that make up its soil.
00:10:06The ground under your feet is covered with a fine dust.
00:10:09It looks like rust.
00:10:11The same orange dust is suspended in the air.
00:10:14Fortunately, you have your own oxygen reserve
00:10:16and you do not need to breathe Martian air.
00:10:19This layer of dust that covers the surface of Mars
00:10:21can be 2 to 12 meters thick.
00:10:24You cross your fingers
00:10:25hoping not to be swallowed by the Martian moving sands.
00:10:28You start walking and you feel very light.
00:10:30Mars represents only 15% of the volume of our planet
00:10:33and barely 11% of the Earth's mass.
00:10:36This means that gravity is much weaker here.
00:10:39This attraction represents only 38% of what reigns on the surface of the Earth.
00:10:43You make small jumps
00:10:45and then you try to run for several hundred meters.
00:10:47You did not even sweat a drop.
00:10:50What makes walking exploration more difficult
00:10:53is that the surface of the planet is very rugged,
00:10:55covered with craters and volcanoes,
00:10:58old dry lake beds and canyons.
00:11:01You see something huge standing on the horizon.
00:11:04But you try to suppress your curiosity.
00:11:06You will have enough time to discover what it is later.
00:11:10Suddenly, a massive cloud appears in the distance.
00:11:13It looks like a huge herd is approaching you.
00:11:17In reality, you'd better get back on board your ship
00:11:20and fly as fast as you can.
00:11:22This is one of the famous Martian dust storms.
00:11:25They occur mainly during the summer in the southern hemisphere of the Red Planet.
00:11:29And they can sometimes cover the entire planet.
00:11:32You can even see the largest of them from Earth.
00:11:35You jump in your ship and you put the cap on the eye that had frightened you so much.
00:11:39Sinuous canyons, which look like veins, cross this ocular globe.
00:11:43But the closer you get, the less it really looks like an eye.
00:11:47Soon, you realize that it is a crater.
00:11:50It is gigantic, nearly 30 kilometers in diameter.
00:11:53Around the crater, which seems to have a pupil,
00:11:56there are other even larger craters.
00:11:58They probably formed billions of years ago.
00:12:01It was at this time that Mars had to wipe out the multiple assaults of rocks from space.
00:12:06But why is this ocular crater darker than the surrounding landscape?
00:12:10Scientists think that once, Martian water was in the huge pit.
00:12:14And do you remember these canals?
00:12:16They were probably carrying this water.
00:12:18As the crater was filled with water,
00:12:20it prevented certain substances and minerals from eroding.
00:12:24Now, do you remember this imposing thing on the horizon?
00:12:28It's time to explore it.
00:12:30When you get closer, you realize that this is the largest shielded volcano in the entire solar system.
00:12:36Olympus Mons.
00:12:37It is more than 595 kilometers in diameter,
00:12:41which is almost the same size as the state of Arizona.
00:12:44You tilt your head.
00:12:46Wow, the mountain is 25 kilometers high.
00:12:49It is also surrounded by cliffs 6 kilometers high.
00:12:52Let's make some comparisons to better visualize the size of this volcano.
00:12:56The largest volcano on Earth is the Mauna Loa,
00:12:59which rises to about 4,000 meters above sea level and extends over 120 kilometers.
00:13:05It seems impressive.
00:13:07But the volume of Olympus Mons is about 100 times larger than that of Mauna Loa.
00:13:12The Martian giant could swallow the entire chain of Hawaiian islands, from Kauai to Hawaii.
00:13:18But why is this volcano so large?
00:13:20This could be the result of lower gravity and a higher frequency of eruptions.
00:13:25Or the reason could be the crust of the red planet, which is very different from that of the Earth.
00:13:30It is static.
00:13:31On our planet, the crust is composed of 15 to 20 tectonic plates in constant motion.
00:13:36When the plates move on hot lava points,
00:13:40new volcanoes are formed and those that already existed are extinguished.
00:13:44This is why lava can reach the surface through numerous gutters.
00:13:48But on Mars, the crust is not sanded into plates similar to that of the Earth.
00:13:53And lava has nothing else to do than accumulate in a single very, very large volcano.
00:13:59So why not look at this huge mountain up close?
00:14:03But as soon as you get off your ship, the Martian soil under your feet starts shaking.
00:14:09It's a shaking of Mars.
00:14:11But how can this happen if Mars does not have active tectonic plates in motion?
00:14:16NASA specialists are convinced that these tremors occur when the energy inside the planet is suddenly released.
00:14:23This leads to rock fractures and cracks in the crust of the planet.
00:14:27Another powerful shake and one of these crevasses opens right next to you.
00:14:31You fall to the ground, too terrified to move.
00:14:34But soon everything calms down.
00:14:36You wait a few minutes, just to be sure, and you get up.
00:14:40Oh, look!
00:14:42This is a perfect opportunity to explore the entrails of the red planet.
00:14:46The crack is big enough to send a research robot there.
00:14:50The crust of the planet is thin and is made up of basaltic rocks.
00:14:54The mantle that surrounds the core of the planet is made up of silicate, oxygen and a few other minerals.
00:15:01You could compare it to a kind of toothpaste made of rock.
00:15:04The Martian mantle is also less imposing than that of the Earth.
00:15:08Its thickness is only 1,300 to 1,800 km.
00:15:11As for the core of the planet, it is mainly made up of iron, nickel and sulfur
00:15:16and measures between 1,400 and 1,900 km wide.
00:15:19This core does not move.
00:15:21This is why Mars does not have a magnetic field.
00:15:25Unfortunately, your drone is now lost in the depths of the red planet.
00:15:29You leave it there and continue your exploration.
00:15:32Your next destination is Valles Marineris.
00:15:35This name would almost evoke an Italian tomato sauce,
00:15:38but it is actually a huge canyon, or rather a system of canyons,
00:15:42that stretches along the equator of Mars.
00:15:44It is just as impressive as Olympus Mons,
00:15:46more than 4,200 km long and more than 6 km deep.
00:15:51It is so vast that it could extend over all of the United States,
00:15:55from the Pacific to the Atlantic Ocean.
00:15:58Let's make another comparison.
00:16:00One of the most famous canyons on Earth is the Grand Canyon in Arizona.
00:16:05But it is 10 times less long and about 4 times less deep than the Mars Canyon.
00:16:10Some scientists think that Valles Marineris is the edge of a huge tectonic plate.
00:16:15It moves so slowly that almost nothing has happened in this region for millions of years.
00:16:21And the movement of this plate probably began 3.5 billion years ago.
00:16:26In short, the only thing that remains on your list of things to do today
00:16:30is to visit the moons of Mars.
00:16:32You see, in the 1970s,
00:16:34scientists discovered a mysterious gravitational anomaly called the Grand Attractor.
00:16:39Wait, but that was my nickname in high school.
00:16:42In short, it is a place in the cosmos that attracts hundreds of galaxies,
00:16:46including our own Milky Way.
00:16:48You won't be able to see it because it is on the other side of our galaxy,
00:16:51about 150 million light years away.
00:16:54The Grand Attractor is actually in the direction
00:16:56that scientists usually call the avoidance zone.
00:17:00Ah, here, I have one too.
00:17:02It's my sock drawer.
00:17:04There is so much dust and gas in this region
00:17:06that we cannot distinguish what is happening there.
00:17:09This area blocks most of the visible light coming from beyond.
00:17:12But all this dust and gas does not block the X-rays
00:17:15or infrared light.
00:17:17So with the development of X-ray astronomy,
00:17:19researchers could finally start observing all the objects in this area,
00:17:23including this mysterious force that attracts everything.
00:17:26And until now, no one has yet understood why this was happening.
00:17:30Our Moon could be 200 million years younger than we thought before.
00:17:35Many scientists think that the Moon was formed
00:17:37during a powerful collision between our planet
00:17:39and an unknown body the size of Mars.
00:17:42Dust and fusion debris have gathered
00:17:45and formed a new object that we know as the Moon.
00:17:48The lunar crust has probably gone through a solidification process
00:17:51for more than 200 million years.
00:17:54Did you know that there was originally an ocean of magma on the Moon?
00:17:58Scientists noticed this reality
00:18:00after discovering large quantities of light minerals called plagioclases.
00:18:05This material crystallizes generally and floats on the surface of the magma.
00:18:09In any case, these minerals were 4.36 billion years old,
00:18:13which means that they formed 200 million years
00:18:15after the first solid materials of our solar system appeared.
00:18:19Thus, the theory that the Moon was formed during this cataclysmic chaos
00:18:23could be true.
00:18:25If you land on the Moon one day and leave your footprint on its surface,
00:18:28it can stay there for a million years.
00:18:31You will also see the footprints of other astronauts,
00:18:33even if no one has landed on its lunar surface for decades.
00:18:37The Moon has no atmosphere that is clean to it.
00:18:40There is no wind or anything else that can sweep away the dust
00:18:43and erase the footprints.
00:18:45We perceive it as a small dot somewhere in the distance.
00:18:48But in reality, the Sun is so big that if it were a hollow sphere,
00:18:52you could fill it with more than a million Earths.
00:18:56The Sun represents 99.86% of the mass of our entire solar system.
00:19:01Another huge object of our solar system is Jupiter.
00:19:05It is 11 times larger than our planet.
00:19:07For comparison, the Earth is not even the size of the Great Red Spot.
00:19:12This huge storm has been raging on Jupiter for more than a century.
00:19:15And no, it is not anchored to any solid,
00:19:17since Jupiter is a gas giant.
00:19:20It is similar to a colossal oval-shaped hurricane,
00:19:23reddish in color and quite large enough to swallow our entire planet.
00:19:28There was a time when it was three times larger than our planet.
00:19:31But over the centuries, it has shrunk while stretching.
00:19:36As for Jupiter itself, this gas giant is a kind of vacuum cleaner
00:19:40that keeps our solar system safe.
00:19:42Jupiter has an incredibly strong gravity
00:19:45that devours comets or asteroids
00:19:47that could potentially harm our home planet.
00:19:50In some other planetary systems,
00:19:52gas giants similar to Jupiter migrate from the position where they were formed.
00:19:56They spiral inward and get closer to their mother star.
00:20:00And during their journey, they swallow small telluric planets.
00:20:04Or their immense gravitational force projects these planets out of their solar system.
00:20:09Fortunately for us, Jupiter's gravitational force does not work that way.
00:20:14If planets similar to Jupiter stay away from their stars,
00:20:17they ensure the safety of their planetary system
00:20:19by protecting the small planets in their inner orbit.
00:20:22Jupiter, for example, can influence the orbits of small space bodies
00:20:26that are too close to the inner planets.
00:20:29This is why this gas giant is an excellent guardian of our solar system.
00:20:34There is a supermassive black hole
00:20:36that travels through space at a speed of 4,800,000 km per hour
00:20:40and leaves a trail of debris behind it.
00:20:43I had a little brother who did the same.
00:20:46It is about a million times heavier than our sun.
00:20:49And right now, it is 2 billion light years away from Earth.
00:20:52This black hole started like all the others in its own elliptical galaxy
00:20:56with many stars surrounding it.
00:20:58Supermassive black holes often form and remain in the center of galaxies.
00:21:02But this one escaped.
00:21:04A theory states that this black hole is different,
00:21:07because the galaxy where it formed may have met another galaxy at some point.
00:21:13Sometimes galaxies merge to form a new galaxy in full
00:21:16if this happens.
00:21:18But not this time.
00:21:19Instead of merging, the galaxy of this black hole
00:21:21crossed a much larger galaxy millions of years ago.
00:21:24This gigantic galaxy had already swallowed other galaxies on its way.
00:21:28And since it was so big,
00:21:30the galaxy that surrounded our supermassive black hole
00:21:33ended up being torn apart.
00:21:35The black hole in its center managed to escape,
00:21:38with some of the stars nearby.
00:21:40This left this burning trail extending beyond the surrounding space.
00:21:45Super solar storms are so powerful
00:21:47that they can cause power cuts all over the world.
00:21:50Random sun-driven eruptions cause these solar storms,
00:21:54and they can really happen at any time.
00:21:57In 2012, we were lucky,
00:21:59because the most powerful solar storm of the last 150 years
00:22:02passed very close to us.
00:22:04It simply managed to cross the Earth's orbit.
00:22:07If it had happened only a week earlier,
00:22:09our planet would have had to face terrible consequences,
00:22:12including power cuts all over the globe.
00:22:15Gamma-ray bursts are powerful enough to destroy planets.
00:22:19We are talking about extremely powerful bursts,
00:22:21which mainly occur in very, very distant galaxies.
00:22:25If these rays are directed directly at a space object,
00:22:28they can completely destroy it,
00:22:30even if we are talking about an entire planet.
00:22:32The Earth is safe for now,
00:22:34and we have nothing to fear.
00:22:36A gamma-ray burst occurs in our galaxy
00:22:38about once every 5 million years.
00:22:42Fortunately, it occurs too far away,
00:22:44and does not affect life on Earth.
00:22:46All this, in short, does not look at us,
00:22:48but it is still scary.
00:22:50Burning ice exists.
00:22:52It may be difficult to imagine it here on Earth,
00:22:54but a strange planet called Gliese 436 b
00:22:57literally consists of a burning ball of ice.
00:23:00It may be covered in ice,
00:23:02but it also has a temperature of 440 degrees Celsius.
00:23:06You can't really see it burn,
00:23:08because there is too much water on this planet.
00:23:11It is because of its strong gravitational attraction
00:23:13that attracts water molecules to the heart of the planet
00:23:16and compresses them incredibly densely.
00:23:19In this way, water molecules cannot evaporate,
00:23:22and that is why the ice on the surface of the planet never melts.
00:23:25There are stars that can crush other stars.
00:23:28These space objects are mostly smaller stars,
00:23:31with a weaker mass.
00:23:33They target the closest stars
00:23:35and begin to absorb their hydrogen combustible
00:23:37in order to increase their own mass,
00:23:39and generally live longer.
00:23:41A vampire star is colored with a bright blue.
00:23:43It also becomes warmer.
00:23:45Thus, it gives the impression of being much younger
00:23:47than it really is.
00:23:49If a star, or any other object,
00:23:51falls into a black hole,
00:23:53it is stretched like a spaghetti dish.
00:23:55This process is called the Woosh process.
00:23:57Dust storms on Mars can be really crazy.
00:24:00They fall on the southern hemisphere of the Red Planet,
00:24:02especially during the summer.
00:24:04These storms can grow and engulf vast areas of the planet,
00:24:07as it happened in January 2022.
00:24:10At that time, a dust storm
00:24:12covered almost twice the surface of the United States.
00:24:15Could it be what caused the disappearance
00:24:17of one of the robots we sent to Mars?
00:24:20The atmosphere and climate are harsh on Mars.
00:24:23It is mainly a desert,
00:24:25with strong winds and average temperatures
00:24:27of minus 63 degrees Celsius.
00:24:29They go down to minus 140 degrees Celsius
00:24:31at the poles during the winter.
00:24:33A Martian lander must be equipped in a specific way
00:24:35and be very robust to resist these conditions.
00:24:38But researchers thought that it would be able
00:24:40to make the difficult journey to the Red Planet.
00:24:43On June 2, 2003,
00:24:45a team of researchers prepared one of the pioneering robots
00:24:48that they were about to send into space.
00:24:50It was a small compact lander
00:24:52called Beagle 2.
00:24:54Its mission was to land on Mars
00:24:56and to search for what the whole world
00:24:58has been looking for for decades.
00:25:00Life on the Red Planet.
00:25:02The landing was scheduled for December 25,
00:25:05but the signal never arrived.
00:25:08The team tried to contact the spacecraft,
00:25:10but at some point they had to accept
00:25:12that they would not be able to join it.
00:25:14Some estimated that the landing
00:25:16was ultimately too difficult and complex,
00:25:18and that the lander had probably crashed.
00:25:21But they did not fail to test the technical errors.
00:25:23Others put forward a theory
00:25:24that the module could have crashed into its own parachute
00:25:26and landed on the surface of Mars.
00:25:29In any case, the Beagle 2 was carried away
00:25:32until 2015,
00:25:34when NASA took pictures of what could be
00:25:36the remains of the lost module.
00:25:38It was not just damaged debris.
00:25:41The components actually seemed intact.
00:25:43The remains of the probe rested with its solar panels,
00:25:46partially deployed about 5 km from the site
00:25:48where it was supposed to land.
00:25:51Apparently, Beagle 2 managed to land,
00:25:53but its radio antenna got stuck.
00:25:56This is why researchers were unable to control it
00:25:58from Earth or communicate with it.
00:26:00But no one knows exactly why it happened.
00:26:04Have you ever heard of a face on Mars?
00:26:07In the 1970s, one of NASA's orbiters
00:26:09took the famous images of the Martian surface,
00:26:11which showed a formation resembling a face,
00:26:14as you can see in the upper part of the image.
00:26:17If you have a little imagination,
00:26:19you can easily see a nose,
00:26:21two eyes, a mouth,
00:26:23and an original haircut.
00:26:25Some even thought it was a monument
00:26:27built on the Red Planet by another civilization.
00:26:30And what do you think of other unusual things
00:26:32that people found on Mars,
00:26:34like the crater of the Happy Face?
00:26:36We can easily understand why it was nicknamed that.
00:26:39Or different-shaped rocks,
00:26:41a crepe,
00:26:42a brachiosaurus,
00:26:43or even a fish.
00:26:44Mars also has an island in the shape of a gopher on its surface.
00:26:47It is an element 2 km wide
00:26:49that can be seen in a lava flow zone.
00:26:52This could be the result of the lava
00:26:54that pushed this formation below.
00:26:56It seems that astronomers have also received images of blue dunes.
00:27:00These are superb dark sea dunes
00:27:03that violent winds have carved in long lines.
00:27:05They surround the northern polar cap of the planet
00:27:08and cover a region as large as Texas.
00:27:10Yee-haw!
00:27:11The Red Planet is generally known for its brown sand dunes.
00:27:14So these have certainly been a real surprise.
00:27:17But in reality, they are not really blue.
00:27:20If you could go to Mars right now to take a look,
00:27:23you would see that it is as dark and orange as the others.
00:27:27And the photo is a false color image.
00:27:30Scientists often use false colors
00:27:32to highlight the differences between two elements.
00:27:34For example, here is the difference in depth.
00:27:37In addition, the largest valley on Mars
00:27:39is so large that it could swallow our Grand Canyon at breakfast.
00:27:44It is a fascinating canyon system of 4,000 km long
00:27:47called Valles Marineris.
00:27:50And it is ten times longer than the Grand Canyon.
00:27:54If we could stretch this Martian canyon,
00:27:57it would go from one coast to the other of the United States.
00:28:00As Mars does not have active plate tectonics,
00:28:03no one knows for sure how this canyon was formed.
00:28:07According to a theory, a chain of volcanoes,
00:28:09Tarsus Dome, located on the other side of Mars,
00:28:12including Olympus Mons,
00:28:14curved the Martian crust from the opposite side of the planet.
00:28:17This powerful force caused cracks in the crust
00:28:20and moved the huge amounts of water
00:28:22that were under the surface.
00:28:24This water then emerged and carved the rock.
00:28:28This force also animated the glaciers.
00:28:30And it seems possible that they created new paths
00:28:33in this gigantic canyon system.
00:28:35Volcanoes on the Martian surface
00:28:37could have erupted about 50,000 years ago.
00:28:40Although the most powerful eruptions
00:28:42occurred 3 to 4 billion years ago.
00:28:45But the planet does not have active volcanoes today.
00:28:48Most of the heat stored inside the planet
00:28:51during its formation has dispersed.
00:28:53So now, the external crust of Mars
00:28:55is far too thick for the molten rock to reach its surface.
00:28:59But a long time ago,
00:29:00eruptions formed gigantic volcanoes.
00:29:03And these volcanoes probably played an important role
00:29:06in the melting of the ice deposits
00:29:08that released water crusts on the Martian surface.
00:29:12Mars has a thin atmosphere,
00:29:14with a gas volume, mainly carbon dioxide,
00:29:17less than 1% of that of Earth.
00:29:19But 4 billion years ago,
00:29:21it was much warmer and humid than now.
00:29:24Its atmosphere was also thicker than at that time.
00:29:27This is why it was able to generate a powerful greenhouse effect
00:29:29and trap sunlight.
00:29:31Mars also had a powerful magnetic field.
00:29:34Like Earth's, it was formed
00:29:36because of the melting metal currents in the planet's core.
00:29:39But unlike our planet,
00:29:41Mars lost its magnetic field
00:29:43due to the cooling of its core.
00:29:45And without it,
00:29:46the planet had no protection against solar winds,
00:29:49which are a flow of charged particles coming from the sun.
00:29:53Solar wind tore most of Mars' atmosphere
00:29:56in just 200 million years,
00:29:58or something like that.
00:29:59This is what makes these powerful Martian dust storms
00:30:01even more intense.
00:30:03Mars has a fascinating history,
00:30:05judging by the planet's glaciers.
00:30:07A planet that has probably experienced
00:30:09multiple periods of glaciers,
00:30:11just like Earth.
00:30:12A team of researchers obtained images
00:30:14of about 60,000 Martian rocks.
00:30:16These rocks were of different sizes
00:30:18and scattered all over the place,
00:30:20which means they probably formed
00:30:22during different periods of glaciers.
00:30:24Glaciers also have their own history.
00:30:26Who knows what type of gas, rocks or even microbes
00:30:28could be trapped inside?
00:30:31If you could go up in a time machine
00:30:33and stop it 4 billion years ago,
00:30:35on Mars of course,
00:30:36chances are you'd witness
00:30:38spectacular floods.
00:30:40Maybe there would even be a form of life
00:30:42on the planet's surface.
00:30:44A strong impact of meteorites
00:30:46responsible for the formation of the Gale crater
00:30:48on the Red Planet
00:30:49could be the cause of this mega-flood.
00:30:51After this collision,
00:30:52the temperatures on the planet
00:30:54have become incredibly high.
00:30:56This caused the melting of all the ice
00:30:58that was stored on the Martian surface
00:31:00at that time.
00:31:01The flood was so huge
00:31:03that it altered the geological structure
00:31:05of the planet's surface.
00:31:06It created large ridges
00:31:08and waves in the sedimentary rock.
00:31:10Speaking of water,
00:31:12we noticed that steam was escaping
00:31:14from the atmosphere of Mars.
00:31:16In addition,
00:31:17researchers have found evidence
00:31:19of water on the planet's surface.
00:31:21The soil has dark streaks
00:31:23that seem to grow in summer
00:31:25and shrink in winter.
00:31:27The planet has many valleys
00:31:29and rivers that have dried up.
00:31:31It is possible that liquid water
00:31:33once flowed there.
00:31:34Now, most of this water
00:31:35could be locked up
00:31:36in ice caps
00:31:37or even hidden under the surface.
00:31:39More and more things
00:31:40make us think that Mars
00:31:41will one day be...
00:31:43In space,
00:31:44no one can hear you scream.
00:31:47As everyone knows,
00:31:48star explosions,
00:31:49asteroids crashing,
00:31:51and planets on fire
00:31:52don't make any noise in space.
00:31:54Really?
00:31:56And what if we could
00:31:57hear some noise up there?
00:31:59OK, back to school.
00:32:01Sound is a mechanical wave
00:32:03coming from a vibration.
00:32:05But what exactly does that mean?
00:32:07The most famous example
00:32:08is that of guitar strings.
00:32:10If you scratch one of them,
00:32:11it starts to vibrate.
00:32:12The atoms inside the metal string
00:32:14start to vibrate
00:32:15and hit the atoms in the air
00:32:17around them.
00:32:18The atoms push each other
00:32:20until some reach our ears.
00:32:22It's like the wave
00:32:23created by a stone
00:32:24thrown into a pond.
00:32:25And it happens very quickly,
00:32:27at a speed of around
00:32:28340 meters per second.
00:32:31Then, our eardrums
00:32:32start to vibrate
00:32:33at the same frequency.
00:32:35And the little water
00:32:36inside our ears
00:32:37transmit this vibration
00:32:38to the brain.
00:32:40The brain then uses its magic,
00:32:42recognizes the pattern
00:32:43and transforms it into sound.
00:32:46Great!
00:32:47Now we know
00:32:48that we need
00:32:49certain particles
00:32:50to create sound.
00:32:51And we can find these particles
00:32:52in gases,
00:32:53liquids,
00:32:54and solid substances.
00:32:56But what about space?
00:32:58It's an almost perfect void.
00:33:00And you've probably
00:33:01already heard that
00:33:02there is no sound in space
00:33:03because it's a void.
00:33:05But what does that
00:33:06really mean?
00:33:08A perfect void
00:33:09is an area
00:33:10totally devoid of matter.
00:33:12This means
00:33:13that there is nothing
00:33:14in this place.
00:33:15Yes,
00:33:16despite all these celestial bodies
00:33:17in space,
00:33:18there is no air between them,
00:33:20no atoms,
00:33:21no particles,
00:33:22nothing at all.
00:33:24In fact,
00:33:25almost nothing.
00:33:26To be exact,
00:33:27the perfect void
00:33:28doesn't really exist.
00:33:29We can't get rid
00:33:30of atoms permanently,
00:33:32but space is very close
00:33:33to this notion.
00:33:34On average,
00:33:35there are 1 to 5 atoms
00:33:36per cubic centimeter.
00:33:38This may seem like a lot,
00:33:40but you have to keep in mind
00:33:41that these atoms
00:33:42are microscopic
00:33:43and the distance between them
00:33:44and the void
00:33:45that separates them
00:33:46is huge.
00:33:47For comparison,
00:33:48a cubic centimeter of air
00:33:49contains about 1000 atoms.
00:33:51So, of course,
00:33:52with such a low density,
00:33:54these atoms can't push
00:33:55each other,
00:33:56even if the vibration
00:33:57is very strong,
00:33:58as in the case
00:33:59of a supernova, for example.
00:34:01They still won't be able
00:34:02to do it.
00:34:04But then,
00:34:05movies are lying to us.
00:34:06All these epic
00:34:07space scenes
00:34:08take place
00:34:09in an almost embarrassing
00:34:10silence.
00:34:12Not so fast.
00:34:13What if we told you
00:34:14that there are,
00:34:15in reality,
00:34:16certain ways
00:34:17to hear the sound
00:34:18in space?
00:34:19First of all,
00:34:20there is always noise
00:34:21on other planets.
00:34:22If there is an atmosphere
00:34:23on a space body,
00:34:24or at least something
00:34:25like gas,
00:34:26water
00:34:27or a solid surface,
00:34:28there will be noise.
00:34:30In our case,
00:34:31the atmosphere
00:34:32becomes completely silent
00:34:33at about 100 km
00:34:34above the surface
00:34:35of the Earth.
00:34:37This is where the sky
00:34:38stops being blue
00:34:39and a black starry veil
00:34:40begins.
00:34:43In any case,
00:34:44you would have to land
00:34:45on another planet
00:34:46or at least get close
00:34:47to its atmosphere
00:34:48to hear something.
00:34:49But whatever it is,
00:34:50the sound
00:34:51would be very different.
00:34:52Let's take the example
00:34:53of our sister planet,
00:34:54Venus.
00:34:55The atmosphere
00:34:56is very dense there.
00:34:57Scientists even
00:34:58qualify it
00:34:59as having a thick
00:35:00chemical soup.
00:35:02If you managed
00:35:03to stay alive
00:35:04and speak there,
00:35:05your voice
00:35:06would be very different.
00:35:08It would be much
00:35:09stronger
00:35:10and deeper.
00:35:12So,
00:35:13if you have always
00:35:14wanted to sing
00:35:15like Pavarotti,
00:35:16now you know
00:35:17what to do.
00:35:20And what would happen
00:35:21if the Earth
00:35:22had a denser atmosphere?
00:35:23What would we hear?
00:35:25Well,
00:35:26you can vaguely imagine
00:35:27if you have ever
00:35:28been in the water.
00:35:30The water is very dense.
00:35:31The sound moves
00:35:32much faster
00:35:33and better than in the air,
00:35:35at a speed
00:35:36of almost 2 km per second.
00:35:41If you sat
00:35:42in an empty room
00:35:43without a sound source,
00:35:44you wouldn't hear
00:35:45much, would you?
00:35:46Now,
00:35:47immerse your head
00:35:48in the water
00:35:49and observe how
00:35:50the same silence
00:35:51resonates here.
00:35:52It's not silent at all.
00:35:53Even if you ignore
00:35:54the omnipresent sounds
00:35:55of the water itself,
00:35:56you will immediately notice
00:35:57how much you can hear
00:35:58your own body,
00:35:59how your blood
00:36:00pulses in your veins,
00:36:01how your heart beats,
00:36:02the slightest movement
00:36:03of your fingers.
00:36:04Pretty scary,
00:36:05isn't it?
00:36:07This gives us an idea
00:36:08of what would happen
00:36:09to us on a planet
00:36:10whose atmosphere
00:36:11is denser.
00:36:12And it's just crazy.
00:36:14We would hear everything.
00:36:16Animals running
00:36:17or the movement
00:36:18of tectonic plates.
00:36:22So it's obvious
00:36:23that there is sound
00:36:24on other planets.
00:36:26But what about space?
00:36:28There is also sound,
00:36:29for example,
00:36:30in a cloud of dust.
00:36:32You can find
00:36:33space dust
00:36:34almost everywhere in space.
00:36:35It can be
00:36:36the remains of a star
00:36:37or something else.
00:36:39And in these places,
00:36:40everything is a little
00:36:41denser than normal.
00:36:43This means
00:36:44that there are probably
00:36:45dust clouds
00:36:46where particles
00:36:47are very close
00:36:48to each other,
00:36:49which means
00:36:50that they can produce sounds.
00:36:51Of course,
00:36:52these will be very weak
00:36:53and transmitted
00:36:54over a very short distance.
00:36:55But it's still
00:36:56better than nothing,
00:36:57isn't it?
00:36:59It turns out
00:37:00that we have already
00:37:01recorded a spatial sound.
00:37:02It comes from
00:37:03Perseus' galactic lama
00:37:05which is 250 million
00:37:06light years away from us.
00:37:09NASA recorded it
00:37:10in 2003.
00:37:13It looks like
00:37:14a note in B flat.
00:37:17But its frequency
00:37:18is so low
00:37:19that the human ear
00:37:20unfortunately
00:37:21cannot perceive it.
00:37:23But apart from that,
00:37:24we can only hear
00:37:25something inside
00:37:26the spaceships.
00:37:27After all,
00:37:28they are small air pockets.
00:37:31In a space suit,
00:37:32you would also hear
00:37:33the sounds very well,
00:37:34including your breathing
00:37:35or the circulation
00:37:36of your breast.
00:37:38But two astronauts
00:37:39floating side by side
00:37:40would not hear each other,
00:37:42even if they were
00:37:43getting closer
00:37:44and shouting very loudly.
00:37:45It's actually quite funny.
00:37:47If you hit your head
00:37:48against something,
00:37:49the noise would be
00:37:50very loud for you,
00:37:51but your astronaut colleague
00:37:52would not hear anything.
00:37:54That's why astronauts
00:37:55use radio devices.
00:37:59Now,
00:38:00in a purely theoretical way,
00:38:01if you could,
00:38:02one way or another,
00:38:03get out of your
00:38:04space suit
00:38:05and survive,
00:38:06you would be able
00:38:07to hear the chatter
00:38:08and the sounds
00:38:09that are happening
00:38:10inside the spaceship.
00:38:11But how?
00:38:12Simply because
00:38:13there is air
00:38:14inside the ship
00:38:15that transmits the sound.
00:38:16The sound reaches
00:38:17the metal envelope
00:38:18and crosses it.
00:38:19If you pressed against
00:38:20the ship,
00:38:21by touching it
00:38:22preferably with your elbow
00:38:23or your knee,
00:38:24the sound would be
00:38:25transmitted to the brain
00:38:26directly by your bones,
00:38:27ignoring the ears.
00:38:30Yes,
00:38:31our bones drive the sound.
00:38:32That's how,
00:38:33for example,
00:38:34deaf people
00:38:35listen to music.
00:38:36That's what we call
00:38:37bone conduction,
00:38:38which is used
00:38:39in some helmets
00:38:40and other technologies.
00:38:42You can do
00:38:43this experiment.
00:38:44Cover your ears
00:38:45with your fingers.
00:38:46Close them tight
00:38:47so that you can
00:38:48hardly hear anything.
00:38:49Then try to touch
00:38:50a sound source.
00:38:51It can be
00:38:52anything that vibrates,
00:38:53for example,
00:38:54a speaker
00:38:55playing music,
00:38:56with a part of your body
00:38:57where the bone
00:38:58is close to the skin.
00:38:59Now observe,
00:39:00or rather listen
00:39:01for the miracle to happen.
00:39:02You can hear the sound
00:39:03not through your ears
00:39:04but directly
00:39:05in your brain.
00:39:06However,
00:39:07don't repeat
00:39:08this experience
00:39:09in space.
00:39:11Now,
00:39:12you have probably
00:39:13heard of things
00:39:14like the sounds of space
00:39:15where you can listen,
00:39:16for example,
00:39:17to the sounds emitted
00:39:18by the sun
00:39:19or different planets.
00:39:20How do we
00:39:21record them?
00:39:22It's quite easy.
00:39:23We use another way
00:39:24to hear the sound
00:39:25in space,
00:39:26electromagnetic waves.
00:39:27In other words,
00:39:28a radio.
00:39:29The radio
00:39:30is based on the same
00:39:31form of electromagnetic
00:39:32radiation
00:39:33as light.
00:39:34These waves
00:39:35can travel in space
00:39:36without any problem.
00:39:37Astronaut emitters
00:39:38work this way.
00:39:39If you have ever seen
00:39:40pictures taken
00:39:41from a spaceship
00:39:42or from the International
00:39:43Space Station
00:39:44showing celestial bodies
00:39:45illuminated by the sun,
00:39:46like the Earth
00:39:47or the Moon,
00:39:48you may have noticed
00:39:49something wrong.
00:39:50Space seems
00:39:51too empty.
00:39:52A magnificent background
00:39:53filled with stars
00:39:54is missing.
00:39:55It seems
00:39:56that it would be
00:39:57very boring
00:39:58to go and observe
00:39:59the stars
00:40:00directly from space
00:40:01since the sky
00:40:02is always so dark.
00:40:03During the day,
00:40:04the sky above our heads
00:40:05is blue
00:40:06because of the diffusion
00:40:07of light
00:40:08in the atmosphere.
00:40:09This happens
00:40:10when the sun's light
00:40:11passes through the atmosphere.
00:40:12But if you are on the Moon
00:40:13or elsewhere in space,
00:40:14there is no atmosphere
00:40:15to diffuse this light.
00:40:16This is why
00:40:17the sun always seems
00:40:18to be black.
00:40:19But this does not mean
00:40:20that there is less light.
00:40:21If you look
00:40:22through a window
00:40:23of the space station,
00:40:24you will see
00:40:25as much direct sunlight
00:40:26as if you were looking
00:40:27through the window
00:40:28of your apartment
00:40:29during a day
00:40:30without clouds.
00:40:31Maybe even more.
00:40:32When you take a picture
00:40:33of a sunny day,
00:40:34you are probably
00:40:35using a color
00:40:36that is not
00:40:37as bright as the sun.
00:40:38You are probably
00:40:39using a short exposure
00:40:40and the narrow aperture
00:40:41of your camera.
00:40:42In this way,
00:40:43only a short burst
00:40:44of light
00:40:45enters the lens.
00:40:46The same principle
00:40:47applies when our pupils
00:40:48contract to the sunlight
00:40:49so as not to have
00:40:50to manage
00:40:51too much light.
00:40:52And since it is
00:40:53just as bright
00:40:54up there in space,
00:40:55the process is the same
00:40:56when you take pictures
00:40:57of objects
00:40:58illuminated by the sun.
00:40:59By using a short exposure,
00:41:00you can get
00:41:01good pictures
00:41:02of the Earth
00:41:03or the surface
00:41:04of the Moon.
00:41:05But this also means
00:41:06that there will be
00:41:07no stars in the picture.
00:41:08Even up there,
00:41:09the stars are
00:41:10relatively dull.
00:41:11They do not emit
00:41:12enough light
00:41:13to appear
00:41:14in the pictures
00:41:15taken with such settings.
00:41:16Our planet
00:41:17has a blue sky
00:41:18that slowly turns
00:41:19into a magnificent
00:41:20orange-red palette
00:41:21at dusk
00:41:22and the other way around
00:41:23at dawn.
00:41:24But if one day
00:41:25you have the opportunity
00:41:26to observe a sunset
00:41:27on Mars,
00:41:28you have to expect
00:41:29the opposite,
00:41:30a brown-orange diurnal sky
00:41:31that takes a bluish hue
00:41:32at sunset.
00:41:33First of all,
00:41:34Mars is further away
00:41:35from the sun
00:41:36than our planet.
00:41:37So when you look
00:41:38at the sun
00:41:39from the Martian surface,
00:41:40it looks duller
00:41:41and smaller.
00:41:42And that's not all.
00:41:43The sun observed
00:41:44from Mars
00:41:45is only a bluish white dot
00:41:46surrounded by a blue halo.
00:41:48The fine atmosphere
00:41:49of the red planet
00:41:50contains large particles
00:41:51of dust
00:41:52that create an effect
00:41:53called
00:41:54Mie diffusion.
00:41:55This occurs
00:41:56when the diameter
00:41:57of the particles
00:41:58in the atmosphere
00:41:59is almost the same
00:42:00as the wavelength
00:42:01of the diffused light.
00:42:02This effect filters
00:42:03the red light
00:42:04of the sun's halo.
00:42:05Thus,
00:42:06only the blue light
00:42:07would reach your eyes
00:42:08on Mars.
00:42:09How is it
00:42:10that the Earth
00:42:11has no rings?
00:42:12All the gas giants
00:42:13of our solar system
00:42:14Jupiter,
00:42:15Saturn,
00:42:16Uranus
00:42:17and Neptune
00:42:18have such rings,
00:42:19while the telluric planets
00:42:20Mercury,
00:42:21Venus,
00:42:22Earth
00:42:23and Mars
00:42:24do not.
00:42:25There are two theories
00:42:26about the way
00:42:27rings can appear
00:42:28around a planet.
00:42:29They could only be
00:42:30remnants of materials
00:42:31from the time
00:42:32when the planet was formed.
00:42:33Or they could be
00:42:34the remnants of a moon
00:42:35that was destroyed
00:42:36by a collision
00:42:37with a space body
00:42:38or ripped apart
00:42:39by the strong gravitational
00:42:40attraction
00:42:41of its mother planet.
00:42:42The gas giants
00:42:43were formed
00:42:44in the outer regions
00:42:45of our solar system,
00:42:46while all the telluric planets
00:42:47are located
00:42:48in the inner part.
00:42:49So,
00:42:50maybe the inner planets
00:42:51were better protected
00:42:52from potential collisions
00:42:53that could have
00:42:54formed their rings.
00:42:55There are also
00:42:56more moons
00:42:57in the outer regions
00:42:58of our solar system,
00:42:59which could be
00:43:00another reason
00:43:01why the rings
00:43:02of the planets
00:43:03that are there
00:43:04are stronger.
00:43:05In addition,
00:43:06the bigger planets
00:43:07have a stronger gravity.
00:43:08This means
00:43:09that they can
00:43:10keep their rings
00:43:11stable
00:43:12after their formation.
00:43:13Some experts
00:43:14think that the Earth
00:43:15had a ring system
00:43:16a long time ago.
00:43:17An object the size of Mars
00:43:18could collide
00:43:19with our mother planet,
00:43:20which probably
00:43:21created a dense ring
00:43:22of debris around it.
00:43:23Some scientists
00:43:24think that these debris
00:43:25did not form a ring,
00:43:26but what we know
00:43:27today as the Moon.
00:43:28A giant planet
00:43:29is probably
00:43:30hidden
00:43:31on the edge
00:43:32of the solar system,
00:43:33far beyond Neptune.
00:43:34Scientists have named
00:43:35this mysterious
00:43:36hypothetical world
00:43:37the New Planet.
00:43:38If it really exists,
00:43:39it is probably
00:43:40similar to Uranus
00:43:41or Neptune
00:43:42and ten times
00:43:43more massive
00:43:44than our planet.
00:43:45It is probably
00:43:46orbiting the Sun,
00:43:47but in the confines
00:43:48of the solar system,
00:43:49about 20 times
00:43:50farther than Neptune.
00:43:51Another interesting
00:43:52theory stipulates
00:43:53that the New Planet
00:43:54could actually be
00:43:55a black hole
00:43:56the size of a pamplum,
00:43:57which would
00:43:58probably be
00:43:59as large as
00:44:00a large planet.
00:44:01While we used to think
00:44:02that water
00:44:03was a rare substance
00:44:04in space,
00:44:05it actually exists
00:44:06everywhere
00:44:07in our solar system.
00:44:08For example,
00:44:09it can be found
00:44:10in asteroids
00:44:11and comets,
00:44:12as well as
00:44:13in the craters
00:44:14of the Moon
00:44:15and Mercury.
00:44:16We still do not know
00:44:17if there is enough water
00:44:18to allow us
00:44:19to live in
00:44:20any human colony
00:44:21if we decide
00:44:22to settle there.
00:44:23But a certain amount
00:44:24of water
00:44:25is certainly
00:44:26present there.
00:44:27Mars,
00:44:28on the other hand,
00:44:29also houses water
00:44:30at its poles.
00:44:31It is mainly
00:44:32hidden in the layers
00:44:33of ice
00:44:34and probably
00:44:35under the dusty
00:44:36surface of the planet.
00:44:37Europe,
00:44:38the moon of Jupiter,
00:44:39also has water.
00:44:40It is the most
00:44:41likely candidate
00:44:42we knew
00:44:43to welcome life
00:44:44outside the Earth.
00:44:45There is probably
00:44:46a whole ocean
00:44:47of liquid water
00:44:48under its frozen surface,
00:44:49and it could also
00:44:50contain twice
00:44:51as much water
00:44:52as all the oceans
00:44:53of the Earth combined.
00:44:54Neptune is
00:44:55surprisingly warm,
00:44:56even if it is
00:44:57much further away
00:44:58from the Sun
00:44:59than our planet
00:45:00and receives less
00:45:01solar light
00:45:02and heat.
00:45:03But it emits
00:45:04much more heat
00:45:05than it receives.
00:45:06Its atmosphere
00:45:07is also much more
00:45:08active than we thought,
00:45:09especially if we compare
00:45:10it to its neighbor,
00:45:11Uranus.
00:45:12These two planets
00:45:13emit the same
00:45:14amount of heat,
00:45:15even if Uranus
00:45:16is much closer
00:45:17to the Sun.
00:45:18But no one
00:45:19knows why.
00:45:20Neptune also
00:45:21has extremely strong
00:45:22winds
00:45:23that can reach
00:45:24a speed
00:45:25of 2,400 kmh.
00:45:26Could it be
00:45:27responsible for this heat?
00:45:28Or maybe
00:45:29it's because of
00:45:30the core of the planet
00:45:31or its gravitational force?
00:45:33A monstrous black hole
00:45:34rushes into space
00:45:35at a speed
00:45:36of 8 million kmh.
00:45:37Scientists have
00:45:38located it
00:45:39thanks to
00:45:40the Hubble Space Telescope.
00:45:41They think it weighs
00:45:42as much as
00:45:43a billion suns.
00:45:44It was supposed
00:45:45to stay in its place
00:45:46in the center
00:45:47of its original galaxy,
00:45:48but gravitational forces
00:45:49push it
00:45:50in all directions.
00:45:51At some point,
00:45:52this black hole
00:45:53will free itself
00:45:54from its galaxy
00:45:55and continue
00:45:56to hover in the universe.
00:45:57Fortunately,
00:45:58it is still
00:45:598 billion light years
00:46:00away from us.
00:46:01Solar storms
00:46:02are so powerful
00:46:03that they could
00:46:04plunge us
00:46:05into complete darkness.
00:46:06In July 2012,
00:46:07the most powerful
00:46:08solar storm
00:46:09in the last
00:46:10150 years
00:46:11barely missed Earth.
00:46:13The coronal mass ejections,
00:46:15or CME,
00:46:16are large ionized
00:46:17gas bubbles.
00:46:19They crossed
00:46:20our orbit
00:46:21at the time.
00:46:22If they had
00:46:23our planet
00:46:24as a direct target,
00:46:25we would have faced
00:46:26solar matter
00:46:27rushing towards Earth,
00:46:29damaging computers
00:46:30and causing
00:46:31power outages
00:46:32that would have
00:46:33lasted months.
00:46:34A surprise solar storm
00:46:35struck us
00:46:36on June 25, 2022.
00:46:38A photographer
00:46:39even managed
00:46:40to capture
00:46:41superb luminous auroras
00:46:42that crossed
00:46:43the dawn sky
00:46:44in Calgary, Canada
00:46:45and lasted
00:46:465 minutes.
00:46:47They were caused
00:46:48by the storm.
00:46:50Vampire stars
00:46:51really exist.
00:46:52They are part
00:46:53of a binary star system
00:46:54and they can
00:46:55literally
00:46:57The Sun is
00:46:58a medium-sized star
00:46:59and yet
00:47:00it could contain
00:47:011,300,000 Earths.
00:47:04The star is also
00:47:05333,000 times
00:47:06heavier than
00:47:07our planet.
00:47:09NASA
00:47:10translated radio waves
00:47:11created by the atmosphere
00:47:12of the planets
00:47:13into audible sounds.
00:47:14This is how
00:47:15astronomers discovered
00:47:16that the sound
00:47:17produced by Neptune
00:47:18looks like the waves
00:47:19of the ocean,
00:47:20that Jupiter
00:47:21seems to be underwater,
00:47:22and that Saturn's voice
00:47:23sounds like the music
00:47:24of horror movies.
00:47:26The Earth,
00:47:27sounds a bit like
00:47:28bebop jazz.
00:47:29OK,
00:47:30I made that up.
00:47:32The surface of the Sun
00:47:33is burning,
00:47:34but a flash
00:47:35is 5 times hotter.
00:47:38The Earth
00:47:39is hit by 100 flashes
00:47:40every second,
00:47:42which represents
00:47:438 million lightning
00:47:44strikes per day
00:47:45and about
00:47:463 billion per year.
00:47:47Unbelievable!
00:47:49If you ever get
00:47:50to go to the Moon
00:47:51and see
00:47:52recent footprints,
00:47:53that doesn't mean
00:47:54there's someone
00:47:55else with you.
00:47:56Footprints
00:47:57or other marks
00:47:58of the same type
00:47:59can last
00:48:00a million years
00:48:01there,
00:48:02because the Moon
00:48:03doesn't have an atmosphere.
00:48:04There's no wind,
00:48:05not even a small breeze
00:48:06that could
00:48:07slowly erase
00:48:08these footprints.
00:48:10Astronomers
00:48:11found the biggest hole
00:48:12we've ever seen
00:48:13in the Universe.
00:48:14It's called
00:48:15the Giant Void,
00:48:16and it extends
00:48:17over a surface
00:48:18of a billion light years.
00:48:19It was by accident
00:48:20that it was discovered.
00:48:21One of the members
00:48:22of the research team
00:48:23got a little bored
00:48:24and wanted to check
00:48:25how things were going
00:48:26in the direction
00:48:27of the cold point.
00:48:28It's an anomaly
00:48:29in the cosmological
00:48:30diffuse background map,
00:48:31or FDC in abbreviated.
00:48:33It's a faint glow
00:48:34that reaches our planet
00:48:35from different directions
00:48:36and fills the Universe.
00:48:38It's been crossing space
00:48:39for nearly
00:48:4014 billion years
00:48:41and constitutes
00:48:42what's left
00:48:43of the light production
00:48:44that followed the Big Bang.
00:48:47So,
00:48:48you fall in the middle
00:48:49of a black hole
00:48:50and you prepare
00:48:51for a sad ending.
00:48:53Don't panic.
00:48:55Falling in a black hole
00:48:56won't necessarily
00:48:57destroy you,
00:48:58you or your spaceship.
00:48:59You'd have to choose
00:49:00a large black hole
00:49:01to survive.
00:49:02If you fall
00:49:03in a small black hole,
00:49:04what's called
00:49:05the event horizon
00:49:06is very narrow.
00:49:07Gravity,
00:49:08on the other hand,
00:49:09increases a little more
00:49:10every centimeter.
00:49:11So,
00:49:12if you put your arm
00:49:13forward,
00:49:14there will be
00:49:15a big difference
00:49:16in gravity
00:49:17between your fingers
00:49:18and the fact
00:49:19of extending your hand
00:49:20causing a rather
00:49:21unpleasant feeling.
00:49:22Very unpleasant
00:49:23to be honest.
00:49:24Things wouldn't be
00:49:25quite the same
00:49:26if you fell
00:49:27in a supermassive black hole
00:49:28like the ones
00:49:29in the center of galaxies.
00:49:30These objects
00:49:31can be millions
00:49:32of times heavier
00:49:33than the Sun.
00:49:34Their event horizon
00:49:35is vast
00:49:36and gravity
00:49:37doesn't change
00:49:38as quickly.
00:49:39So,
00:49:40the force you'd feel
00:49:41on your heels
00:49:42and at the top of your head
00:49:43would be about the same
00:49:44and you could go
00:49:45to the heart of the black hole.
00:49:46Finally,
00:49:47if you watch
00:49:48a very touching movie
00:49:49in space
00:49:50and you start crying,
00:49:51your tears won't flow.
00:49:53They will accumulate
00:49:54around your eyeballs.
00:49:56Your eyes will become
00:49:57too dry
00:49:58and you'll feel
00:49:59like they're burning.
00:50:00All the liquid
00:50:01exposed to your body
00:50:02will evaporate,
00:50:03including
00:50:04at the surface
00:50:05of your tongue.
00:50:06Speaking of burning,
00:50:07it's something
00:50:08that fire can't do
00:50:09in space.
00:50:10Indeed,
00:50:11fire can spread
00:50:12when there's
00:50:13a flow of oxygen.
00:50:14And since there isn't
00:50:15any in space,
00:50:17once they've exploded,
00:50:18the stars
00:50:19aren't supposed
00:50:20to come back to life.
00:50:21But some stars
00:50:22have somehow survived
00:50:23a big supernova explosion.
00:50:26These zombie stars
00:50:27are rather rare.
00:50:28Scientists have found
00:50:29a very large one
00:50:30called
00:50:31LP40365.
00:50:33It's a partially burned
00:50:34white dwarf.
00:50:36A white dwarf
00:50:37is a star
00:50:38that has burned
00:50:39all its hydrogen.
00:50:40And this hydrogen
00:50:41used to be
00:50:42its nuclear fuel.
00:50:44In this case,
00:50:45the final explosion
00:50:46was perhaps weaker
00:50:47than it usually is.
00:50:49Not powerful enough
00:50:50to destroy the star
00:50:51as a whole.
00:50:52It's as if a star
00:50:53wanted to explode
00:50:54but couldn't,
00:50:55which explains
00:50:56that part of the matter
00:50:57survived.
00:50:59If you ever go into space,
00:51:00don't take off
00:51:01your suit,
00:51:02except if you're
00:51:03in a spaceship.
00:51:04In space,
00:51:05the air in your lungs
00:51:06will spread,
00:51:07as will the oxygen
00:51:08in the rest of your body.
00:51:09You'll be like a balloon,
00:51:11twice as big
00:51:12as your normal size.
00:51:13Good news,
00:51:14your skin
00:51:15is elastic enough
00:51:16to contain you,
00:51:17which means
00:51:18you won't explode.
00:51:19A little consolation.
00:51:21When an object
00:51:22enters a black hole,
00:51:23it changes shape
00:51:24and stretches
00:51:25like spaghetti.
00:51:27This happens
00:51:28because the gravitational force
00:51:29attracts an object
00:51:30in one direction
00:51:32while compressing it
00:51:33in another.
00:51:34A kind of
00:51:35paradox of pasta.
00:51:37Besides,
00:51:38a black hole
00:51:39as big as an atom
00:51:40has the mass
00:51:41of a very large mountain.
00:51:44There are some
00:51:45in the centre of the Milky Way
00:51:46called Sagittarius A.
00:51:48It has a mass
00:51:49equivalent to
00:51:50one billion suns,
00:51:51but fortunately,
00:51:52it's very far from us.
00:51:55If you made
00:51:56a big boom
00:51:57on an asteroid,
00:51:58you wouldn't be able
00:51:59to hear its sound.
00:52:01Yes,
00:52:02we often hear
00:52:03the sound of spaceships
00:52:04and space battles
00:52:05in movies,
00:52:06but it's just a myth.
00:52:08Sound is a wave
00:52:09that spreads
00:52:10due to the vibrations
00:52:11of molecules.
00:52:12A person
00:52:13hits hands
00:52:14a few meters away from you.
00:52:15The sound wave
00:52:16begins to push
00:52:17the first air molecule
00:52:18next to the explosion,
00:52:19then the second,
00:52:20the third,
00:52:21and so on
00:52:22until the wave
00:52:23reaches your ear.
00:52:24To spread the sound,
00:52:25we need molecules
00:52:26like air or water.
00:52:28In the atmosphere,
00:52:29sound waves
00:52:30spread very well,
00:52:31but space is empty.
00:52:33So,
00:52:34there's nothing to hear.
00:52:35You can hit
00:52:36loudly in your hands,
00:52:37but there won't be
00:52:38any molecule
00:52:39able to vibrate
00:52:40and transport this sound.
00:52:41So,
00:52:42to have a conversation,
00:52:43you need either a radio
00:52:45or a very good
00:52:46reading of the lips.
00:52:48Meteoroids
00:52:49are orbiting
00:52:50around the Sun,
00:52:51while most
00:52:52of the debris
00:52:53of human origin
00:52:54are orbiting
00:52:55around our planet.
00:52:56For example,
00:52:57we've launched
00:52:58nearly 9,000
00:52:59spacecraft in the world,
00:53:00from satellites
00:53:01to rockets.
00:53:02Even the smallest pieces
00:53:03can damage
00:53:04a spacecraft
00:53:05at such high speeds.
00:53:07Galaxies,
00:53:08planets,
00:53:09comets,
00:53:10stars,
00:53:11spacecrafts
00:53:12are things
00:53:13we can actually see
00:53:14in space,
00:53:15but they represent
00:53:16less than 5%
00:53:17of the total Universe.
00:53:19Black matter,
00:53:20one of the greatest
00:53:21mysteries of space,
00:53:22is the name we use
00:53:23to designate
00:53:24the entire mass
00:53:25of the Universe
00:53:26that is still invisible.
00:53:27And there's a lot of it.
00:53:28It could even
00:53:29make up 25%
00:53:30of the Universe.
00:53:31Dark energy
00:53:32makes up
00:53:33the remaining 70%
00:53:34of the Universe.
00:53:35Hmm,
00:53:36that's 100%,
00:53:37isn't it?
00:53:38Now,
00:53:39let's look at the Moon.
00:53:40It's always
00:53:41looking at us
00:53:42from one side.
00:53:43This means
00:53:44that the Moon
00:53:45has a dark side
00:53:46and that the sun's rays
00:53:47never reach it.
00:53:48It's a myth.
00:53:49The fact is
00:53:50that the Moon
00:53:51is connected to the Earth
00:53:52by gravity.
00:53:53There are days
00:53:54and nights
00:53:55there too.
00:53:56It's just that
00:53:57its rotation
00:53:58is perfectly aligned
00:53:59with that of the Earth.
00:54:00So,
00:54:01when you look at the Moon,
00:54:02you only see one side.
00:54:04Although there are
00:54:05also days
00:54:06when the sun shines,
00:54:07it's not
00:54:08the hidden side.
00:54:09It's the distant side.
00:54:10And we even have
00:54:11pictures of this place.
00:54:12And there is
00:54:13one of the biggest craters
00:54:14in the entire solar system,
00:54:15the pool of the pole
00:54:16south of Aitken.
00:54:17It's as wide
00:54:18as two states
00:54:19in Texas.
00:54:20Yee-haw!
00:54:21A myth
00:54:22that also turned out
00:54:23to be false
00:54:24insinuated that
00:54:25no one
00:54:26would ever
00:54:27go to the Moon.
00:54:28This is the original
00:54:29space suit
00:54:30of the first astronauts
00:54:31who went there.
00:54:32Look at the sole
00:54:33of the shoe.
00:54:34Some people claim
00:54:35that it's impossible
00:54:36to go to the Moon
00:54:37without shoes.
00:54:38In fact,
00:54:39it's possible.
00:54:40On the Moon,
00:54:41astronauts wore
00:54:42extra boots
00:54:43over their suits.
00:54:44And their soles
00:54:45matched perfectly
00:54:46to the footprints
00:54:47on the Moon.
00:54:48Astronauts
00:54:49didn't need them
00:54:50when they left the Moon
00:54:51and threw them away
00:54:52when the lunar walk
00:54:53was over.
00:54:54They also left
00:54:55a lot of things there.
00:54:56They even threw
00:54:57the seats of the lunar module
00:54:58to reduce their weight.
00:54:59By counting
00:55:00all the lunar missions
00:55:01to Apollo,
00:55:02the total weight
00:55:03of the waste on the Moon
00:55:04rises to
00:55:05a total of
00:55:06187 tonnes,
00:55:07including
00:55:08several lunar rovers,
00:55:09debris from space ships,
00:55:10six lunar modules
00:55:11and all the experiments
00:55:12left behind.
00:55:13It's like
00:55:14three Boeing 737s.
00:55:15Another myth
00:55:16about the Sun
00:55:17is that it's yellow.
00:55:18We'll send you
00:55:19into space
00:55:20for this one.
00:55:21You look
00:55:22through the window
00:55:23and it's white.
00:55:24The Sun
00:55:25seems yellow to us
00:55:26only through
00:55:27the filter
00:55:28of our atmosphere.
00:55:29The composition
00:55:30of the air
00:55:31and its thickness
00:55:32just distort
00:55:33the light
00:55:34and make it
00:55:35just the light
00:55:36of the star.
00:55:37But the stars
00:55:38still have
00:55:39different colours.
00:55:40You're sitting
00:55:41in a cafe on Mars,
00:55:42head down,
00:55:43trying not to
00:55:44draw attention
00:55:45to yourself.
00:55:46There's a lot of people
00:55:47and a lot of people
00:55:48sing, dance
00:55:49and speak
00:55:50the high voice
00:55:51of life on Mars.
00:55:52Your drink arrives
00:55:53and you sip it.
00:55:54For the moment,
00:55:55no one recognizes you.
00:55:56You wear a cap
00:55:57with a big cap wish
00:55:58to cover your face
00:55:59and hide
00:56:00in the eyes of the world.
00:56:01But someone
00:56:02accidentally hits you
00:56:03and sees your face.
00:56:04The music stops
00:56:05and now
00:56:06everyone is looking at you.
00:56:07You have nowhere
00:56:08to hide or run.
00:56:09You ignore
00:56:10the insistent looks
00:56:11and you continue
00:56:12to sip your drink.
00:56:13An old bearded man
00:56:14is sitting in front of you,
00:56:15surprised to be
00:56:16in your presence.
00:56:17So it's true!
00:56:18No one thought
00:56:19you would make it!
00:56:20he says.
00:56:21You don't answer
00:56:22and continue
00:56:23to drink your drink.
00:56:24All the others
00:56:25gather around you.
00:56:26Another man
00:56:27speaks.
00:56:28Well,
00:56:29you're not going
00:56:30to tell us
00:56:31how you managed
00:56:32to escape
00:56:33the Kraken's claw
00:56:34from space?
00:56:35Everyone
00:56:36is in shock.
00:56:37No one has ever
00:56:38managed to tell
00:56:39the story of the Kraken.
00:56:40Except you.
00:56:41Your plan
00:56:42was to find
00:56:43a passer-by
00:56:44to take you
00:56:45to a spaceship
00:56:46far from this planet.
00:56:47But it's too late,
00:56:48now that everyone
00:56:49knows you're there.
00:56:50And the messenger
00:56:51ran away,
00:56:52knowing that
00:56:53all the attention
00:56:54was on you.
00:56:55You then put on
00:56:56your hood
00:56:57and explain
00:56:58what happened.
00:56:59Two days earlier.
00:57:01Two days earlier.
00:57:02You are in
00:57:03your full equipment,
00:57:04ready to travel
00:57:05to the most
00:57:06distant space.
00:57:07You have a solo
00:57:08spaceship designed
00:57:09to maneuver
00:57:10through all the
00:57:11obstacles of the cosmos.
00:57:12You prepare the rest
00:57:13of the equipment
00:57:14and you fill it up.
00:57:15Everyone is looking at you,
00:57:16knowing that you
00:57:17could never come back.
00:57:18But the Kraken
00:57:19has been floating
00:57:20in space
00:57:21for too long
00:57:22and disrupts
00:57:23the transport
00:57:24of goods.
00:57:25A small ship
00:57:26like yours
00:57:27can escape
00:57:28its smell
00:57:29and its view.
00:57:30But the biggest
00:57:31ships will be destroyed.
00:57:32Your mission
00:57:33is to find
00:57:34this Kraken
00:57:35and study it.
00:57:37If you learn
00:57:38its habits,
00:57:39you will be able
00:57:40to find a way
00:57:41to get rid of it.
00:57:42Everyone
00:57:43says goodbye
00:57:44and you take off.
00:57:45You know
00:57:46that the journey
00:57:47will be very long
00:57:48to get there.
00:57:49Maybe three days
00:57:50in the void of space.
00:57:51You saw
00:57:52some quick images
00:57:53of the Kraken,
00:57:54but no one
00:57:55knows exactly
00:57:56where it sleeps.
00:57:57Or even
00:57:58if it really sleeps.
00:57:59You play music
00:58:00and adjust
00:58:01your ship
00:58:02on the speed regulator.
00:58:03You take notes
00:58:04and adjust the camera
00:58:05to document yourself
00:58:06while you prepare
00:58:07everything you need.
00:58:08You also have
00:58:09some cameras
00:58:10outside
00:58:11that record
00:58:12everything that moves,
00:58:13even thermal sensors
00:58:14to catch
00:58:15the living creatures
00:58:16that float in space.
00:58:17After a few hours,
00:58:18you leave
00:58:19the secured neighborhoods
00:58:20of Mars
00:58:21and you enter
00:58:22hostile territory.
00:58:23There is no place
00:58:24to hide
00:58:25or anyone
00:58:26to help you.
00:58:27Some small ships
00:58:28like yours
00:58:29pass by from time to time.
00:58:30They watch you
00:58:31go further
00:58:32towards the Kraken.
00:58:33You notice
00:58:34many floating panels
00:58:35powered by machines
00:58:36that put you
00:58:37on guard
00:58:38against the Kraken.
00:58:39The cameras
00:58:40start recording you
00:58:41and you start
00:58:42your video diary
00:58:43which is transmitted
00:58:44to your network
00:58:45at home.
00:58:46For the moment,
00:58:47nothing.
00:58:48It's calm
00:58:49and dark.
00:58:50The hours pass
00:58:51and you float
00:58:52in the middle of nowhere.
00:58:53You almost want
00:58:54to turn around.
00:58:55But you notice
00:58:56something strange
00:58:57in the sensors.
00:58:58You see a large object
00:58:59living nearby.
00:59:00You turn off the lights
00:59:01and you slow down
00:59:02your ship.
00:59:03You resume recording
00:59:04and you start
00:59:05talking to yourself,
00:59:06explaining everything.
00:59:07The object
00:59:08gets closer
00:59:09and closer.
00:59:10You shift
00:59:11to avoid it
00:59:12and you hang on
00:59:13to a floating rock.
00:59:14But you still
00:59:15see nothing.
00:59:16Suddenly,
00:59:17you see
00:59:18luminous creatures
00:59:19that look like
00:59:20jellyfish
00:59:21and that gather
00:59:22in a group.
00:59:23On your thermal sensors,
00:59:24they seem
00:59:25to be big objects.
00:59:26But in fact,
00:59:27they are only
00:59:28small creatures.
00:59:29According to your studies,
00:59:30these creatures
00:59:31are part of
00:59:32the main food
00:59:33of the jellyfish.
00:59:34So,
00:59:35they are probably
00:59:36fleeing it.
00:59:37After a few minutes,
00:59:38the creatures
00:59:39move away
00:59:40while floating
00:59:41and you take off
00:59:42and turn on the lights again.
00:59:43A few more hours pass
00:59:44and you still
00:59:45don't see
00:59:46any jellyfish.
00:59:47Suddenly,
00:59:48a breath shakes
00:59:49your ship
00:59:50and you are slightly
00:59:51deviated
00:59:52from your trajectory.
00:59:53You notice
00:59:54that a big object
00:59:55has penetrated
00:59:56your thermal sensors
00:59:57and got out of it.
00:59:58You keep moving
00:59:59and check
01:00:00the reading parameters
01:00:01to see if your cameras
01:00:02have managed
01:00:03to capture something.
01:00:04You try to look
01:00:05carefully
01:00:06but it seems
01:00:07that a gust of wind
01:00:08passed in front of you.
01:00:09Which is weird
01:00:10because there is
01:00:11no wind in space.
01:00:12You check
01:00:13the thermal sensors
01:00:14and you notice
01:00:15that a big object
01:00:16with the shape
01:00:17of a kraken
01:00:18passed in front of you.
01:00:19It is still there
01:00:20and it probably
01:00:21spotted your smell.
01:00:22Your systems
01:00:23try to recover
01:00:24DNA particles
01:00:25and study them.
01:00:26After a while,
01:00:27they show that
01:00:28the kraken's skin
01:00:29can change color
01:00:30depending on its environment.
01:00:31Its skin is thick
01:00:32and composed
01:00:33of a fluorescent
01:00:34cosmic matter
01:00:35which is new
01:00:36compared to
01:00:37all the other creatures
01:00:38you have encountered.
01:00:39The system
01:00:40continues to study it.
01:00:41After a while,
01:00:42the kraken
01:00:43gets out of your radar
01:00:44and disappears.
01:00:45You turn around
01:00:46to try to find it.
01:00:47People on Mars
01:00:48can see the data
01:00:49and already have
01:00:50information on its size
01:00:51and the quality
01:00:52of its skin.
01:00:53They have even seen
01:00:54images that you
01:00:55managed to capture.
01:00:56As you continue
01:00:57to move towards it,
01:00:58you turn on
01:00:59your projectors
01:01:00to try to see something.
01:01:01Your cameras
01:01:02are still rolling.
01:01:03Suddenly,
01:01:04the kraken
01:01:05changes skin color
01:01:06and appears
01:01:07right in front of you.
01:01:08Its large tentacles
01:01:09flash
01:01:10and whip
01:01:11the space debris
01:01:12that is nearby.
01:01:13Its huge eye,
01:01:14as big as
01:01:15a bus,
01:01:16looks at you.
01:01:17It opens its mouth
01:01:18and you see
01:01:19rows of pointed teeth
01:01:20that turn around you
01:01:21like a grinder.
01:01:22It has a big beak
01:01:23that can break
01:01:24your ship easily.
01:01:25It starts to blink
01:01:26quickly
01:01:27as a warning sign.
01:01:28It expels liquid
01:01:29to move
01:01:30in a space environment
01:01:31without gravity.
01:01:32It moves
01:01:33and throws itself
01:01:34towards you.
01:01:35Your ship
01:01:36has an automatic
01:01:37force field
01:01:38to protect you,
01:01:39but it cannot
01:01:40stand
01:01:41the powerful bite
01:01:42of the kraken.
01:01:43After only a few seconds,
01:01:44the shield
01:01:45breaks
01:01:46and your ship
01:01:47falls down
01:01:48on the ground
01:01:49and you are stuck
01:01:50on another planet.
01:01:51You are crushed
01:01:52on a swampy land.
01:01:53Your ship has survived,
01:01:54but it cannot take off.
01:01:55The analysis
01:01:56of the kraken
01:01:57is ready.
01:01:58It shows
01:01:59that it does not need
01:02:00oxygen to breathe
01:02:01and that its DNA
01:02:02is evolving.
01:02:03Now that it has
01:02:04tasted
01:02:05your force field,
01:02:06it can adapt
01:02:07to create
01:02:08a similar
01:02:09bio force field.
01:02:10But you are crushed
01:02:11on a planet
01:02:12that is foreign to you.
01:02:13You put on
01:02:14your safety suit
01:02:15and you observe
01:02:16the environment.
01:02:17Your ship
01:02:18is full
01:02:19of nitrogen
01:02:20and sulfur.
01:02:21You go out
01:02:22and you walk around.
01:02:23Gravity
01:02:24is similar
01:02:25to that of the Earth.
01:02:26As you venture
01:02:27into the swamp,
01:02:28you begin to see
01:02:29small skin particles
01:02:30similar to those
01:02:31that your ship
01:02:32has caught.
01:02:33The liquid
01:02:34below you
01:02:35is a foreign substance
01:02:36that seems
01:02:37to deteriorate
01:02:38your suit.
01:02:39So,
01:02:40you choose
01:02:41to do overtime.
01:02:42The trees are strange
01:02:43and seem to live
01:02:44from the atmosphere,
01:02:45but there is
01:02:46no sign of life
01:02:47on the surface.
01:02:48Suddenly,
01:02:49you see
01:02:50a huge crater
01:02:51that leads
01:02:52to the center
01:02:53of the planet.
01:02:54You go inside
01:02:55and you see
01:02:56ships
01:02:57identical to yours.
01:02:58It seems
01:02:59that the Kraken
01:03:00made them
01:03:01deviate
01:03:02from their path
01:03:03and that they
01:03:04crashed
01:03:05on this planet.
01:03:06Many of them
01:03:07seem to be intact
01:03:08while others
01:03:09are completely destroyed.
01:03:10Your sensors
01:03:11detect
01:03:12another creature
01:03:13that lives
01:03:14in the center.
01:03:15You try
01:03:16to reach it
01:03:17but you feel
01:03:18the ground
01:03:19shaking under you.
01:03:20You go down
01:03:21to try
01:03:22to avoid
01:03:23the rocks
01:03:24that fall
01:03:25over your head.
01:03:26A large tentacle
01:03:27arises from nowhere,
01:03:28then another
01:03:29and another.
01:03:30It swings
01:03:31and rumbles
01:03:32in the open air.
01:03:33Do you see?
01:03:34In the 1970s,
01:03:35scientists discovered
01:03:36a mysterious
01:03:37gravitational anomaly
01:03:38called
01:03:39the Great Attractor.
01:03:40Wait,
01:03:41but that was
01:03:42my nickname
01:03:43in high school.
01:03:44In short,
01:03:45you won't be able
01:03:46to see it
01:03:47because it is
01:03:48on the other side
01:03:49of our galaxy,
01:03:50about 150 million
01:03:51light years away.
01:03:52The Great Attractor
01:03:53is actually
01:03:54in the direction
01:03:55that scientists
01:03:56usually call
01:03:57the avoidance zone.
01:03:58Oh,
01:03:59I have one too.
01:04:00It's my sock drawer.
01:04:01There is so much
01:04:02dust and gas
01:04:03in this region
01:04:04that we can't
01:04:05distinguish
01:04:06what's going on.
01:04:07This zone blocks
01:04:08most of the visible light
01:04:09coming from beyond.
01:04:10But all this dust
01:04:11and gas
01:04:12don't block
01:04:13X-rays
01:04:14and with the development
01:04:15of X-ray astronomy,
01:04:16researchers could
01:04:17finally begin
01:04:18to observe
01:04:19all the objects
01:04:20in this zone,
01:04:21including
01:04:22this mysterious force
01:04:23that attracts everything.
01:04:24But so far,
01:04:25no one has yet
01:04:26understood
01:04:27why this was happening.
01:04:28Our Moon
01:04:29could be
01:04:30200 million years
01:04:31younger
01:04:32than we thought
01:04:33before.
01:04:34Many scientists
01:04:35think that the Moon
01:04:36was formed
01:04:37during a powerful
01:04:38collision
01:04:39between our planet
01:04:40and an unknown body
01:04:41the size of Mars.
01:04:42The dust
01:04:43that we know
01:04:44as the Moon.
01:04:45The lunar crust
01:04:46probably went through
01:04:47a solidification process
01:04:48for more than
01:04:49200 million years.
01:04:50Did you know
01:04:51that there was
01:04:52originally
01:04:53a magma ocean
01:04:54on the Moon?
01:04:55Scientists have
01:04:56observed this reality
01:04:57after discovering
01:04:58large quantities
01:04:59of light minerals
01:05:00called plagioclases.
01:05:01This material
01:05:02generally crystallizes
01:05:03and floats
01:05:04on the surface
01:05:05of the magma.
01:05:06In any case,
01:05:07these minerals
01:05:08were 4.36 billion years old,
01:05:09which means
01:05:10they formed
01:05:11200 million years
01:05:12after the first
01:05:13solid materials
01:05:14of our solar system
01:05:15appeared.
01:05:16Thus,
01:05:17the theory
01:05:18that the Moon
01:05:19was formed
01:05:20during this cataclysmic chaos
01:05:21could be true.
01:05:22If you land
01:05:23on the Moon one day
01:05:24and you leave
01:05:25your footprint
01:05:26on its surface,
01:05:27it can stay there
01:05:28for a million years.
01:05:29You will also see
01:05:30the footprints
01:05:31of other astronauts,
01:05:32even if no one
01:05:33has landed
01:05:34on its lunar surface
01:05:35for decades.
01:05:36The Moon
01:05:37does not have
01:05:38an atmosphere
01:05:39that is clean to it.
01:05:40There is no wind
01:05:41and there are no footprints.
01:05:42We perceive it
01:05:43as a small dot
01:05:44somewhere in the distance.
01:05:45But in reality,
01:05:46the Sun is so big
01:05:47that if it were
01:05:48a hollow sphere,
01:05:49you could fill it
01:05:50with more than
01:05:51a million Earths.
01:05:52The Sun
01:05:53represents
01:05:5499.86%
01:05:55of the mass
01:05:56of our
01:05:57entire solar system.
01:05:58Another huge object
01:05:59of our solar system
01:06:00is Jupiter.
01:06:01It is 11 times
01:06:02larger than our planet.
01:06:03For comparison,
01:06:04the Earth
01:06:05is not even
01:06:06the size
01:06:07of the Great Red Spot.
01:06:08This huge storm
01:06:09has been raging on Jupiter
01:06:10for more than a century.
01:06:11And no,
01:06:12it is not anchored
01:06:13to any solid,
01:06:14since Jupiter
01:06:15is a gas giant.
01:06:16It is similar
01:06:17to a colossal
01:06:18oval-shaped
01:06:19hurricane,
01:06:20reddish in color
01:06:21and quite large
01:06:22to swallow
01:06:23our entire planet.
01:06:24There was a time
01:06:25when it was
01:06:26three times
01:06:27larger than our planet.
01:06:28But over the centuries,
01:06:29it shrank
01:06:30as it stretched.
01:06:33As for Jupiter itself,
01:06:34this gas giant
01:06:35is a kind of vacuum cleaner
01:06:36that keeps
01:06:37our solar system
01:06:38safe.
01:06:39Jupiter has
01:06:40an incredibly strong
01:06:41gravity
01:06:42that devours
01:06:43comets
01:06:44or asteroids
01:06:45that could potentially
01:06:46harm our home planet.
01:06:47In some other
01:06:48planetary systems,
01:06:49gas giants
01:06:50similar to Jupiter
01:06:51migrate from
01:06:52the position
01:06:53where they were formed.
01:06:54They spiral
01:06:55inward
01:06:56and get closer
01:06:57to their star.
01:06:58And during their journey,
01:06:59they swallow
01:07:00small,
01:07:01telluric planets.
01:07:02Or their
01:07:03immense gravitational force
01:07:04projects these planets
01:07:05out of their solar system.
01:07:06Fortunately for us,
01:07:07Jupiter's
01:07:08gravitational force
01:07:09doesn't work
01:07:10that way.
01:07:11If similar planets
01:07:12like Jupiter
01:07:13stay away
01:07:14from their stars,
01:07:15they ensure
01:07:16the safety
01:07:17of their planetary system
01:07:18by protecting
01:07:19the small planets
01:07:20that are
01:07:21in their
01:07:22inner orbit.
01:07:23Jupiter,
01:07:24for example,
01:07:25can influence
01:07:26the orbits
01:07:27of small
01:07:28space bodies
01:07:29that are
01:07:30too close
01:07:31to the
01:07:32inner planets.
01:07:33This is why
01:07:34this gas giant
01:07:35is an excellent
01:07:36guardian
01:07:37for Jupiter.
01:07:38It leaves
01:07:39a trail
01:07:40of debris
01:07:41behind it.
01:07:42I had
01:07:43a little brother
01:07:44who did the same.
01:07:45It is about
01:07:46a million times
01:07:47heavier than
01:07:48our Sun.
01:07:49And right now,
01:07:50it is two billion
01:07:51light years
01:07:52away from Earth.
01:07:53This black hole
01:07:54started like all the others
01:07:55in its own
01:07:56elliptical galaxy
01:07:57with numerous
01:07:58stars
01:07:59surrounding it.
01:08:00Supermassive black holes
01:08:01often form
01:08:02and stay
01:08:03in the center
01:08:04of galaxies.
01:08:05But this one
01:08:06met another
01:08:07galaxy
01:08:08at some point.
01:08:09Sometimes,
01:08:10galaxies merge
01:08:11to form
01:08:12a new galaxy
01:08:13if this happens.
01:08:14But not this time.
01:08:15Instead of merging,
01:08:16the galaxy of this black hole
01:08:17went through
01:08:18a much larger galaxy
01:08:19millions of years ago.
01:08:20This gigantic galaxy
01:08:21had already
01:08:22swallowed other galaxies
01:08:23on its way.
01:08:24And because it was
01:08:25so big,
01:08:26the galaxy
01:08:27surrounding
01:08:28our supermassive
01:08:29black hole
01:08:30ended up being
01:08:31torn apart.
01:08:32The black hole
01:08:33in its center
01:08:34managed to escape
01:08:35with some
01:08:36nearby stars.
01:08:37What left
01:08:38this burning haze
01:08:39spreading beyond
01:08:40the surrounding space.
01:08:41Super solar storms
01:08:42are so powerful
01:08:43that they can
01:08:44cause
01:08:45power cuts
01:08:46all over the world.
01:08:47Random eruptions
01:08:48coming from the sun
01:08:49cause these solar storms
01:08:50and they can really
01:08:51happen at any time.
01:08:52In 2012,
01:08:53we were lucky
01:08:54because the most powerful
01:08:55solar storm
01:08:56of the last 150 years
01:08:57passed very close to us.
01:08:58It simply
01:08:59managed to cross
01:09:00the Earth's orbit.
01:09:01If it had
01:09:02happened
01:09:03only once,
01:09:04our planet
01:09:05would have had to
01:09:06face terrible consequences.
01:09:07In particular,
01:09:08power cuts
01:09:09all over the globe.
01:09:10Gamma-ray surges
01:09:11are powerful enough
01:09:12to destroy
01:09:13planets.
01:09:14We are talking
01:09:15about extremely strong
01:09:16surges,
01:09:17which mainly occur
01:09:18in very,
01:09:19very distant galaxies.
01:09:20If these rays
01:09:21are directed
01:09:22directly towards
01:09:23a space object,
01:09:24they can completely
01:09:25destroy it,
01:09:26even if we are
01:09:27talking about
01:09:28an entire planet.
01:09:29The Earth is safe
01:09:30for the moment
01:09:31and we don't have
01:09:32much to fear.
01:09:33A gamma-ray surge
01:09:34occurs in our galaxy
01:09:35about once
01:09:36every 5 million years.
01:09:39Fortunately,
01:09:40it occurs too far
01:09:41and does not affect
01:09:42life on Earth.
01:09:43All of this,
01:09:44in short,
01:09:45does not concern us,
01:09:46but it is still
01:09:47frightening.
01:09:48Burning ice
01:09:49does exist.
01:09:50It may be difficult
01:09:51to imagine it
01:09:52here on Earth,
01:09:53but a strange planet
01:09:54called Gliese 436 b
01:09:55literally consists
01:09:56of a burning
01:09:57ball of ice.
01:09:58It may be
01:09:59covered in ice,
01:10:00but at the same time
01:10:01it has a temperature
01:10:02of about 3 °C.
01:10:03You can't really
01:10:04see it burn
01:10:05because there is
01:10:06too much water
01:10:07on this planet.
01:10:08It is because of
01:10:09its strong gravitational
01:10:10attraction that
01:10:11attracts the water
01:10:12molecules to the
01:10:13heart of the planet
01:10:14and compresses them
01:10:15incredibly densely.
01:10:16In this way,
01:10:17the water molecules
01:10:18cannot evaporate
01:10:19and that is why
01:10:20the ice on the surface
01:10:21of the planet
01:10:22never melts.
01:10:23There are stars
01:10:24that can
01:10:25pierce other stars.
01:10:26These space objects
01:10:27are for the most part
01:10:28smaller stars
01:10:29with a weaker mass.
01:10:30They target
01:10:31the closest star
01:10:32and begin to absorb
01:10:33their hydrogen fuel
01:10:34to increase
01:10:35their own mass
01:10:36and generally
01:10:37live longer.
01:10:38A vampire star
01:10:39is colored
01:10:40with a bright blue.
01:10:41It also becomes
01:10:42warmer.
01:10:43Thus,
01:10:44it gives the impression
01:10:45of being much younger
01:10:46than it actually is.
01:10:47If a star
01:10:48or any other object
01:10:49falls into a black hole,
01:10:50it is stretched
01:10:51like a spaghetti dish.
01:10:52This process
01:10:53is even called
01:10:54spaghettification.
01:10:55In space,
01:10:56no one
01:10:57hears you scream.
01:10:58As everyone knows,
01:10:59star explosions,
01:11:00asteroids crashing
01:11:01and planets on fire
01:11:02do not make
01:11:03any noise
01:11:04in space.
01:11:05Really?
01:11:06What if we could
01:11:07indeed hear
01:11:08some noise up there?
01:11:09Ok,
01:11:10back to school.
01:11:11Sound
01:11:12is a mechanical wave
01:11:13coming from
01:11:14a vibration.
01:11:15Hm,
01:11:16but what exactly
01:11:17does that mean?
01:11:18The most famous example
01:11:19is that of
01:11:20guitar strings.
01:11:21If you scratch
01:11:22one of them,
01:11:23it starts to vibrate.
01:11:24The atoms inside
01:11:25the metal string
01:11:26start to vibrate
01:11:27and hit the atoms
01:11:28of the air
01:11:29around them.
01:11:30The atoms
01:11:31push each other
01:11:32until some
01:11:33reach our ears.
01:11:34It's like the wave
01:11:35created by a stone
01:11:36thrown into a pond.
01:11:37And this happens
01:11:38very quickly,
01:11:39at a speed
01:11:40of about
01:11:41340 meters per second.
01:11:42Then,
01:11:43our eardrums
01:11:44start to vibrate
01:11:45at the same frequency
01:11:46and the small water
01:11:47inside our ears
01:11:48transmit this vibration
01:11:49to the brain.
01:11:50The brain
01:11:51then operates
01:11:52its magic
01:11:53by recognizing
01:11:54the sound
01:11:55and transforming it
01:11:56into sound.
01:11:57Great!
01:11:58Now,
01:11:59we know
01:12:00that we need
01:12:01some particles
01:12:02to create sound
01:12:03and we can find
01:12:04these particles
01:12:05in gases,
01:12:06liquids
01:12:07and solid substances.
01:12:08But what about
01:12:09space?
01:12:10It's an almost
01:12:11perfect vacuum
01:12:12and you've probably
01:12:13already heard
01:12:14that there is
01:12:15no sound
01:12:16in space
01:12:17because it's
01:12:18a vacuum.
01:12:19But what does
01:12:20that really mean?
01:12:21A perfect vacuum
01:12:22is a totally
01:12:23empty area
01:12:24of matter.
01:12:25This means
01:12:26that there is
01:12:27nothing in this place.
01:12:28Yes,
01:12:29despite all
01:12:30these celestial bodies
01:12:31in space,
01:12:32there is no air
01:12:33between them,
01:12:34no atoms
01:12:35or particles,
01:12:36nothing at all.
01:12:37In fact,
01:12:38almost nothing.
01:12:39To be quite exact,
01:12:40the perfect vacuum
01:12:41doesn't really exist.
01:12:42We can't get rid
01:12:43of atoms
01:12:44definitively,
01:12:45but space
01:12:46is very close
01:12:47to this notion.
01:12:48On average,
01:12:49there are
01:12:501 to 5 atoms
01:12:51per cubic centimeter.
01:12:52This can seem
01:12:53to be a lot,
01:12:54but keep in mind
01:12:55that these atoms
01:12:56are microscopic
01:12:57and the distance
01:12:58between them
01:12:59is huge.
01:13:00For comparison,
01:13:01a cubic centimeter
01:13:02of air
01:13:03contains about
01:13:04a thousand atoms.
01:13:05So, of course,
01:13:06with such a low density,
01:13:07these atoms
01:13:08can't push
01:13:09each other,
01:13:10even if the vibration
01:13:11is very strong,
01:13:12as in the case
01:13:13of a supernova,
01:13:14for example.
01:13:15They still
01:13:16can't do it.
01:13:18But then,
01:13:19movies are lying to us.
01:13:20All these
01:13:21epic space scenes
01:13:22take place
01:13:23in an almost
01:13:24annoying silence.
01:13:26Not so fast.
01:13:27What if we told you
01:13:28that there are,
01:13:29in reality,
01:13:30certain ways
01:13:31to hear the sound
01:13:32in space?
01:13:33First of all,
01:13:34there is always
01:13:35noise on other planets.
01:13:36If there is an atmosphere
01:13:37on a space body,
01:13:38or at least
01:13:39something like
01:13:40gas,
01:13:41water
01:13:42or a solid surface,
01:13:43there will be noise.
01:13:44In our case,
01:13:45the atmosphere
01:13:46becomes completely
01:13:47silent
01:13:48about 100 km
01:13:49above the surface
01:13:50of the Earth.
01:13:51This is where
01:13:52the sky stops being blue
01:13:53and a starry
01:13:54black veil begins.
01:13:57In any case,
01:13:58we would have to land
01:13:59on another planet
01:14:00or at least
01:14:01get close to its atmosphere
01:14:02to hear something.
01:14:04But, whatever it is,
01:14:05the sound
01:14:06would be very different.
01:14:07Let's take the example
01:14:08of our sister planet,
01:14:09Venus.
01:14:10The atmosphere
01:14:11is very dense there.
01:14:12Scientists
01:14:13even call it
01:14:14to make fun of
01:14:15thick chemical soup.
01:14:17If you manage
01:14:18to stay alive
01:14:19and talk there,
01:14:20your voice
01:14:21would be very different.
01:14:23It would be
01:14:24much louder
01:14:25and deeper.
01:14:27So,
01:14:28if you have always
01:14:29wanted to sing
01:14:30like Pavarotti,
01:14:31now you know
01:14:32what to do.
01:14:33And what would happen
01:14:34if the Earth
01:14:35had a denser atmosphere?
01:14:36What would we hear?
01:14:38Well,
01:14:39you can vaguely
01:14:40imagine it
01:14:41if you have ever
01:14:42been in the water.
01:14:43The water is very dense.
01:14:44The sound moves
01:14:45much faster
01:14:46and better
01:14:47than in the air.
01:14:48At a speed
01:14:49of almost 2 km per second.
01:14:54If you sit
01:14:55in an empty room
01:14:56without a sound source,
01:14:57you won't hear much,
01:14:58will you?
01:14:59Now,
01:15:00immerse your head
01:15:01in the water
01:15:02and observe
01:15:03how the same silence
01:15:04resonates here.
01:15:05It is not silent at all.
01:15:06Even if you ignore
01:15:07the omnipresent sounds
01:15:08of the water itself,
01:15:09you will immediately notice
01:15:10how much
01:15:11you can hear
01:15:12your own body,
01:15:13how your blood
01:15:14pulsates in your veins,
01:15:15how your heart beats,
01:15:16the slightest movement
01:15:17of your fingers.
01:15:18Pretty scary,
01:15:19isn't it?
01:15:21This gives us an idea
01:15:22of what would happen
01:15:23to us on a planet
01:15:24whose atmosphere
01:15:25is denser.
01:15:26And it's just crazy.
01:15:27We would hear everything.
01:15:30Animals running
01:15:31or the movement
01:15:32of tectonic plates.
01:15:35It is therefore obvious
01:15:36that there is sound
01:15:37on other planets.
01:15:39But what about space?
01:15:41There is also sound,
01:15:42for example,
01:15:43in a cloud of dust.
01:15:45You can find
01:15:46space dust
01:15:47almost everywhere in space.
01:15:49It can be the remains
01:15:50of a star
01:15:51or something else.
01:15:52And in these places,
01:15:53everything is a little denser
01:15:54than normal.
01:15:56This means
01:15:57that there are probably
01:15:58clouds of dust
01:15:59where the particles
01:16:00are very close
01:16:01to each other.
01:16:02This means
01:16:03that they can produce sounds.
01:16:05Of course,
01:16:06these will be very weak
01:16:07and transmitted
01:16:08over a very short distance.
01:16:09But it's still
01:16:10better than nothing, isn't it?
01:16:13It turns out
01:16:14that we have already
01:16:15recorded a spatial sound.
01:16:16It comes from
01:16:17Perseus' Galactic Lama,
01:16:18which is located
01:16:19250 million light years away
01:16:20from us.
01:16:23NASA recorded it
01:16:24in 2003.
01:16:26It looks like
01:16:27a note in B flat.
01:16:31But its frequency
01:16:32is so low
01:16:33that the human ear
01:16:34unfortunately
01:16:35cannot perceive it.
01:16:37But apart from that,
01:16:38we can only hear
01:16:39something inside
01:16:40spaceships.
01:16:41After all,
01:16:42they are small air pockets.
01:16:44In a space suit,
01:16:45you would also
01:16:46hear the sounds very well,
01:16:47including your breathing
01:16:48or the circulation
01:16:49of your breast.
01:16:51But two astronauts
01:16:52floating side by side
01:16:53would not hear each other,
01:16:54even if they were
01:16:55getting closer
01:16:56and shouting very loudly.
01:16:58It's also quite funny.
01:16:59If you hit your head
01:17:00against something,
01:17:01the noise would be
01:17:02very loud for you,
01:17:03but your astronaut colleague
01:17:04would not hear anything.
01:17:06This is why astronauts
01:17:07use radio devices.
01:17:12Now,
01:17:13in a purely theoretical way,
01:17:14if you could,
01:17:15one way or another,
01:17:16get out of your space suit
01:17:17and survive,
01:17:18you would be able
01:17:19to hear the noise
01:17:20inside the spaceship.
01:17:21But how?
01:17:23Simply because
01:17:24there is air inside
01:17:25the ship
01:17:26that transmits the sound.
01:17:27The air reaches
01:17:28the metal envelope
01:17:29and crosses it.
01:17:31If you pressed against
01:17:32the ship,
01:17:33by touching it preferably
01:17:34with your elbow
01:17:35or your knee,
01:17:36the sound would be
01:17:37transmitted to the brain
01:17:38directly by your bones,
01:17:39ignoring the ears.
01:17:42Or,
01:17:44yes,
01:17:45our bones drive the sound.
01:17:46This is how,
01:17:47for example,
01:17:48deaf people
01:17:49listen to music.
01:17:50This is called
01:17:51bone conduction,
01:17:52which is used
01:17:53in some headphones
01:17:54and other technologies.
01:17:56You can do
01:17:57a little experiment.
01:17:58Cover your ears
01:17:59with your fingers.
01:18:00Close them tight
01:18:01so that you can
01:18:02hardly hear anything.
01:18:03Then try to touch
01:18:04a sound source.
01:18:05It can be
01:18:06anything that vibrates,
01:18:07for example,
01:18:08a speaker
01:18:09playing music,
01:18:10with a part of your body
01:18:11where the bone
01:18:12is located.
01:18:13Now observe,
01:18:14or rather listen,
01:18:15the miracle happening.
01:18:16You can hear the sound
01:18:17not through your ears
01:18:18but directly
01:18:19in your brain.
01:18:20However,
01:18:21don't repeat
01:18:22this experience
01:18:23in space.
01:18:25Now,
01:18:26you have probably
01:18:27heard of things
01:18:28like the sounds
01:18:29of space,
01:18:30where you can listen,
01:18:31for example,
01:18:32to the sounds emitted
01:18:33by the sun
01:18:34or different planets.
01:18:35How do you
01:18:36record them?
01:18:37It's quite easy.
01:18:38We use another way
01:18:39to hear the sound
01:18:40in space,
01:18:41electromagnetic radiation.
01:18:42In other words,
01:18:43a radio.
01:18:44The radio
01:18:45is based on the same form
01:18:46of electromagnetic radiation
01:18:47as light.
01:18:48These waves
01:18:49can travel in space
01:18:50without any problem.
01:18:51Astronaut emitters
01:18:52work this way.
01:18:53If you have ever seen
01:18:54pictures taken
01:18:55from a space ship
01:18:56or from the International
01:18:57Space Station
01:18:58showing celestial bodies
01:18:59illuminated by the sun,
01:19:00like the Earth
01:19:01or the Moon,
01:19:02you may have noticed
01:19:03something wrong.
01:19:04Space seems too empty.
01:19:05There is a lack
01:19:06of a magnificent background
01:19:07filled with stars.
01:19:08This is not
01:19:09the case.
01:19:11It seems that it would be
01:19:12very boring
01:19:13to observe the stars
01:19:14directly from space
01:19:15since the sky
01:19:16is always so dark.
01:19:17During the day,
01:19:18the sky above our heads
01:19:19is blue
01:19:20because of the diffusion
01:19:21of light.
01:19:22This happens
01:19:23when the light
01:19:24of the sun
01:19:25crosses the atmosphere.
01:19:26But if you are on the Moon
01:19:27or elsewhere in space,
01:19:28there is no atmosphere
01:19:29to diffuse this light.
01:19:30This is why
01:19:31the sun
01:19:32always seems black.
01:19:34But this does not mean
01:19:35that there is less light.
01:19:36If you take a look
01:19:37through a space station
01:19:38skylight,
01:19:39you will see
01:19:40as much direct sunlight
01:19:41as if you were looking
01:19:42through the window
01:19:43of your apartment
01:19:44during a day without clouds,
01:19:45maybe even more.
01:19:47When you take a picture
01:19:48during a sunny day,
01:19:49you probably use
01:19:50a short exposure
01:19:51as well as the narrow
01:19:52aperture setting
01:19:53of your camera.
01:19:55In this way,
01:19:56only a short burst of light
01:19:57enters the lens.
01:19:58The same principle
01:19:59applies when our pupils
01:20:00contract to the sunlight
01:20:01in order not to have
01:20:02to manage
01:20:03too much light.
01:20:05And as it is
01:20:06just as clear up there
01:20:07in space,
01:20:08the process is the same
01:20:09when you take pictures
01:20:10of objects lit up
01:20:11by the sun.
01:20:12By using a short exposure,
01:20:13you can get
01:20:14good luminous pictures
01:20:15of the Earth
01:20:16or the surface
01:20:17of the Moon.
01:20:18But this also means
01:20:19that there will be
01:20:20no stars in the picture.
01:20:21Even up there,
01:20:22the stars are
01:20:23relatively dull.
01:20:24They do not emit
01:20:25enough light
01:20:26to appear in the pictures
01:20:27taken with such settings.
01:20:29Our planet
01:20:30has a blue sky
01:20:31that slowly turns
01:20:32into a magnificent
01:20:33orange-red palette
01:20:34at dusk
01:20:35and the other way around
01:20:36at dawn.
01:20:37If one day
01:20:38you have the opportunity
01:20:39to observe a sunset
01:20:40on Mars,
01:20:41you must expect
01:20:42the opposite,
01:20:43an orange-brown
01:20:44diurnal sky
01:20:45with a bluish hue
01:20:46at sunset.
01:20:47First of all,
01:20:48Mars is further away
01:20:49from the sun
01:20:50than our planet.
01:20:51So when you look
01:20:52at the sun
01:20:53from the Martian surface,
01:20:54it looks duller
01:20:55and smaller.
01:20:56And that's not all.
01:20:57The sun observed
01:20:58since Mars
01:20:59is only a bluish white dot
01:21:00surrounded by a blue halo.
01:21:02The fine atmosphere
01:21:03of the red planet
01:21:04contains large particles
01:21:05of dust
01:21:06that produce
01:21:07an effect called
01:21:08Mie diffusion.
01:21:09This occurs
01:21:10when the diameter
01:21:11of the particles
01:21:12in the atmosphere
01:21:13is almost the same
01:21:14as the wavelength
01:21:15of the diffused light.
01:21:16This effect filters
01:21:17the red light
01:21:18from the sun's rays.
01:21:19Thus,
01:21:20only the blue light
01:21:21would reach your eyes
01:21:22on Mars.
01:21:23How is it
01:21:24that the Earth
01:21:25has no rings?
01:21:26All the gas giants
01:21:27of our solar system
01:21:28Jupiter,
01:21:29Saturn,
01:21:30Uranus and Neptune
01:21:31have such rings,
01:21:32while the telluric planets
01:21:33Mercury,
01:21:34Venus,
01:21:35and Mars
01:21:36do not.
01:21:37There are two theories
01:21:38about the way
01:21:39rings can appear
01:21:40around a planet.
01:21:41They could only be
01:21:42remnants of materials
01:21:43from the time
01:21:44when the planet was formed.
01:21:46Or they could be
01:21:47remnants of a moon
01:21:48that was destroyed
01:21:49by a collision
01:21:50with a space body
01:21:51or torn apart
01:21:52by the strong gravitational
01:21:53attraction
01:21:54of its mother planet.
01:21:56The gas giants
01:21:57formed in the
01:21:58outer regions
01:21:59of our solar system,
01:22:00while all the telluric planets
01:22:01are located
01:22:02in the inner part.
01:22:03So,
01:22:04maybe the inner planets
01:22:05were better protected
01:22:06from potential collisions
01:22:07that could have
01:22:08formed their rings.
01:22:09There are also
01:22:10more moons
01:22:11in the outer regions
01:22:12of our solar system,
01:22:13which could be
01:22:14another reason
01:22:15why the planets
01:22:16that are there
01:22:17have rings.
01:22:18In addition,
01:22:19the bigger planets
01:22:20have a stronger gravity.
01:22:21This means
01:22:22that they can keep
01:22:23their rings stable
01:22:24after their formation.
01:22:25Some experts
01:22:26think that the Earth
01:22:27had a ring system
01:22:28a long time ago.
01:22:29An object the size of Mars
01:22:30could collide
01:22:31with our mother planet,
01:22:32which probably
01:22:33created a dense ring
01:22:34of debris around it.
01:22:35Some scientists
01:22:36think that these debris
01:22:37did not form a ring,
01:22:38but what we know
01:22:39today as the Moon.
01:22:41A giant planet
01:22:42is probably
01:22:43hidden on the edge
01:22:44of the solar system,
01:22:45far beyond Neptune.
01:22:47Scientists have named
01:22:48this mysterious
01:22:49hypothetical world
01:22:50the New Planet.
01:22:52If it really exists,
01:22:53it is probably similar
01:22:54to Uranus or Neptune
01:22:55and ten times
01:22:56more massive
01:22:57than our planet.
01:22:59It probably rotates
01:23:00around the Sun,
01:23:01but in the confines
01:23:02of the solar system
01:23:03about twenty times
01:23:04farther than Neptune.
01:23:06Another interesting theory
01:23:07states that the New Planet
01:23:08could actually be
01:23:09a black hole
01:23:10the size of a foam bubble,
01:23:11which deforms space
01:23:12as a large planet would.
01:23:14While we used to think
01:23:15that water was
01:23:16a rare substance in space,
01:23:17it actually exists
01:23:18everywhere
01:23:19in our solar system.
01:23:20For example,
01:23:21it can be found
01:23:22in asteroids and comets,
01:23:24as well as in the craters
01:23:25of the Moon
01:23:26and Mercury.
01:23:27We do not know
01:23:28exactly where
01:23:29it is,
01:23:30but we know
01:23:31that it is somewhere
01:23:32in the atmosphere.
01:23:33We still do not know
01:23:34if there is enough water
01:23:35to allow
01:23:36any human colony to live
01:23:37if we decide
01:23:38to settle there.
01:23:39But a certain amount
01:23:40of water is certainly
01:23:41present there.
01:23:42Mars also houses
01:23:43water at its poles.
01:23:44It is mainly
01:23:45hidden in the layers
01:23:46of ice
01:23:47and probably
01:23:48under the dusty
01:23:49surface of the planet.
01:23:50Europe,
01:23:51the moon of Jupiter,
01:23:52also has water.
01:23:53It is the most likely
01:23:54candidate we knew
01:23:55to welcome life
01:23:56outside the Earth.
01:23:57There is probably
01:23:58an entire ocean
01:23:59of liquid water
01:24:00under its frozen surface
01:24:01and it could also
01:24:02contain twice as much
01:24:03water as all the oceans
01:24:04of the Earth combined.
01:24:05Neptune is surprisingly
01:24:06warm,
01:24:07even if it is
01:24:0830 times farther
01:24:09from the Sun
01:24:10than our planet
01:24:11and receives less
01:24:12solar light
01:24:13and heat.
01:24:14But it emits
01:24:15much more heat
01:24:16than it receives.
01:24:17Its atmosphere
01:24:18is also much more active
01:24:19than we thought,
01:24:20especially if we compare
01:24:21it to its neighbor,
01:24:22Uranus.
01:24:23These two planets
01:24:24emit the same amount
01:24:25of heat,
01:24:26even if Uranus
01:24:27is much closer
01:24:28to the Sun
01:24:29than Neptune.
01:24:30But no one
01:24:31knows why.
01:24:32Neptune also has
01:24:33extremely strong winds
01:24:34that can reach
01:24:35a speed of
01:24:362,400 km per hour.
01:24:37Could it be
01:24:38responsible for this heat?
01:24:39Or maybe it's because
01:24:40of the core of the planet
01:24:41or its gravitational force?
01:24:42A monstrous black hole
01:24:43rushes into space
01:24:44at a speed
01:24:45of 8 million km per hour.
01:24:46Scientists have
01:24:47located it
01:24:48thanks to
01:24:49the Hubble Space Telescope.
01:24:50They think
01:24:51it weighs
01:24:52as much as
01:24:53a billion suns.
01:24:54It was supposed
01:24:55to stay in its place
01:24:56for a long time
01:24:57in the center
01:24:58of its original galaxy,
01:24:59but gravitational forces
01:25:00push it
01:25:01in all directions.
01:25:02At some point,
01:25:03this black hole
01:25:04will free itself
01:25:05from its galaxy
01:25:06and continue
01:25:07to wander
01:25:08in the universe.
01:25:09Fortunately,
01:25:10it is still
01:25:118 billion light years
01:25:12away from us.
01:25:13Solar storms
01:25:14are so powerful
01:25:15that they could
01:25:16plunge us
01:25:17into complete darkness.
01:25:18In July 2012,
01:25:19the most powerful
01:25:20solar storm
01:25:21in the last 150 years
01:25:22was about to hit Earth.
01:25:23The Earth's
01:25:24atmosphere
01:25:26The coronal mass ejections,
01:25:27or CMEs,
01:25:28are large ionized
01:25:29gas bubbles.
01:25:30They crossed
01:25:31our orbit
01:25:32at the time.
01:25:33If they had
01:25:34had our planet
01:25:35as a direct target,
01:25:36we would have
01:25:37faced solar matter
01:25:38rushing towards Earth,
01:25:39damaging computers
01:25:40and causing
01:25:41power outages
01:25:42that would have
01:25:43lasted months.
01:25:44A surprise
01:25:45solar storm
01:25:46struck us
01:25:47on June 25, 2022.
01:25:48A photographer
01:25:49even managed
01:25:50to capture
01:25:51superb aurorae
01:25:52in the sky
01:25:53at Calgary,
01:25:54Canada,
01:25:55which lasted
01:25:565 minutes.
01:25:57They were caused
01:25:58by the storm.
01:25:59Vampire stars
01:26:00really exist.
01:26:01They are part
01:26:02of a binary star system
01:26:03and can literally
01:26:04suck the life
01:26:05out of the other
01:26:06star in the system.
01:26:07Venus was
01:26:08most likely
01:26:09covered by an ocean
01:26:10with a depth
01:26:11of 10 to 300 meters.
01:26:12In addition,
01:26:13a certain amount
01:26:14of water
01:26:15was trapped
01:26:16on the planet's
01:26:17surface.
01:26:18It had
01:26:19the ability
01:26:20to absorb
01:26:22This planet
01:26:23had stable temperatures
01:26:24of 20 to 50 degrees Celsius,
01:26:26which were therefore
01:26:27quite tolerable
01:26:28and not so different
01:26:29from the current
01:26:30temperatures on Earth.
01:26:31In short,
01:26:32for 3 billion years,
01:26:33until something
01:26:34irrevocable
01:26:35happened
01:26:36700 million years ago,
01:26:37Venus could have
01:26:38been habitable,
01:26:39but today
01:26:40it is no longer.
01:26:44The Moon
01:26:45is the second
01:26:46brightest object
01:26:47in our sky.
01:26:48However,
01:26:49among the other
01:26:50astronomical objects,
01:26:51it is one of the darkest
01:26:52and least reflective.
01:26:53But our natural satellite
01:26:54seems bright
01:26:55because it is
01:26:56very close to us.
01:26:57In the same way,
01:26:58our planet
01:26:59seems much brighter
01:27:00when you look at it
01:27:01from space.
01:27:02This is because
01:27:03clouds, ice
01:27:04and snow
01:27:05reflect much more
01:27:06light than
01:27:07most rocks.
01:27:08Triton,
01:27:09Neptune's moon,
01:27:10has its entire surface
01:27:11covered with
01:27:12several layers of ice.
01:27:13If this satellite
01:27:14replaced our current moon,
01:27:15the night sky
01:27:16would become
01:27:17seven times brighter.
01:27:19Neutron stars
01:27:20are among
01:27:21the smallest
01:27:22and most massive
01:27:23objects in space.
01:27:24They usually have
01:27:25a diameter of
01:27:26about 18 km,
01:27:27but they are
01:27:28several times heavier
01:27:29than the Sun.
01:27:30And they rotate
01:27:31about 600 times
01:27:32per second,
01:27:33much faster
01:27:34than a professional
01:27:35figure skater.
01:27:36Saturn
01:27:37is the planet
01:27:38with the least density
01:27:39in the solar system.
01:27:40It has a density
01:27:41equivalent to
01:27:42one eighth of
01:27:43the Earth's.
01:27:44And yet,
01:27:45because of its
01:27:46immense volume,
01:27:47it is
01:27:48seven times
01:27:49more massive
01:27:50than the Earth.
01:27:51The transitory
01:27:52lunar phenomenon
01:27:53is one of the most
01:27:54enigmatic things
01:27:55that happens
01:27:56on the Moon.
01:27:57It is an
01:27:58ephemeral change
01:27:59of light,
01:28:00color
01:28:01or other
01:28:02on the surface
01:28:03of the satellite.
01:28:04Most often,
01:28:05it is
01:28:06random
01:28:07light flashes.
01:28:08Astronomers
01:28:09have observed
01:28:10this phenomenon
01:28:11since the 1950s.
01:28:12They noticed
01:28:13that flashes
01:28:14happened
01:28:15in an unpredictable
01:28:16way.
01:28:17Some of them
01:28:18did not last
01:28:19more than a few minutes,
01:28:20but some lasted
01:28:21several hours.
01:28:22In 1969,
01:28:23a day before
01:28:24Apollo 11
01:28:25landed on the Moon,
01:28:26one of the members
01:28:27of the mission
01:28:28noticed that
01:28:29a part of the
01:28:30lunar surface
01:28:31was brighter
01:28:32than the
01:28:33surrounding landscape.
01:28:34It was said
01:28:35that this area
01:28:36had a kind
01:28:37of fluorescence.
01:28:38Unfortunately,
01:28:39we still do not
01:28:40know if this phenomenon
01:28:41was linked
01:28:42to the mysterious
01:28:43lunar flash.
01:28:44Waste is not
01:28:45only
01:28:46produced
01:28:47on Earth.
01:28:48There are
01:28:49what we call
01:28:50space waste,
01:28:51that is,
01:28:52any object
01:28:53man-made
01:28:54that has been
01:28:55left in space
01:28:56and is useless.
01:28:57There are also
01:28:58natural debris
01:28:59from meteorites
01:29:00and other
01:29:01cosmic objects.
01:29:02There are currently
01:29:03more than 500,000
01:29:04space debris
01:29:05orbiting the Earth
01:29:06at speeds
01:29:07high enough
01:29:08to cause
01:29:09significant damage
01:29:10if they collide
01:29:11with a spaceship
01:29:12or a satellite.
01:29:13NASA
01:29:14is working
01:29:15to ensure
01:29:16that all
01:29:17space debris
01:29:18can reach
01:29:19their destination
01:29:20safely.
01:29:21Our sun
01:29:22is incredibly
01:29:23massive.
01:29:24For proof,
01:29:2599.86%
01:29:26of the entire
01:29:27mass of the
01:29:28solar system
01:29:29consists of
01:29:30the mass of the sun,
01:29:31in particular
01:29:32the hydrogen
01:29:33and helium
01:29:34it is composed of.
01:29:35The remaining
01:29:360.14%
01:29:37are mainly
01:29:38the mass
01:29:39of the
01:29:408 planets
01:29:41of the solar system.
01:29:42The atmosphere
01:29:43reaches millions
01:29:44of degrees.
01:29:45If we could dig
01:29:46a tunnel
01:29:47directly in the
01:29:48center of the planet
01:29:49and go out
01:29:50by the opposite side
01:29:51and you were
01:29:52adventurous enough
01:29:53to jump in,
01:29:54it would take you
01:29:5542 minutes
01:29:56to cross it.
01:29:57You would accelerate
01:29:58as you fell
01:29:59to reach
01:30:00the maximum speed
01:30:01when you would
01:30:02reach the core
01:30:03of the Earth.
01:30:04After half the journey,
01:30:05you would then
01:30:06fall up
01:30:07more and more
01:30:08slowly.
01:30:09When you would
01:30:10reach the opposite
01:30:11surface,
01:30:12you would
01:30:13reach 0.
01:30:14Unless you manage
01:30:15to get out of the hole,
01:30:16you would immediately
01:30:17start falling again
01:30:18to go down
01:30:19or go up
01:30:20to the other side
01:30:21of the planet.
01:30:22This journey
01:30:23would last
01:30:24an eternity
01:30:25because of the
01:30:26bizarre effects
01:30:27of gravity.
01:30:28There could be
01:30:29more metals,
01:30:30for example
01:30:31titanium or iron
01:30:32in the lunar craters
01:30:33than astronomers
01:30:34thought.
01:30:35The biggest problem
01:30:36with this discovery
01:30:37is that it contradicts
01:30:38the main theory
01:30:39about the way
01:30:40the Moon
01:30:41was formed.
01:30:42This theory
01:30:43states that
01:30:44the Earth's
01:30:45natural satellite
01:30:46detached from our planet
01:30:47after a collision
01:30:48with a massive
01:30:49space object.
01:30:50But then,
01:30:51why does the Earth's crust,
01:30:52poor in metals,
01:30:53contain much less
01:30:54iron oxide
01:30:55than the Moon's?
01:30:56This could mean
01:30:57that the Moon
01:30:58was formed
01:30:59from materials
01:31:00that were
01:31:01much deeper
01:31:02inside our planet.
01:31:03Or these metals
01:31:04could have appeared
01:31:05when the lunar surface
01:31:06in fusion
01:31:07cooled down slowly.
01:31:08Or maybe,
01:31:09as it has been said
01:31:10before,
01:31:11it is made of cheese.
01:31:12The Earth
01:31:13could have been purple
01:31:14before becoming
01:31:15blue and green.
01:31:16A scientist
01:31:17has a theory
01:31:18according to which
01:31:19a substance existed
01:31:20in the ancient microbes
01:31:21before chlorophyll,
01:31:22this thing
01:31:23that makes plants green,
01:31:24evolved on Earth.
01:31:25This substance
01:31:26reflected the sunlight
01:31:27in red and mauve,
01:31:28colors that combined
01:31:29to give purple.
01:31:30If this is true,
01:31:31the young Earth
01:31:32may have fed
01:31:33strange purple-colored plants
01:31:34before all
01:31:35these green things
01:31:36appeared.
01:31:37The highest mountain
01:31:38in the solar system
01:31:39is Olympus Mons
01:31:40on Mars.
01:31:41It is three times
01:31:42higher than Mount Everest,
01:31:43the highest peak
01:31:44on Earth
01:31:45compared to
01:31:46the sea level.
01:31:47If you stood
01:31:48at the top of Olympus Mons,
01:31:49you would not understand
01:31:50that you are
01:31:51on a mountain.
01:31:52These slopes
01:31:53would be hidden
01:31:54by the curvature
01:31:55of the planet.
01:31:56Astronomers
01:31:57have found
01:31:58a huge water reservoir
01:31:59in space,
01:32:00the largest
01:32:01ever detected.
01:32:02Too bad
01:32:03it is also
01:32:04the farthest.
01:32:05It is located
01:32:0612 billion light years
01:32:07from us.
01:32:08It contains
01:32:09140 billion times
01:32:10more water
01:32:11than all the oceans
01:32:12of the Earth combined.
01:32:13Venus
01:32:14rotates at its own pace,
01:32:15without rushing.
01:32:16A complete rotation
01:32:17takes 243 Earth days,
01:32:18and it takes
01:32:19the planet
01:32:20a little less
01:32:21than 225 Earth days
01:32:22to go around
01:32:23the Sun.
01:32:24This means
01:32:25that one day
01:32:26on Venus
01:32:27is longer
01:32:28than a year.
01:32:29There is very little
01:32:30seismic activity
01:32:31inside the Moon.
01:32:32However,
01:32:33small lunar eclipses
01:32:34caused by
01:32:35the gravitational force
01:32:36of our planet
01:32:37sometimes occur
01:32:38several kilometers
01:32:39below the surface.
01:32:40Then,
01:32:41tiny cracks
01:32:42and fractures
01:32:43appear on the surface
01:32:44of the satellite,
01:32:45and gases escape.
01:32:46Mars
01:32:47is the last
01:32:48of the four inner planets,
01:32:49which are also called
01:32:50telluric
01:32:51because they are
01:32:52composed of rocks
01:32:53and metals.
01:32:54The red planet
01:32:55has a core
01:32:56mainly made of
01:32:57iron,
01:32:58nickel
01:32:59and sulfur.
01:33:00It measures between
01:33:011,500 and 1,900 km in diameter.
01:33:02But this core
01:33:03does not move.
01:33:04This is why
01:33:05Mars does not have
01:33:06a magnetic field
01:33:07on the scale of the planet.
01:33:08The weak magnetic field
01:33:09it has
01:33:10is only
01:33:11one hundredth
01:33:12of that of the Earth.
01:33:13When the planets
01:33:14of the solar system
01:33:15began to form,
01:33:16the Earth
01:33:17did not have a moon
01:33:18for a very long time.
01:33:19It took
01:33:20100 million years
01:33:21for our natural satellite
01:33:22to appear.
01:33:23There are several theories
01:33:24about the way
01:33:25the Moon appeared,
01:33:26but the one that prevails
01:33:27is the fission theory.
01:33:28It states that the Moon
01:33:29formed when an object
01:33:30collided
01:33:31with the Earth
01:33:32in a collision
01:33:33with the Earth.
01:33:35Gravity gathered
01:33:36the particles
01:33:37and the Moon
01:33:38was created.
01:33:39It ended up
01:33:40landing on the ecliptic
01:33:41plane of the Earth,
01:33:42which is the current
01:33:43trajectory of the Moon.
01:33:46The largest living being
01:33:47on Earth
01:33:48turns out to be
01:33:49a mushroom in Oregon.
01:33:50This huge mushroom,
01:33:51Armillaria,
01:33:52lives in the
01:33:53National Forest of Malheur
01:33:54and covers an area
01:33:55of 9.7 km2.
01:33:56It is the largest
01:33:57mushroom
01:33:58in the world.
01:33:59It is the largest
01:34:00mushroom
01:34:01in the world.
01:34:02It is the largest
01:34:03mushroom
01:34:04in the world.
01:34:05It is the largest
01:34:06mushroom
01:34:07in the world.
01:34:08It is the largest
01:34:09mushroom
01:34:10in the world.
01:34:11Its diameter
01:34:12is around
01:34:139.5 km2.
01:34:14Its diameter
01:34:15is around
01:34:169.5 km2.
01:34:17Its diameter
01:34:18is around
01:34:199.5 km2.
01:34:20It could be
01:34:21up to 8,500 years old!
01:34:22But we can forgive you
01:34:23for missing it,
01:34:24because it is
01:34:25largely
01:34:26hidden underground.
01:34:27When the individual
01:34:28roots of Armillaria
01:34:29meet,
01:34:30they can fuse
01:34:31to become
01:34:32The largest asteroid in the solar system is called Vesta, and it is so big that it is sometimes called a dwarf planet.
01:34:41A trip to the second star closest to us, after the sun, would take you 5 million years by plane.
01:34:47This is what is called an ultra-long-haul flight.
01:34:50Space is not supposed to be black. There are stars everywhere.
01:34:54Shouldn't it illuminate everything around?
01:34:56In reality, we don't see stars everywhere, because some of them haven't existed for long enough for their light to reach Earth.
01:35:04No one will hear you scream in space, or something like that.
01:35:08We've all heard that phrase that's cold in the back.
01:35:11And it's true, space is largely made up of a gigantic void.
01:35:16There is a lot of space in space.
01:35:18But that doesn't mean there's no noise.
01:35:21In fact, there is a lot of it.
01:35:23And some of them could even make you shiver.
01:35:26We're going to look at the scariest sounds in space.
01:35:29First of all, how are cosmic noises recorded?
01:35:32Sound is just the vibration of molecules.
01:35:35When you scream, the molecules grow furiously from one another until they reach the person's ear in front of you.
01:35:42These vibrations are then transmitted to the brain, and we recognize them as something that we sometimes have to apologize for.
01:35:49To hear something, we need molecules.
01:35:53And that's where it gets complicated.
01:35:55There are none in space.
01:35:57The universe is almost entirely made up of voids.
01:36:00Yes, absolute voids.
01:36:03However, NASA magicians still manage to record the sounds of space.
01:36:08How do they do it?
01:36:10Well, there are certain types of waves that have nothing to do with molecules.
01:36:14We, ordinary people, cannot perceive them without certain devices.
01:36:18Among these waves, there are, for example, radio waves.
01:36:21We need a radio or a device of this type to recognize them.
01:36:24And that's exactly what NASA satellites do.
01:36:27They capture radio waves.
01:36:30Thanks to them, we can know the noise that cosmic bodies make.
01:36:34These satellites record a multitude of waves, the fluctuation of plasmas, magnetic fields, and other things.
01:36:41NASA scientists then transform all this into ordinary sound tracks.
01:36:46And some of these things make a rather frightening noise.
01:36:49That's the least we can say.
01:36:51Let's take, for example, our magnetic field.
01:36:53It surrounds our planet like an invisible shield,
01:36:56protecting us from all kinds of damage, such as radiation or solar winds.
01:37:00We can neither see nor feel it, but today we can hear it.
01:37:07Researchers from the Technical University of Denmark have collected magnetic waves
01:37:11recorded by the SWARM satellite.
01:37:14They then converted them into audio tracks and obtained a rather frightening result.
01:37:22In fact, it sounds more like the noise of a terrifying nocturnal creature.
01:37:27And if you have the Earth's magnetic field map in your head,
01:37:30you'll get the impression that a spider is crawling in the cliffs.
01:37:34And it's not the only strange sound we've captured on Earth.
01:37:38Recently, we've captured another radio signal from space.
01:37:42Scientists have discovered that it came from a very distant place,
01:37:45billions of light-years away from us.
01:37:49These waves don't usually last more than a few milliseconds,
01:37:52but this one was exceptional.
01:37:54It lasted about three seconds,
01:37:56which is thousands of times longer than usual.
01:37:59At the same time, the signal was very precise,
01:38:03so much so that scientists have even compared it to a heartbeat.
01:38:07Scientists think that this signal is caused by pulsars or neutron stars.
01:38:12In the past, Nikola Tesla captured something similar.
01:38:16Unfortunately, at the time, we didn't know about pulsars.
01:38:20Tesla was therefore convinced that he had captured the message of extraterrestrial creatures.
01:38:25But the truth turned out to be much less fascinating.
01:38:29Now let's go from Earth to the Moon.
01:38:31In 1969, the astronauts of the Apollo 10 mission,
01:38:35the shuttle that made the last test flight to the Moon,
01:38:38flew over its surface.
01:38:40They then captured strange signals coming from the hidden side of our satellite.
01:38:45We never see this side because the Moon is in a gravitational lock state.
01:38:49The sound was so strange that the astronauts didn't know if they should report it to NASA.
01:38:54They feared not being taken seriously,
01:38:56or even not being allowed to participate in the next space missions.
01:39:01Here's what it looked like.
01:39:06According to NASA, this is not at all a strange extraterrestrial music.
01:39:10It may simply be radio waves that have changed one after the other due to their proximity.
01:39:16But the astronauts who heard it for the first time were still a little scared.
01:39:21And what about other planets?
01:39:2340 years ago, scientists explored the surface of Venus.
01:39:28They sent dozens of probes to record sounds and images.
01:39:33We now know what kind of noise Venus emits,
01:39:36which could easily destroy us if we approached it.
01:39:43We didn't expect anything else from the most dangerous planet on the solar system.
01:39:49Unfortunately, Venus is even more toxic than the trolls on Twitter.
01:39:54And these probes didn't last long.
01:39:56They quickly went out of order after they arrived.
01:40:00Then we have Jupiter.
01:40:02This space giant, which is 11 times larger than Earth, is absolutely terrifying.
01:40:08One of NASA's probes, Juno, revolves around Jupiter every few weeks.
01:40:12It moves at a phenomenal speed, at 209,214 km per hour.
01:40:17One day, Juno recorded one of the most powerful invisible signals it has ever encountered.
01:40:23The violent solar winds had just entered into conflict with Jupiter's magnetic field.
01:40:29This caused a huge cosmic boom.
01:40:33The original sound lasted two hours, but was reduced to a few seconds.
01:40:37In fact, it looks a lot like the sound of a wave breaking on a rock.
01:40:42But none of this is comparable to the horror of one of Jupiter's small moons, Ganymede.
01:40:49In 2021, the space probe Galileo flew over it.
01:40:53During its flight, it captured something quite strange.
01:41:00These noises are satellite radiation.
01:41:03It looks a bit like the noise of a jungle, or that of thousands of bats waiting to surprise you in the middle of the night.
01:41:11Now let's move on to Saturn.
01:41:13This signal was captured by the Cassini-Huygens automatic interplanetary station, launched into space in 1997.
01:41:20Passing in front of Saturn, Cassini recorded a rather frightening sound.
01:41:26These screams straight out of hell are just simple radio waves.
01:41:30And it's not very different from what the auroras of Boreal emit on Earth.
01:41:34A little later, Cassini captured another signal.
01:41:37The noise of lightning and storms on Saturn.
01:41:40These sounds are quite interesting.
01:41:45It looks a bit like popping popcorn or a Geiger counter, doesn't it?
01:41:49But it's simply because these lightnings are extremely fast.
01:41:52We're now going to leave the solar system.
01:41:55The famous Voyager 1 probe was launched in 1977,
01:41:59and continues to send us data 40 years after its takeoff.
01:42:03In 2012, it left the solar system to enter interstellar space.
01:42:09That's when Voyager 1 recorded plasma waves.
01:42:14The original recording lasted 7 months.
01:42:17But scientists took pity on us and reduced it to 12 seconds.
01:42:22It's not really sinister, but it's not very reassuring either.
01:42:26And although it seems that nothing can surpass the horrors of Saturn,
01:42:30we are now going to examine one of the most frightening objects in the universe.
01:42:34A black hole.
01:42:36This sound was recorded by the Chandra space telescope.
01:42:39By studying a bunch of galaxies in the Perseid constellation,
01:42:42we discovered something very interesting.
01:42:45The undulating movements in the centre of the mass.
01:42:49They extend in all directions, like circles on water.
01:42:53Scientists have declared that this phenomenon was due to a supermassive black hole.
01:42:57But black holes don't always devour entire objects in space.
01:43:02Sometimes they spit them out.
01:43:05This causes gas vibrations that can be converted into sound waves.
01:43:10What's interesting is that the black holes in the Perseid constellation
01:43:14oscillate for about 10 million years.
01:43:18This recording is therefore very fast.
01:43:22Scientists have reduced the delay between oscillations by about 144 quadrillion times.
01:43:27And this is what it sounds like.
01:43:30It's probably the most sinister sound on our list.
01:43:33It's neither very powerful nor very violent.
01:43:35It has something rather dark and disturbing.
01:43:38So here are the most frightening spatial sounds captured by a black hole.
01:43:42As I said, most of them are just radio waves.
01:43:46But it's always fun to be scared from time to time.
01:43:49The centre of the Milky Way is a scene where there is an intense radiation,
01:43:53a strong gravity and many mysteries.
01:43:56A place where the forces of nature are pushed to their limits.
01:43:59But what would happen if our own planet was in this cosmic theatre?
01:44:04What would happen if the Earth managed to survive in one way or another?
01:44:08Let's start this journey to the heart of our galaxy to discover it.
01:44:14Imagine this.
01:44:15You float in space, surrounded by billions and billions of stars.
01:44:19Suddenly, you see in the distance a bright and turbulent mass of gas and dust.
01:44:25This is, my friend, the Milky Way.
01:44:27In other words, our home in the vast expanses of the universe.
01:44:32It is estimated that the Milky Way is one of the largest galaxies in the universe.
01:44:37It is estimated that the Milky Way contains more than 100 billion stars
01:44:40and that it extends over about 100,000 light years.
01:44:46In other words, if we traveled at the speed of light,
01:44:49it would take 100,000 years to cross it from one end to the other.
01:44:52This represents a few thousand billion kilometres.
01:44:57And it's not just a static set of stars and gas,
01:45:00but a dynamic system in constant evolution.
01:45:03In fact, the Milky Way is currently moving in space
01:45:06at a speed of about 2.1 million kilometres per hour.
01:45:12One of the most fascinating aspects of our galaxy is its shape.
01:45:16The Milky Way is a spiral galaxy,
01:45:18which means it looks like a disc with a central bulb and spiral arms.
01:45:24The spiral arms are the areas where new stars are born.
01:45:28This is where the most stars, gas and dust, are concentrated
01:45:32And what is the solar system?
01:45:36Our system is like a tiny spot in the great cosmic tapestry of the Milky Way.
01:45:41It is located about 26,000 light years from the center of the galaxy.
01:45:45A rather large distance, isn't it?
01:45:49The solar system also moves in the Milky Way,
01:45:52orbiting around the center of the galaxy.
01:45:55It takes it approximately 230 million years
01:45:58to make a complete orbit around the galaxy.
01:46:03Imagine, since the time of the dinosaurs,
01:46:06we have only traveled a quarter of this path.
01:46:10The position of the solar system in the galaxy
01:46:13has many repercussions on our lives.
01:46:16For example, the amount of radiation and cosmic rays we are exposed to,
01:46:21and even the probability of asteroid impact, etc.
01:46:24In addition, thanks to our location,
01:46:27we can enjoy amazing views of the universe around us.
01:46:31From our observation point in the Milky Way,
01:46:34we can observe other galaxies, nebulae and star clusters
01:46:37in breathtaking details.
01:46:40We also evolve in a very active neighborhood,
01:46:43with many other stars and planets nearby.
01:46:46So we are lucky.
01:46:48But what would happen if we didn't have these opportunities?
01:46:51What would happen if we didn't have these opportunities?
01:46:54What if the Earth was located in the center of the Milky Way?
01:46:59The center of the Milky Way is home to a region of space
01:47:02called the central bulb.
01:47:05It is filled with stars.
01:47:07It's like a disco ball, but instead of a bright mirror,
01:47:10it is covered with stars.
01:47:12But this disco ball is really huge.
01:47:15It has a diameter of about 10,000 light years.
01:47:19The center of the Milky Way is also home to extreme environments
01:47:22that would make even the bravest astronauts tremble.
01:47:26High-energy particles and intense magnetic fields
01:47:29can wreak havoc on electronic devices and spacecraft.
01:47:33Intense radiation fields can burn everything in their path.
01:47:37So it's not really a place suitable for life as we know it.
01:47:42If the Earth were located near the center of the Milky Way,
01:47:45it would be very different.
01:47:48Let's take a look at some of the potential effects.
01:47:52First of all, radiation.
01:47:55As we mentioned earlier,
01:47:57the center of the Milky Way is one of the most irradiated regions in the galaxy.
01:48:02This would make life on Earth very difficult, if not impossible.
01:48:07Of course, we have terrestrial magnetic field.
01:48:10It's a kind of giant shield that protects us from harmful radiation
01:48:13coming from extra-atmospheric space.
01:48:15But could it save us if we were located in the center of the Milky Way?
01:48:19Unfortunately, the answer is no.
01:48:21It's a bit like trying to use a tiny umbrella to shelter from a huge storm.
01:48:27The galaxy would therefore win easily.
01:48:31But the picture is not so dark.
01:48:33Some brave organisms are able to adapt to high levels of radiation.
01:48:39We have seen that life on Earth has evolved
01:48:42to survive everywhere, from the depths of the ocean to the icy poles of the planet.
01:48:48So let's imagine what would happen if we became, one way or another,
01:48:52evolved to survive in these difficult conditions.
01:48:56Let's imagine humans with hard and scaly skin that protects them from radiation,
01:49:00and plants with unique structures that allow them to thrive in this bright environment.
01:49:06But even so, radiation could have very frightening effects on humans.
01:49:12For example, it could damage DNA molecules and cause mutations.
01:49:16Imagine a world where plants would have 5 leaves instead of 4,
01:49:20where animals would have a strangely colored fur,
01:49:23where people would have eyes of an unusual color,
01:49:26or other original characteristics.
01:49:28And these are just a few of the best examples.
01:49:31Let's not even talk about the ugliest.
01:49:34In addition, it could make us undergo metabolic changes.
01:49:37Our body could treat food and other resources more quickly,
01:49:41which could lead to faster growth rates and larger sizes.
01:49:46Plants could become big and wide,
01:49:48and animals would be much more imposing than normal.
01:49:52There are also organisms on Earth that can produce bioluminescence.
01:49:58Thanks to high levels of radiation, they could shine even more than usual.
01:50:04Imagine that you are walking in a forest at night,
01:50:07and you see trees, mushrooms, and even insects,
01:50:10shining with a strange open blue light.
01:50:13Both frightening and surprising, isn't it?
01:50:17But let's move on to the next big change, gravity.
01:50:21At the center of the Milky Way, gravity is incredibly strong.
01:50:24All thanks to a supermassive black hole,
01:50:27whose mass is about 4 million times greater than that of the Sun.
01:50:32This black hole is called Sagittarius A.
01:50:35And yes, it's our neighbor now. Great!
01:50:39And assuming that we are not swallowed up by this black hole,
01:50:42or crushed by this incredibly strong gravity,
01:50:45it could still trigger many earthquakes and volcanic eruptions.
01:50:49This black hole would be like a gravitational tyrant,
01:50:52pulling and tearing everything in its path.
01:50:55In fact, if we survived this black hole,
01:50:58we would participate every day in a kind of grandiose surf competition.
01:51:02All you have to do is add a little thrill by risking your life.
01:51:05And let's forget the idea of ​​escaping the planet.
01:51:07It wouldn't be so easy to launch rockets at all.
01:51:10Water and physical objects would not be the only ones to be affected by gravity.
01:51:14Time would flow very differently for us.
01:51:17According to Einstein's theory of relativity,
01:51:20time flows more slowly in areas of high gravity.
01:51:24In other words, earthlings would age less quickly
01:51:27than a person far from the center of our galaxy.
01:51:31In addition, the center of the Milky Way is a very lively place.
01:51:35Stars, planets and other celestial objects
01:51:38move there every day at incredibly high speeds.
01:51:42The positions of the stars and other objects change constantly.
01:51:46In other words, we have to say goodbye to normal navigation.
01:51:50GPS systems would probably not be reliable
01:51:53due to the intensity of gravitational forces and radiation.
01:51:56If you accidentally get lost in a phosphorescent forest
01:51:59with scary animals, good luck!
01:52:03But there is more than negative.
01:52:05The center also houses molecular clouds.
01:52:08These are regions of space where new stars are born.
01:52:12And the Milky Way in general offers amazing landscapes.
01:52:17For example, amazing nebulae like the Orion Nebula
01:52:20and the Eagle Nebula, which are visible with telescopes
01:52:24or even simply with a good pair of binoculars.
01:52:28If the Earth were located in the center of the Milky Way,
01:52:31we would be the first to witness some of the most spectacular cosmic events.
01:52:36Wouldn't that be great?
01:52:39In short, if the Earth were located in the center of the Milky Way,
01:52:42it would be very different.
01:52:45Of course, we all know that our planet would not have survived such a change.
01:52:50But it is still interesting to imagine how our life would unfold if we were there.
01:52:55And judging by what we have just talked about, it would not be nice to see.
01:52:59So let's cherish and appreciate our peaceful little solar system.
01:53:04Here is Neptune. Our next stop is Pluto.
01:53:08Do not put your hands on the door, you risk getting pinched very hard.
01:53:12One day, with cutting-edge technologies of the future,
01:53:14a trip from Neptune to Pluto will not be longer than a subway journey.
01:53:18There are huge mountains of ice on Pluto,
01:53:21valleys that extend well beyond what your eyes can see,
01:53:24craters 257 km wide,
01:53:27almost as large as the largest on Earth,
01:53:29and no life.
01:53:31The reasons for this are obvious.
01:53:33The immense distance that separates Pluto from the Sun
01:53:36is translated by glacial temperatures on this dwarf planet.
01:53:39This also guarantees you a trip of a few billion kilometers.
01:53:43In addition, this planet is smaller than the Moon.
01:53:46So there would be a lot of people very soon, if people started to live there.
01:53:50However, there is a reason that makes us think that life there would not be so improbable.
01:53:55The Sun has a known life span, and it is cut in cycles.
01:53:59In the past, our solar system was just a cloud of gas and dust.
01:54:03Following a gravitational collapse in the center of this cloud,
01:54:07gas and dust began to gather in specific and denser places.
01:54:13These gradually attracted more and more matter,
01:54:16and the phenomenon of conservation of the amount of movement
01:54:19caused all this mass to start spinning and warming up,
01:54:23causing immense pressure.
01:54:25Later, a disk similar to Saturn's rings appeared,
01:54:29but it was made up of very different substances.
01:54:32And in its center, there was the ball that finally became the Sun.
01:54:36A protostar is a young star that still accumulates mass,
01:54:40and it is exactly what the Sun was before the temperatures and pressure in its bosom burned its core.
01:54:46Millions of years later, it became this Sun that we see every day,
01:54:50but it will not remain in this state forever.
01:54:53It will warm up even more and eventually become bigger and denser,
01:54:58turning into a red giant.
01:55:01It could one day become big enough to swallow Venus and Mercury.
01:55:05There is a good chance that it will even swallow Earth.
01:55:08Even if it does not swallow our planet, the Sun could get close enough to touch us.
01:55:13If that happened, life on Earth would no longer be possible.
01:55:17But then, in just a few minutes, the Sun would lose about 40% of its mass
01:55:22and shrink about ten times its size.
01:55:25It would no longer be as bright or as hot as before.
01:55:28At that point, the Earth would have already been deserted.
01:55:31Its inhabitants may go on a space trip,
01:55:34or settle on another planet where life is possible,
01:55:37like on the exoplanet Kepler-62f,
01:55:40which, by the way, is even bigger than Earth.
01:55:43And during this time, Pluto will be changing.
01:55:46Before, all the resources were frozen inside the dwarf planet.
01:55:50Water, gases such as methane, carbon monoxide, and so on.
01:55:55But as the Sun would reach its peak of luminosity,
01:55:58Pluto would slowly warm up and abandon a large part of its mass
01:56:02in the vast expanse of space.
01:56:04At the same time, an atmosphere would form.
01:56:07If the atmosphere became thick enough, it would create favorable conditions for life.
01:56:12So, instead of going to live in spaceships,
01:56:15a small percentage of our population could go and settle in colonies on the dwarf planet.
01:56:20The temperature there is comfortable, a time to walk around in a T-shirt.
01:56:24It even looks a little bit like Earth.
01:56:27Water-filled canyons, beautiful fields with trees,
01:56:31plenty of space to run, and mineral water deposits in the ground,
01:56:35pure enough to be drunk.
01:56:37Pluto's rotations are different from Earth's.
01:56:40A day on Earth lasts 24 hours,
01:56:42and we sometimes feel like it's never going to end.
01:56:45But Pluto rotates on itself in 153 hours,
01:56:48which is 6 and a half days.
01:56:50After several hours without sleep, we are tired and our eyes turn red.
01:56:54This means that we will have to take several naps throughout the same day on Pluto.
01:56:58One year on Pluto is equivalent to 248 Earth years.
01:57:02Unless we find a technology that allows us to live that long,
01:57:06our total lifespan would be less than half a year on the dwarf planet.
01:57:10So, Pluto's houses may have to be equipped with cryogenic chambers.
01:57:15Every time you feel like dreaming for a long time,
01:57:17you'll jump in and wake up 50 days later on Pluto.
01:57:21On the dwarf planet, there will also be seas and beaches.
01:57:24So it will really look like a very small Earth, far from the real Earth.
01:57:29Pluto's food could be tastier.
01:57:32We could find a way to improve the taste of the ingredients
01:57:35and even try to grow them faster during our trip.
01:57:38You plant a carrot, and two days later, it is ready to integrate your salad.
01:57:43There could also be new ingredients for our salads on Pluto.
01:57:46Maybe mushrooms 2 meters high, never seen before.
01:57:50The animals we would take with us would be released in their new habitat,
01:57:54and over time, they would evolve and adapt to their environment.
01:57:58The jungle law could also change a bit.
01:58:01Lions may no longer be kings. Why not deer?
01:58:04With woods twice as big as before, and even with larger and stronger bodies too.
01:58:09Most of the animals that were already there lived underwater.
01:58:12But over time, amphibians will have started to move to the surface,
01:58:16just like on Earth, at the beginning of life.
01:58:19But Pluto could only be a temporary home.
01:58:22Once the Sun has reached its final phase, Pluto would become frozen again,
01:58:26and life would disappear.
01:58:28People would then have to try to find a planet in the golden loop area of another galaxy.
01:58:33The golden loop area means that a planet is at the right distance from a star similar to the Sun,
01:58:38with an ideal temperature for the water to remain liquid there.
01:58:42This is what scientists are looking for when they probe the universe
01:58:45in search of planets likely to welcome life.
01:58:48We could try to found new colonies on a planet of this type,
01:58:51or even, why not, create our own artificial home.
01:58:55Something between a planet and a spaceship, a combination of the two.
01:58:59A huge machine built directly in space.
01:59:02Let's say, a wheel with a gravity equal everywhere, so as not to fall.
01:59:06It would float in space towards a new exoplanet, capable of welcoming entire countries.
01:59:11All this travel, simply because the Sun would have grown too big first,
01:59:15and then, having reached the culminating point of its life cycle,
01:59:18it would have become a white dwarf.
01:59:20It would be quite a long journey, and entire generations would be born along the way.
01:59:25You would have the choice to sleep until humans finally reach their new exoplanet,
01:59:30or to enjoy the journey in this fantastic spaceship.
01:59:33There is everything you need on board.
01:59:35Larger shopping malls than those on Earth,
01:59:38large futuristic cities, and even places to cultivate the Earth.
01:59:42Fields with rich soil, artificially made.
01:59:45And finally, after a long journey, the exoplanet.
01:59:49It's even a little better than on Earth.
01:59:51The planet is giant and has even more continents.
01:59:54The center of the continents is not so far from the oceans,
01:59:57which means that there are not as many desert areas.
02:00:00Although the Sun of this planet is an orange dwarf,
02:00:03it is not as hot as our current Sun, a yellow dwarf.
02:00:06It is a little smaller, but here's the thing,
02:00:09the orange dwarfs live a little longer.
02:00:11They remain stable for 14 to 45 billion years.
02:00:15Despite this, this new planet is full of tropical forests because it is warmer.
02:00:20This means more biodiversity and creatures that we have never seen before.
02:00:25But if we decide that the conditions on this exoplanet do not suit us,
02:00:29we could always try terraforming.
02:00:31For example, on Mars, we could create a greenhouse effect
02:00:35by crushing comets rich in ice to release the ammonia they contain,
02:00:39which would make the planet warmer.
02:00:41We could also start planting trees.
02:00:43We would probably need a little bit of land from home to do that.
02:00:47Or we would have to modify Mars' soil to make it similar to ours.
02:00:51Sooner or later, the atmosphere would end up getting closer to the one we have on Earth.
02:00:56We would be able to breathe thanks to the trees.
02:00:58Then we could melt Mars' polar caps and here's some water.
02:01:02The problem is the winds and solar eruptions
02:01:05that could quickly, even very quickly,
02:01:07wipe out this precious atmosphere.
02:01:10Mars does not have a magnetosphere either,
02:01:12which means that we would not be able to protect it from radiation.
02:01:16So in the long run, this planet would not be a good choice.
02:01:19Maybe somewhere, in the vastness of space,
02:01:22there is a perfect planet waiting for us.
02:01:25The vast expanses of the universe contain an infinity of secrets and possibilities.
02:01:31And here is one of the most intriguing questions.
02:01:33What would life be like for us as humans on other planets?
02:01:38Imagine a world where the laws of physics,
02:01:40the conditions and the environment are so different from what we are used to.
02:01:45How would we evolve to adapt to these new strange lands?
02:01:50Let's see.
02:01:52Mercury is the planet closest to the sun and has a very fine atmosphere.
02:01:56The temperatures there are extreme,
02:01:58the day reaching more than 426 ° C
02:02:01and the night going down to less than 179 ° C.
02:02:07So what can we do to survive at these insane temperatures
02:02:10and constant solar radiation?
02:02:12We can maybe turn into metal as if by magic.
02:02:16Titanium and platinum, for example,
02:02:17perfectly withstand these high temperatures.
02:02:20But more seriously, there is a solution.
02:02:23We could settle underground,
02:02:25where the temperatures are not so extreme.
02:02:27If we lived underground,
02:02:29we could develop big eyes to better capture the light.
02:02:32We could also have a thicker skin to protect us from intense radiation.
02:02:37In fact, we have two options.
02:02:39Become Iron Man or become moles.
02:02:43Let's move on to Venus.
02:02:45This planet is extremely hostile.
02:02:47First of all, Venus is known for its thick atmosphere,
02:02:50more toxic than your ex.
02:02:53The whole planet is covered with carbon dioxide
02:02:56and its surface is completely dehydrated,
02:02:58which makes it incredibly suffocating.
02:03:00The average temperature there is about 452 ° C,
02:03:04which makes it one of the warmest planets in our solar system.
02:03:08Do not forget the incredible pressure that reigns there.
02:03:11Staying on Venus is like diving 920 meters underwater.
02:03:15Only the most resistant terrestrial microbes
02:03:18could survive in such conditions.
02:03:20So if you want to live on Venus,
02:03:22you may have to turn into a microbe.
02:03:24Unfortunately, as we are not microorganisms,
02:03:27we would have to wear special equipment to survive.
02:03:31Maybe we should develop an exoskeleton
02:03:34resistant to heat to protect us,
02:03:36as well as new lungs capable of filtering
02:03:38the toxic particles from this atmosphere.
02:03:41Let's talk about our favorite cousin, Mars.
02:03:45The first notable change, after a few hundred years,
02:03:48would be a new skeleton.
02:03:50Gravity on Mars is much weaker than on Earth,
02:03:53so your muscles and bones will tend to atrophy.
02:03:56To compensate for this difference, you will have to eat more
02:03:59and probably go to the gym.
02:04:01You will also have to adapt to low atmospheric pressure
02:04:03and colder temperatures.
02:04:05You need a way to keep the heat, right?
02:04:08This means that you will have to have a thicker layer of fat.
02:04:11Sorry, but on Mars, we risk gaining weight.
02:04:15One more reason to do sports.
02:04:17Another important change would occur at the skin level.
02:04:20Your skin is like a big barrier that protects you
02:04:22from discomforts such as bacteria, UV rays,
02:04:25or the fact of looking like a scorched monster.
02:04:28What would happen then?
02:04:30Well, you would probably turn orange,
02:04:33because of carotenoids.
02:04:35Carotenoids are a type of nutrient found in foods
02:04:38such as carrots, potatoes, tomatoes, etc.
02:04:42They protect very well against the ultraviolet rays of planet Mars.
02:04:46They have only one drawback.
02:04:48If you eat too many pumpkins grown on the spot,
02:04:51you will gradually turn orange.
02:04:53But it may not be so bad.
02:04:55Maybe life on Jupiter would be easier?
02:04:58Oh yes, surely.
02:04:59Except that there is no solid ground.
02:05:01This planet is composed of hydrogen and helium,
02:05:04and that's why it's called a gas giant.
02:05:06You would simply fall through huge clouds.
02:05:10And even if you managed to land and walk on something,
02:05:13it would be as if you were walking in a fog, cut with a knife.
02:05:16So how would we evolve there?
02:05:18First, our size could change to resist the immense pressure.
02:05:22Second, the fluctuations of temperature on Jupiter are enormous.
02:05:27The surface is terribly cold,
02:05:29and the temperature increases considerably
02:05:31under the outer layers of the atmosphere.
02:05:34Third, if you lived on Jupiter,
02:05:36there would be no oral language.
02:05:38This gas giant absorbs radio waves.
02:05:40So even if you spoke, no one could hear you.
02:05:43There would be no music either,
02:05:45so no party.
02:05:46What's the point then?
02:05:48Maybe we could communicate in sign language?
02:05:51But it's not that simple.
02:05:53Jupiter is perpetually agitated by violent winds and powerful storms,
02:05:56so it is unlikely that you can see anything there.
02:05:59Even if we evolve in one way or another,
02:06:01our life would not be really easy there.
02:06:04Before landing on Saturn,
02:06:06you will probably want to admire its emblematic rings closely.
02:06:09But unfortunately, this is impossible,
02:06:11because Saturn's rings are made up of a lot of ice particles floating in space.
02:06:15So it would be extremely difficult to land.
02:06:18So let's go straight to Saturn.
02:06:21At first glance, this planet doesn't seem so bad.
02:06:24Some layers of this gas giant have rather pleasant temperatures.
02:06:27If we dive deeper into the planet,
02:06:29it is even relatively hot,
02:06:31up to minus 3 degrees in its second layer.
02:06:35This is an average temperature in countries like Sweden and Canada.
02:06:39Unfortunately, this is only one of its many layers.
02:06:42The rest of the planet is incredibly cold.
02:06:45To survive on Saturn, we would have to make a lot of effort.
02:06:49In addition to the cold,
02:06:51we would have to accommodate the hostile environment of the planet,
02:06:54in particular its extreme storms, its violent winds and its radiation.
02:06:57To protect us from these conditions,
02:06:59we would still need to develop a resistant skin,
02:07:02isolation techniques, etc.
02:07:06The next planet is Uranus.
02:07:08The environment of Uranus is very different from that of Earth,
02:07:11with much colder temperatures,
02:07:13the absence of solid surfaces and a very different atmosphere.
02:07:16It's like another Jupiter, but in blue tones.
02:07:18But we could fall worse.
02:07:20There is even water on Uranus.
02:07:22The only problem is that the planet is full of ammonia,
02:07:24this radical product that we use for cleaning.
02:07:27So don't be surprised if you smell unbreathable.
02:07:30In addition, it is incredibly cold there,
02:07:32as if winter never ended.
02:07:34How to survive in such a dark and hostile environment?
02:07:37We would need a thicker skin
02:07:39to face these extreme temperatures.
02:07:42We would also need bigger eyes
02:07:44to see better in the dark.
02:07:46Finally, we could be led to develop a new auditory system,
02:07:49like that of dolphins.
02:07:50It would be pretty funny, wouldn't it?
02:07:52Let's move on to Neptune.
02:07:54If human beings were to evolve on Neptune,
02:07:56they would have to adapt to these difficult conditions.
02:07:59Neptune, the eighth planet furthest from the sun,
02:08:02is another gas giant.
02:08:04The only difference is that this planet
02:08:06could well have a solid core.
02:08:08If we were to live on Neptune,
02:08:10we would have no choice but to float
02:08:12or swim through its methane-rich atmosphere.
02:08:14We would also have to develop branches
02:08:16or a similar device to breathe.
02:08:18In fact, we would become either reptiles from space
02:08:20or cosmic fish.
02:08:22On Neptune, gravity is slightly higher than on Earth,
02:08:26but violent winds make it very difficult to stay in place.
02:08:29To resist the winds, we would have to be much heavier.
02:08:33Again, we would have to eat a lot and work out.
02:08:37Yes, yes, technically, this is not a planet,
02:08:40but we still love it and we can't leave it alone.
02:08:43A small, distant and incredibly cold world,
02:08:45Pluto is even smaller than our Moon.
02:08:48And for this reason, there is almost no gravity.
02:08:51It will therefore be very difficult to stand on it.
02:08:53To avoid accidentally flying into space while playing football,
02:08:56we would have to create machines simulating gravity.
02:08:59And if we don't want to have vertigo,
02:09:01we would have to develop a whole new nervous system.
02:09:04But Pluto could be worse.
02:09:06For example, there is liquid water under its surface
02:09:08and even a few frozen mountains.
02:09:10It might be possible to survive there
02:09:12if we had adequate equipment,
02:09:14clothes, supplies and...
02:09:16No, forget it, life is too complicated.
02:09:19Whatever the temperature of Mercury
02:09:21or the ice temperature of Neptune,
02:09:23each planet presents a unique set of environmental challenges
02:09:26and opportunities for evolution.
02:09:28Even if we will never really know
02:09:30what humans would look like on these other worlds,
02:09:33it is exciting to consider the infinite possibilities that are offered to us.
02:09:36Let's never stop looking towards the stars
02:09:38and asking ourselves such questions.
02:09:41On January 7, 1610,
02:09:43the famous Italian astronomer,
02:09:45Galileo Galilei,
02:09:47made an amazing discovery
02:09:49using his homemade telescope.
02:09:51Four moons in orbit around Jupiter.
02:09:55Nowadays, you can make your own version of your telescope
02:09:59using cardboard tubes,
02:10:01lenses and superglue.
02:10:03The principle of this telescope
02:10:05is to place two lenses
02:10:07at the right distance from each other.
02:10:09You will need two lenses,
02:10:11a concave and a convex.
02:10:13In other words, one curved inward
02:10:15and the other outward.
02:10:17Galilei's first telescope
02:10:19was able to magnify objects
02:10:21about eight times.
02:10:23He continued to improve it
02:10:25until it reached a magnification factor of about 20.
02:10:27But let's go back to the main story.
02:10:29When he first saw
02:10:31these four moons of Jupiter,
02:10:33he thought he was just looking at a pile of stars.
02:10:36But he quickly noticed
02:10:38that these space objects
02:10:40seemed to move along a regular pattern.
02:10:42It took him a few weeks
02:10:44to understand that what he was seeing
02:10:46were not stars,
02:10:48but moons orbiting Jupiter.
02:10:50Galilei first named his moons
02:10:521, 2, 3 and 4.
02:10:54But let's be honest,
02:10:56these were not the most creative names.
02:10:58As other moons of our galaxy
02:11:00were discovered later,
02:11:02the numerical system to name them
02:11:04became confused and impractical.
02:11:06And it only lasted a few centuries.
02:11:08Nowadays,
02:11:10these four largest satellites of Jupiter
02:11:12are called Io,
02:11:14Europa,
02:11:16Ganymede and Callisto.
02:11:18They are collectively called
02:11:20the Galilean moons,
02:11:22in honor of the man
02:11:24who noticed them first.
02:11:26Galilei's discovery was crucial
02:11:28for our further understanding
02:11:30of astronomy.
02:11:32At first,
02:11:34we thought that other objects
02:11:36were orbiting the Earth
02:11:38because it was considered
02:11:40as the center of the Universe.
02:11:42We often refer to large moons
02:11:44as those discovered by Galilei.
02:11:46A moon is considered large
02:11:48when it is the size of our planet,
02:11:50or even larger.
02:11:52Ganymede, for example,
02:11:54is larger than Mercury.
02:11:56In fact, we call Ganymede a moon
02:11:58simply because it orbits Jupiter.
02:12:00Otherwise,
02:12:02it has all the other characteristics
02:12:04of a planet.
02:12:06It is no surprise that Jupiter
02:12:08is the largest moon in the Solar System.
02:12:10It passes through all the other planets
02:12:12in size and mass.
02:12:14It is therefore not surprising
02:12:16that it has attracted many other objects.
02:12:18We think that Jupiter has
02:12:20a total of nearly 80 moons,
02:12:22of which only 53 have received
02:12:24an official name to this day.
02:12:26The first of these Jupiterian moons
02:12:28to be discovered by Galilei
02:12:30was Io.
02:12:32What distinguishes it is that it has many volcanoes.
02:12:34Io is the only space object
02:12:36to have active volcanoes
02:12:38on Earth.
02:12:40It is also nicknamed
02:12:42the moon of fire and ice
02:12:44because of its snowfields
02:12:46composed of sulfur dioxide.
02:12:48The outer layer of Io
02:12:50is stained with multiple colors
02:12:52like orange, black, yellow,
02:12:54white and red.
02:12:56This is probably the reason
02:12:58why NASA described it
02:13:00as a giant pizza
02:13:02covered in melted cheese
02:13:04and splashes of tomato and olive oil.
02:13:06When discovered, Io does not smell very good.
02:13:08It smells like a rotten egg.
02:13:10There are more than 100 mountains
02:13:12on the surface of this moon
02:13:14and they are much larger
02:13:16than those we see on Earth.
02:13:18Some are even higher than Everest.
02:13:20On average, these mountain ranges
02:13:22measure 6,000 meters high
02:13:24and 157 kilometers long.
02:13:26Because of these active volcanoes
02:13:28and intense radiation on Io,
02:13:30there is little chance that life
02:13:32as we know it can exist here.
02:13:34But who can say
02:13:36that there can not be another form of life?
02:13:38The next moon on the list
02:13:40of the Galilean moons
02:13:42is Europe, the smallest of the four.
02:13:44Its size is comparable
02:13:46to that of our own moon.
02:13:48Europe has an entirely icy surface
02:13:50with just a few craters
02:13:52scattered here and there.
02:13:54Thanks to this outer layer,
02:13:56Europe is very reflective,
02:13:58making it one of the brightest moons.
02:14:00As for its age,
02:14:02it is estimated that its surface
02:14:04is between 20 and 180 million years old,
02:14:06while the moon itself
02:14:08is about 4.5 billion years old.
02:14:10What is hidden under this icy surface
02:14:12is impressive.
02:14:14It could even hold the secret
02:14:16of life outside the Earth.
02:14:18Ice is formed here in two ways.
02:14:20The first is freezing,
02:14:22a rather explicit process.
02:14:24Ice simply grows
02:14:26as the surrounding environment
02:14:28becomes colder and colder.
02:14:30The other method
02:14:32is much more fascinating.
02:14:34An overmelted layer of water
02:14:36under the ice envelope
02:14:38reacts when it is shaken.
02:14:40It then generates crystals
02:14:42that give the impression
02:14:44that it is snowing upside down,
02:14:46floating up to the layer of ice
02:14:48under which it is.
02:14:50You can recreate this environment
02:14:52yourself at home.
02:14:54Take a bottle of purified water
02:14:56and put it in the freezer.
02:14:58It will help you get rid
02:15:00of as much impurity as possible.
02:15:02As there will be no particles inside,
02:15:04once in the freezer,
02:15:06it will not become solid.
02:15:08But if you then take out
02:15:10the bottle from the freezer
02:15:12and shake it,
02:15:14the impact will quickly crystallize the water,
02:15:16giving it a consistency
02:15:18similar to melted snow.
02:15:20There may be water on Europe,
02:15:22but so far there is little evidence
02:15:24that life exists on this moon.
02:15:26It is one of the best candidates
02:15:28of the Solar System for potential
02:15:30habitability.
02:15:32Some forms of life could adapt
02:15:34to live in its ocean under the ice.
02:15:36This environment is very likely
02:15:38similar to the one found
02:15:40in the hydrothermal vents of our planet,
02:15:42hidden at the bottom of our oceans.
02:15:44The amount of oxygen
02:15:46in the atmosphere of Europe
02:15:48is very low, but in 2013,
02:15:50NASA found promising clues
02:15:52that support the theory
02:15:54that there is a potential
02:15:56for life on this moon.
02:15:58Indeed, it seems that Europe
02:16:00could eject water into space.
02:16:02If this is confirmed by future observations,
02:16:04it could also mean
02:16:06that Europe is geologically active.
02:16:08It could also be useful
02:16:10if we one day
02:16:12manage to study the sources of water.
02:16:14The largest of the Galilean moons
02:16:16is Ganymede.
02:16:18It is also the largest moon
02:16:20of our Solar System.
02:16:22It is a low-density
02:16:24space object whose size is similar
02:16:26to that of Mercury, but which
02:16:28represents only half of its mass.
02:16:30However, Ganymede is the only
02:16:32moon to have its own magnetic field.
02:16:34However, it is quite weak
02:16:36and we can barely notice it
02:16:38from Earth, because it is
02:16:40eclipsed by Jupiter's much more
02:16:42powerful magnetic field.
02:16:44Another interesting aspect of Ganymede
02:16:46is that its atmosphere contains
02:16:48oxygen.
02:16:50If we don't talk too much,
02:16:52it is far from enough
02:16:54for life forms to proliferate there.
02:16:56In December 2021,
02:16:58a 50-second audio clip
02:17:00was published.
02:17:02It was recorded by NASA's probe
02:17:04during its Ganymede flight.
02:17:06For the uninitiated,
02:17:08the sounds were more like
02:17:10those of an old Internet connection.
02:17:12But because of its eccentric airs,
02:17:14Ganymede was quickly nicknamed
02:17:16Jupiter's singing moon.
02:17:18To sum up the list of Galilean moons,
02:17:20we find Callisto,
02:17:22the most heavily cratered object
02:17:24in our solar system.
02:17:26What is interesting about this moon
02:17:28is that its landscape has barely
02:17:30changed since its formation,
02:17:32and scientists are still debating
02:17:34the reason for this phenomenon.
02:17:36Most other space objects undergo
02:17:38a lot of changes throughout their lives,
02:17:40due to events such as collisions
02:17:42with other objects,
02:17:44orientation or speed changes,
02:17:46or chemical reactions
02:17:48that occur on their surface.
02:17:50Callisto is also about the size
02:17:52of Mercury, but its density
02:17:54is also lower.
02:17:56Jupiter's magnetic field
02:17:58has less impact on Callisto
02:18:00because it is the farthest
02:18:02from the gas giant.
02:18:04It is estimated that its surface
02:18:06has a staggering age of 4 billion years.
02:18:08Unlike Io,
02:18:10Callisto is not geologically active,
02:18:12but scientists think
02:18:14that a gas giant could hide
02:18:16under its surface,
02:18:18which could potentially
02:18:20shelter life.
02:18:22The fact that it is less affected
02:18:24by Jupiter's magnetic field
02:18:26means that it has lower
02:18:28radiation levels.
02:18:30Given this appropriate environment,
02:18:32we may one day install
02:18:34a human base there
02:18:36for future exploration.

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