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Kurzgesagt – In a Nutshell, The Black Hole That Kills Galaxies

The Black Hole That Kills Galaxies

The universe looks like a vast empty ocean sprinkled with the rare islands of galaxies..

But this is an illusion. Just a small fraction of all atoms are found in galaxies,

while the rest is thought to be drifting in between, in the intergalactic medium.

Like the roots of some massive tree, gas spreads out from each galaxy,

gravity funneling fresh mass into this dense, cosmic forest.

Here in the intergalactic medium, are the raw materials of creation: hydrogen and helium,

woven into sheets and filaments that flow into galaxies where they eventually create stars.

But if we look closely, we see who is actually in charge: Quasars, the single most powerful objects

in existence. As small as a grain of sand compared to the amazon river, they reside in the centers

of some galaxies, shining with the power of a trillion stars, blasting out huge jets of matter,

completely reshaping the cosmos around them. They are so powerful that they can kill a galaxy.

What are they, and how do they mold the structure of the universe at their whim?

Everywhere You Look, Weird Things in the Sky

In the 1950s astronomers noticed mysterious loud radio-waves coming from spots all over

the sky. They were named “quasi-stellar radio sources”, or “quasars” because they

were dots like stars, but were seen in radio waves rather than visible light.

Everything about them was strange. Some flickered, others emitted high energy X-rays in addition to

radio waves, but all seemed to be tiny. They also moved extremely fast, as much as over 30%

the speed of light. The only explanation was that they must have been so distant that their

apparent speed was actually the expansion of the universe moving them away from us.

But these enormous distances meant that quasars couldn't just be stars, but the active cores of

galaxies billions of lightyears away! And it gets crazier. To appear so bright and loud,

given these vast distances, they are thousands of times brighter than the entire Milky Way.

Monsters, exploding and screaming into the void with a violence not thought possible before.

As we mapped the sky, we discovered over a million quasars. And they all seemed to be very far away.

Looking into space, far away means very long ago, because their light takes so

long to reach us. Quasars were common in the early universe, having peaked

in number 10 billion years ago when galaxies, and the universe itself was still very young.

Let's go back in time, just 3 billion years after the big bang and see what was going on back then.

The Incredible Power of Quasars

How could an early baby galaxy be so incredibly bright and violent?

All that light and radiation couldn't be stars, as there weren't nearly enough of

them. And since galaxies tend to grow with time by merging,

the starlight from small galaxies shouldn't be far brighter than any galaxy today.

There's only one way to generate the vast amounts of energy a quasar shines with:

feeding supermassive black holes. We still don't know how exactly they formed,

but it seems that every galaxy has one in their center.

But how can the brightest things in the universe be black holes,

which trap anything and everything that crosses their event horizon?

Well the light of a quasar is not coming from inside these black holes. Rather,

it comes from the space around them, a massive orbiting disk of gas called an ‘accretion disk.'

Quasars use the same fuel as stars to shine: Matter. It is just that black holes are the

most efficient engines for converting matter into energy in the universe.

The energy released by matter falling into a black hole can be 60 times

greater than that released by nuclear fusion in the core of a star. Because

the energy released by a black hole comes from gravity, not from nuclear reactions.

Matter falling into a black hole speeds up to almost the speed of light before it crosses

the event horizon, buzzing with an incredible amount of kinetic energy. Of course, once inside

the black hole, it takes that energy with it. You only get to witness this energy if you drop your

matter in the right way. Fall straight down and the outside universe gets nothing. But when you

have a lot of matter, it spirals in incredibly fast towards the event horizon forming a disk.

Collisions between particles and friction heat it up to hundreds of thousands of degrees.

In a space not much bigger than our solar system,

the core of a galaxy can release many times more energy than all its stars combined.

This is what a quasar is, a super massive black hole having a feast.

And these black holes eat a lot. Typical quasars consume one to a hundred Earth masses

of gas per minute! Ten billion years ago, the universe was about a third of its current size,

so the intergalactic medium was much less spread out, meaning the filaments of gas

around quasars could feed them a banquet, making them vomit insane amounts of light and radiation.

The brightest quasars power jets, tangling the magnetic field of the matter around them into

a narrow cone. Like a particle accelerator they launch enormous beams of matter out,

plowing through the circumgalactic medium, forming plumes of matter that grow to hundreds

of thousands of lightyears in size. It's almost unfathomable in scale. A tiny spot

in a galaxy carving out patches of the universe 100,000s of light years long.

But quasars can't eat for long, maybe a few million years,

because their feast ultimately kills their galaxy.

How Quasars Kill Galaxies

Okay, maybe “killing” is a bit of an exaggeration. A galaxy is still there after its quasar turns

off. But it will never be the same again. Quasars, being among the hottest and brightest things in

the universe, break their galaxies by heating them up too much and stopping star formation.

Hot gas cannot form stars. This sounds odd, because Stars are gas that collapsed in

on itself and then got really hot. But in a cloud of gas that is already hot,

atoms are moving quickly. When they collide, they hit hard, exerting pressure that resists

gravity's squeeze – so hot gas can't form stars. Instead, the best gas for

forming stars is already cold, and won't put up a fight when it's time to collapse into a star.

On top of that, quasars push gas out of their galaxies. Not only does this starve

the quasar, but its galaxy loses the raw materials for new stars.

As sad as this sounds, it might be a good thing for life. The alternative

can be far more dangerous: too many stars. New stars forming is usually followed by

massive stars exploding in supernovae, so planets would be burned sterile.

But of course it's more complicated. Like the intricacies of our own planet's biosphere,

every piece of the galaxy is dependent on and influencing every other part of the galactic

environment. While hot things, like quasars and supernovae, tend to push gas out of the galaxy,

shockwaves and quasar jets can also compress gas, making new stars at least for a short

time. And gas that leaves will mix with gas coming back in and recycle it back into the galaxy. But

in general we can say that without things becoming a bit more chill,

we would not exist today. Which brings us to our final question:

Did the Milky Way Have a Quasar in the Past?

It's unclear if every galaxy went through a quasar phase, but understanding distant quasars

may provide clues to the history of the Milky Way. Galaxies don't do a good job of preserving

their history. Like sand on a beach the endless churning mixes away the clues to their past.

It's possible the Milky Way was once a quasar,

which may have allowed our supermassive black hole Sagittarius A star to have

grown to 4 million times the mass of the sun. But sadly we don't know its ancient history.

And as dormant as it is now, Sagittarius A star could turn into a quasar in the future. In a few

billion years the Milky Way will merge with Andromeda. We've seen over a hundred ‘double

quasars' in galaxies smashing together, where fresh gas is provided for the central black holes.

But it won't last for long. When galaxies merge, so do their super massive black holes,

sinking into the center of their new galaxy, kicking up dust and stars in every direction.

We don't know whether this will happen, but it would truly be an incredible sight. Maybe

some beings in the far future are going to witness it and be in awe of what they see.

But you don't have to wait that long. There are already plenty of fascinating things to

explore right here on this planet, right now – if you have the knowledge to understand them.

To help you with that, we've created a series of lessons to take your scientific knowledge to the

next level. Made in collaboration with our friends at Brilliant.org, these lessons give you a deeper

understanding of the topics from our most popular videos, from rabies and mammalian metabolism,

to climate science. There's also a lesson on black holes, where you can delve into the

fundamental principles behind their formation and behavior. A deeper understanding will also

help you appreciate their role in powering the quasars we talked about in this video.

Brilliant is an interactive learning tool that makes math, science, and computer

science accessible with a hands-on approach. Because we know that to really learn something,

you've got to do it. Think of each lesson as a one-on-one tutoring version of a Kurzgesagt video.

Brilliant has thousands of other lessons to explore, as well—from

math-based topics like algebra and probability to courses around programming and data science.Their

latest course, “How Technology Works,” takes you inside the technology you use everyday. You'll

walk in the footsteps of a hacker to discover why some passwords take decades to crack,

explore how satellites in space know that your ride share driver is just down the street,

learn why your favorite Kurzgesagt video might buffer on YouTube, and more.

To get hands-on with Kurzgesagt lessons and explore everything Brilliant has to offer,

you can start your free, 30-day trial by signing up at Brilliant.org/nutshell.

There's even an extra perk for Kurzgesagt viewers:

the first 200 people to use the link get 20% off an annual membership once their trial ends.

We love seeing how the gears interlock with our research – Brilliant gives you

the tools to understand how everything fits together.

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The Black Hole That Kills Galaxies |||||Galaxies Das Schwarze Loch, das Galaxien tötet Η μαύρη τρύπα που σκοτώνει τους γαλαξίες El agujero negro que mata galaxias Le trou noir qui tue les galaxies Il buco nero che uccide le galassie 銀河を殺すブラックホール 은하를 죽이는 블랙홀 Juodoji skylė, kuri žudo galaktikas Het zwarte gat dat sterrenstelsels doodt Czarna dziura, która zabija galaktyki O buraco negro que mata as galáxias Черная дыра, которая убивает галактики Galaksileri Öldüren Kara Delik Чорна діра, яка вбиває галактики 杀死星系的黑洞 殺死星系的黑洞

The universe looks like a vast empty ocean  sprinkled with the rare islands of galaxies.. ||||||||點綴著|||||| ||||||||dotted with|||||| |||||sonsuz||okyanus|serpiştirilmiş|||nadir||| ||||||||点缀|||||| The universe looks like a vast empty ocean sprinkled with the rare islands of galaxies..

But this is an illusion. Just a small  fraction of all atoms are found in galaxies, ||||||||fraction||||||| ||||||||kesir||||||| Doch das ist eine Illusion. Nur ein kleiner Bruchteil aller Atome befindet sich in Galaxien, But this is an illusion. Just a small fraction of all atoms are found in galaxies,

while the rest is thought to be drifting  in between, in the intergalactic medium. |||||||plovoucí|||||| ||||||||||||星際間的| |||||||drifting|||||intergalactic| |||||||süzülmekte|||||galaksalar arası| В то время как остальная часть, как предполагается, дрейфует между ними в межгалактической среде.

Like the roots of some massive tree,  gas spreads out from each galaxy, ||||||||||||galaxy

gravity funneling fresh mass  into this dense, cosmic forest. |引導||||||| gravity|funneling|||||dense|cosmic| ağırlık|kanalize etme||kütle|||yoğun|| |引导|||||||

Here in the intergalactic medium, are the raw  materials of creation: hydrogen and helium, |||||||||||||氦氣 |||||||raw||||hydrogen||light noble gas |||||||ham||||hidrojen||helyum Здесь, в межгалактической среде, находится сырье для сотворения мира: водород и гелий,

woven into sheets and filaments that flow into  galaxies where they eventually create stars. tkané||||vlákna||||||||| ||||絲狀結構||||||||| interlaced||sheets||filaments|||||||eventually|| örülen||||iplikler|||||||sonunda|| ||||丝状物||||||||| zu Bahnen und Fäden verwoben, die in Galaxien fließen, wo sie schließlich Sterne bilden. сплетаются в листы и нити, которые стекаются в галактики, где в итоге образуются звезды.

But if we look closely, we see who is actually in  charge: Quasars, the single most powerful objects ||||||||||||類星體||||| ||||closely||||||||Powerful cosmic entities||||| ||||||||||||Kuasarlar||||| ||||||||||||类星体||||| Aber wenn wir genau hinschauen, sehen wir, wer tatsächlich das Sagen hat: Quasare, die mächtigsten Objekte

in existence. As small as a grain of sand compared  to the amazon river, they reside in the centers ||||||zrnko|||||||||se nacházejí||| |existence|||||||||||Amazon|||are located|||centers ||||||tanesi||kum|karşılaştırıldığında||||||yaşarlar|||

of some galaxies, shining with the power of a  trillion stars, blasting out huge jets of matter, |||||||||||喷射||||| |||||||||||ejecting forcefully||||| ||||||||||||||jetler||

completely reshaping the cosmos around them.  They are so powerful that they can kill a galaxy. |||宇宙萬物|||||||||||| |reshaping|||||||||||||| |şekil vermek||||||||||||||

What are they, and how do they mold the  structure of the universe at their whim? ||||||oni|formují||||||||svévoli |||||||||||||||隨心所欲 |||||||mold||||||||at their desire |||||||şekil veriyorlar||||||||isteğine

Everywhere You Look, Weird Things in the Sky

In the 1950s astronomers noticed mysterious  loud radio-waves coming from spots all over |||天文學家|||||||||| |||||mysterious|||||||| |||||||||||noktalar||

the sky. They were named “quasi-stellar  radio sources”, or “quasars” because they ||||||hvězdné|||||| |||||quasi|stellar||||quasars|| |||||quasar|stelar|||||| на небе. Они были названы "квазизвездными радиоисточниками", или "квазарами", поскольку они

were dots like stars, but were seen in  radio waves rather than visible light. |noktalardı|||||||||daha çok|||

Everything about them was strange. Some flickered,  others emitted high energy X-rays in addition to ||||||blikalo||||||||| ||||||閃爍著||||||||| ||||||glowed intermittently||emitted||||||| ||||||parladı||yaydı|||||||

radio waves, but all seemed to be tiny. They  also moved extremely fast, as much as over 30% |||||||||||very|||||

the speed of light. The only explanation was  that they must have been so distant that their ||||||explanation|||||||||| ||||||||||||||uzak||

apparent speed was actually the expansion  of the universe moving them away from us. apparent||||||||||||| кажущаяся скорость на самом деле обусловлена расширением Вселенной, удаляющей их от нас.

But these enormous distances meant that quasars  couldn't just be stars, but the active cores of ale||||||||||||||| ||enormous||||||||||||cores| ||muazzam|mesafeler|||||||||||çekirdekleri|

galaxies billions of lightyears away! And it  gets crazier. To appear so bright and loud, ||||||||||vypadat|||| |||ışık yılı|||||daha çılgın||||||

given these vast distances, they are thousands  of times brighter than the entire Milky Way. ||||||||||||entire|Milky|

Monsters, exploding and screaming into the void  with a violence not thought possible before. |exploding||||||||violence||||

As we mapped the sky, we discovered over a million  quasars. And they all seemed to be very far away. ||mapped|||||||||||||||||

Looking into space, far away means very  long ago, because their light takes so

long to reach us. Quasars were common  in the early universe, having peaked ||||||||||universe||peaked ||||||||||||ulaştı. Kuasarlar erken evrende yaygındı, zirveye ulaştı

in number 10 billion years ago when galaxies,  and the universe itself was still very young.

Let's go back in time, just 3 billion years after  the big bang and see what was going on back then.

The Incredible Power of Quasars |Incredible|||

How could an early baby galaxy be  so incredibly bright and violent? |||||||||jasná||

All that light and radiation couldn't be  stars, as there weren't nearly enough of ||||radiation||||||were not|||

them. And since galaxies tend  to grow with time by merging, ||||tend||||||merging

the starlight from small galaxies shouldn't  be far brighter than any galaxy today. |星光||||||||||| |starlight||||shouldn't||||||| |星光|||||||||||

There's only one way to generate the vast  amounts of energy a quasar shines with: |||||generate|||||||distant active galaxy||

feeding supermassive black holes. We  still don't know how exactly they formed, |supermassive||||||||||formed

but it seems that every galaxy  has one in their center.

But how can the brightest things  in the universe be black holes,

which trap anything and everything  that crosses their event horizon? |||||||||horizon ||||||||olay|ufuk

Well the light of a quasar is not coming  from inside these black holes. Rather, ||||||||||||||spíše |||||類星體|||||||||

it comes from the space around them, a massive  orbiting disk of gas called an ‘accretion disk.' |||||||||||||||吸積盤| |||||||||||||||growth by accumulation|

Quasars use the same fuel as stars to shine:  Matter. It is just that black holes are the |||||||||matter||||||||

most efficient engines for converting  matter into energy in the universe.

The energy released by matter falling  into a black hole can be 60 times

greater than that released by nuclear  fusion in the core of a star. Because больше, чем при ядерном синтезе в ядре звезды. Поскольку

the energy released by a black hole comes  from gravity, not from nuclear reactions.

Matter falling into a black hole speeds up to  almost the speed of light before it crosses

the event horizon, buzzing with an incredible  amount of kinetic energy. Of course, once inside |||||||||動能的||||| горизонт событий, гудящий от невероятного количества кинетической энергии. Конечно, оказавшись внутри

the black hole, it takes that energy with it. You  only get to witness this energy if you drop your |||||||||||||見證||||||

matter in the right way. Fall straight down and  the outside universe gets nothing. But when you

have a lot of matter, it spirals in incredibly  fast towards the event horizon forming a disk.

Collisions between particles and friction heat  it up to hundreds of thousands of degrees. ||粒子||摩擦力|||||||||

In a space not much bigger than our solar system,

the core of a galaxy can release many times  more energy than all its stars combined.

This is what a quasar is, a super  massive black hole having a feast. |||||||||||||盛宴

And these black holes eat a lot. Typical  quasars consume one to a hundred Earth masses

of gas per minute! Ten billion years ago, the  universe was about a third of its current size,

so the intergalactic medium was much less  spread out, meaning the filaments of gas поэтому межгалактическая среда была гораздо менее распределена, то есть нити газа

around quasars could feed them a banquet, making  them vomit insane amounts of light and radiation. ||||||饗宴|||嘔吐出||||||

The brightest quasars power jets, tangling the  magnetic field of the matter around them into |||||zamotávající||||||||| |||||纏繞著||||||||| |||||twisting up||||||||| |||||缠绕||||||||| Самые яркие квазары обладают джетами, запутывающими магнитное поле окружающей их материи в

a narrow cone. Like a particle accelerator  they launch enormous beams of matter out, a(1) úzký kužel|úzký|||||||||paprsky||| ||錐形體||||||||||| ||narrow beam shape|||||||||||

plowing through the circumgalactic medium,  forming plumes of matter that grow to hundreds procházení|||obklopující galaxii|||proudy|||||| 穿越|||環星系的||||||||| Moving through forcefully|||around the galaxy|||Streams of matter|||||| 穿过|||环星系的||||||||| проникая в окологалактическую среду, образуя шлейфы вещества, которые вырастают до сотен

of thousands of lightyears in size. It's  almost unfathomable in scale. A tiny spot

in a galaxy carving out patches of the  universe 100,000s of light years long. в галактике, вырезающей участки Вселенной длиной в 100 000 световых лет.

But quasars can't eat for long,  maybe a few million years,

because their feast ultimately kills their galaxy.

How Quasars Kill Galaxies

Okay, maybe “killing” is a bit of an exaggeration.  A galaxy is still there after its quasar turns ||||||||přehánění|||||||||

off. But it will never be the same again. Quasars,  being among the hottest and brightest things in

the universe, break their galaxies by heating  them up too much and stopping star formation.

Hot gas cannot form stars. This sounds odd,  because Stars are gas that collapsed in

on itself and then got really hot. But  in a cloud of gas that is already hot,

atoms are moving quickly. When they collide,  they hit hard, exerting pressure that resists ||||||narážejí||||vyvíjející tlak||| ||||||碰撞||||施加||| ||||||||||施加|||抵抗 атомы движутся быстро. При столкновении они сильно ударяются, оказывая давление, которое противодействует

gravity's squeeze – so hot gas can't  form stars. Instead, the best gas for ||||||||Místo toho|||| 引力的|||||||||||| |compressive force|||||||||||

forming stars is already cold, and won't put up  a fight when it's time to collapse into a star.

On top of that, quasars push gas out of  their galaxies. Not only does this starve |||||||||||||||hladoví

the quasar, but its galaxy loses  the raw materials for new stars.

As sad as this sounds, it might be a  good thing for life. The alternative

can be far more dangerous: too many stars.  New stars forming is usually followed by

massive stars exploding in supernovae,  so planets would be burned sterile. ||||supernovách|||||| ||||||||||無菌的

But of course it's more complicated. Like the  intricacies of our own planet's biosphere, ||||||||složitosti||||| ||||||||複雜性|||||生物圈

every piece of the galaxy is dependent on and  influencing every other part of the galactic ||||||závislá|||||||||

environment. While hot things, like quasars and  supernovae, tend to push gas out of the galaxy,

shockwaves and quasar jets can also compress  gas, making new stars at least for a short šokové vlny||||||stlačit||||||||| ||||||压缩|||||||||

time. And gas that leaves will mix with gas coming  back in and recycle it back into the galaxy. But

in general we can say that without  things becoming a bit more chill,

we would not exist today. Which  brings us to our final question:

Did the Milky Way Have a Quasar in the Past?

It's unclear if every galaxy went through a  quasar phase, but understanding distant quasars

may provide clues to the history of the Milky  Way. Galaxies don't do a good job of preserving ||nápovědy|||||||||||||||uchovávání

their history. Like sand on a beach the endless  churning mixes away the clues to their past. |||||||ta||míchání||||||| |||||||||翻攪||||||| |||||||||constant movement|||||||

It's possible the Milky Way was once a quasar,

which may have allowed our supermassive  black hole Sagittarius A star to have ||||||||Střelec A|||| ||||||||Sagittarius A*||||

grown to 4 million times the mass of the sun.  But sadly we don't know its ancient history.

And as dormant as it is now, Sagittarius A star  could turn into a quasar in the future. In a few ||nečinná|||||||||||||||||| ||休眠的|||||||||||||||||| ||inactive||||||||||||||||||

billion years the Milky Way will merge with  Andromeda. We've seen over a hundred ‘double ||||||||Andromeda|||více než|||

quasars' in galaxies smashing together, where  fresh gas is provided for the central black holes.

But it won't last for long. When galaxies  merge, so do their super massive black holes, Ale|||||||||||||||

sinking into the center of their new galaxy,  kicking up dust and stars in every direction. опускается в центр своей новой галактики, разбрасывая во все стороны пыль и звезды.

We don't know whether this will happen, but  it would truly be an incredible sight. Maybe ||||||||||||||pohled|

some beings in the far future are going to  witness it and be in awe of what they see. ||||||||||||||úžasu|||| ||||||||||||||amazed by|||| некие существа в далеком будущем станут свидетелями этого и будут в восторге от увиденного.

But you don't have to wait that long. There  are already plenty of fascinating things to

explore right here on this planet, right now –  if you have the knowledge to understand them.

To help you with that, we've created a series of  lessons to take your scientific knowledge to the

next level. Made in collaboration with our friends  at Brilliant.org, these lessons give you a deeper

understanding of the topics from our most popular  videos, from rabies and mammalian metabolism, ||||||||||||mammální metabolismus|

to climate science. There's also a lesson  on black holes, where you can delve into the

fundamental principles behind their formation  and behavior. A deeper understanding will also

help you appreciate their role in powering  the quasars we talked about in this video.

Brilliant is an interactive learning tool  that makes math, science, and computer

science accessible with a hands-on approach.  Because we know that to really learn something,

you've got to do it. Think of each lesson as a  one-on-one tutoring version of a Kurzgesagt video.

Brilliant has thousands of other  lessons to explore, as well—from

math-based topics like algebra and probability to  courses around programming and data science.Their

latest course, “How Technology Works,” takes you  inside the technology you use everyday. You'll

walk in the footsteps of a hacker to discover  why some passwords take decades to crack, ||||||駭客|||||||||

explore how satellites in space know that your  ride share driver is just down the street,

learn why your favorite Kurzgesagt  video might buffer on YouTube, and more. |||||||zasekávat se|||| узнайте, почему ваше любимое видео Kurzgesagt может буферизироваться на YouTube, и многое другое.

To get hands-on with Kurzgesagt lessons and  explore everything Brilliant has to offer,

you can start your free, 30-day trial  by signing up at Brilliant.org/nutshell.

There's even an extra perk for Kurzgesagt viewers: ||||výhoda||| ||||additional benefit|||

the first 200 people to use the link get 20%  off an annual membership once their trial ends.

We love seeing how the gears interlock  with our research – Brilliant gives you ||||||zapadají|||||| |||||齿轮啮合|啮合|||||| Нам нравится наблюдать, как шестеренки сцепляются с нашими исследованиями - Brilliant дает вам

the tools to understand how  everything fits together.

We know you've been waiting for a long time.  Let's reveal the next Limited Edition Pin: |||||||||||||||Pin(1) |||||||||||||||collectible badge

It's the Dyson Sphere. This very special pin set  represents our dream for the future of humanity. ||戴森球|||||||||||||| ||Futuristic energy structure|Sphere|||||||||||||

Charge it with energy from the sun and it will  glow in the dark. Pre-order is available for ||||||||||发光|||||||| ||||||||||||||Pre|order||available|

only 72h, so order now before time runs out. The  next limited edition pin will be revealed soon. ||||||||||||||||odhalena|