Black Hole Size Comparison [4K] | 3d Universe Size Comparison Animation Comparison | DataPlayz
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- Опубликовано: 12 окт 2023
- DataPlayz Black Hole Size Comparison | 3d Animation Comparison | Real Scale Comparison
In this video we made comparison of real scale Black Hole 3d animation.
#blackhole #comparison #3danimation #3d
Items Credit:
tinyurl.com/mvmk697t
5:50 *Phoenix A, Sorry Guys :)
Bro u accidently wrote Pheonix A* but from walmart 💀💀💀💀😂
Bro u put phonics A (*not trying to be rude*)
Awesome video bro. I didn’t know they could get that small!
What’s the name of the second song starting at 3:30
The song?
Edit: super ez
I'm
What many people may not notice are the solar masses (SM) of each black hole. The smallest one is 3 SM, meaning it has the mass of 3 of our suns even though it’s a tiny diameter (relatively speaking).
Exactly 💯
Thank you ❤️
Fr the smallest ones may look small but they still contain the mass of our solar system 😂
Also that the sizes of the black holes are really the sizes of it's gravitational shadow....not the object itself.
Everyone noticed it. It’s right there. 😂
That small one actualy is a ball that is size of a small city but its still 10 times heavier than whole solar system including sun ,planets moons and all asteroids😂
The tiny ones are cute. Gives me a hope to have my own one :)
Before you own it, it already suck our whole solar system
You crazy or what
@@irfan417 no but if it eats a bunch then yes
You already have one…tiny black hole. We all do.
@tradde11he will in it😌
That animation is no joke. I'm impressed.
Glad you liked it, thanks ❤️
1:34 Moon (Comparison)
1:53 Earth (Comparison)
2:11 Sun (Compairison)
2:59 Rigel (Compairison)
4:00 Stephenson 2 Dfk 1 (Compairison)
very impressed with this video. I have always been interested in astronomy and physics. It was things like this that drove me to enter those professions. Thank you for feeding my insatiable curiosity about the universe and the wonders that we discove
Thank you so much for your kindness ❤️
High quality stuff man👍
Thank you ❤️
Phonics lol, Phoenix A! Amazing video!
Lol, it happens bro 💀
Thank you for the comment
Спасибо оператору, что собрал все черные дыры и планеты, чтобы показать нам их размеры
this video just give me some interstellar movie vibes😁keep it up 🔥
Appreciate it brother ❤️
My favorite movie
I did not know some black holes are smaller than our moon AND earth ❤ Subscribe
Stellar black holes are really tiny. Roughly 1 solar mass = 3km radius.
Amazingly terrifying it would be to see one up close. Wow!
This was awesome! 🙏☀️
Really appreciate it ❤️
Something wrong is not right! As far as I know, the size of a black hole is measured by the edges of its event horizon, not the size of the surrounding accretion disk!
Oh well, it’s still a cool video
@@30acrefarm Ain't cool if half the stuff is just wrong
I watch this type of videos to drop my ego. How tiny is our existance.
This would have been better with the location included or what galaxy they’re from.
Great Idea, Thanks for the suggestion ❤️
good video brother keep it up
Appreciate you bro
¡5:35 the ton 618 is my favourite!
Respect to camera man
Hoo
Always in love to an Ultra-Massive *'OJ 287'* as it has a Super-Massive blackhole orbiting it, giving an idea of a _'true'_ vacuum cleaner of a solar system 😘
Also, the *'Feirall 9'* ??
Never heard of it before, but the name sure is _noice_ 👍
Thank you my friend ❤️
I think it's just baby we humens can't do anything just descover hand information for nothing
Fun fact: if a black hole were to reach the mass of 1.65 Trillion Solar masses it would be roughly 1 Lightyear in diameter.
🤯
Wouldn't that mean nothing escapes?
that means the entire solar system, even the oort cloud, would be sucked in, with alpha centauri a, b, and proxima centauri soon after. and then, our neighbors, and eventually, the galaxy gets sucked in.
I don't think blackhole will ever reach that size as it would simply mean the entirety of universe is rotating around it and not sure what ripple effects it will cause in spacetime and entire structure of the universe.
@@hyperjanny1510 Yep such a blackhole will be a galaxy sized one and will be larger than the combined mass of the three largest galaxies in our local group that is Andromeda, Milky Way and Triangulum galaxies.
Thank you very much. What I miss in this presentation is a reference to our solar system. Sagitarius A reaches beyond the Earth's orbit.
Thank you for your support ❤️
No, Sag A* diameter is 24 millions km, Earth orbit radius is 149 millions km. You are mixing it with M87* which is roughly 1.000 times heavier than Sag A*
@@jhtrq1465 You right. Sorry, my bad.
Is there any explanation for why some are bigger even though they have less mass? For example, you say M33 X-7 has less mass than LMC X-3 yet it is substantially bigger.
Could be the accretion disk. It forms when a black hole is "eating" it's all of the matter that's been ripped to shreds and is orbiting the black hole slowly falling in towards the event horizon to as far as we know be merged with the singularity but who really knows what happens at the point. Also could be they got the data wrong...
Edit: They got the data wrong. LMC X-3 is estimated to be between 5-13 solar masses not 19.
For distant objects like black holes, there is no absolute certainty on their distances from Earth and therefore, their masses. It's always a range of masses, that infer the black hole diameter. I guess that the video creator didn't look very thorougly to this and just put the first value they saw. The ratio between black holes masses and radius is always the same ( roughly 3km radius for 1 solar mass)
Impresionante y sublime
To put into context of how much gravity a black hole has. Saggittarius A is the one at the center of our galaxy keeping our solar system and a billion other stars in orbit.
Mind-blowing 🤯
And it's tiny compared to most of the others we know of.
No, it's the dark matter that keeps stuff together. Also, the matter of everything else in the galaxy helps too. The black hole in the center is not that decisive in keeping the galaxy together.
That's just wrong, Saggitarius A* mass is negligeable compared to the Milky way total mass (2,06 X 10^11 solar masses) All stars orbit around the barycenter of the galaxy, which happen to have a supermassive black hole in there, because some mass tend to accumulate here by loss of angular momentum. If you removed Saggitarius A* from the galaxy, there would be no noticeable changes for the orbits of the stars. The only ones affected would be the stars directly orbiting the black hole (S01, S02...)
Ета. Ета. Круто
This is so beautiful 😍
Appreciate your kindness ❤️
These numbers are crazy 🤯
I know right? 🥲
до сих пор есть единственный снимок , весьма отдаленно напоминающий нечто похожее на Черную дыру , но они в деталях знают как выглядят и размеры всех этих Черных дыр .
Super cool! Black holes have always interested me, where does all the mass go? We’ll find a white hole one of these days..
Thank you so much. I'm glad you liked it ❤️
The mass remains, just packed into a smaller size
Our best explanation is all the mass compresses to a single point of infinite density. Since we can't see past the event horizon we'll never really know with certainty but it's a good theory considering how insane the gravitational pull is.
usually it is 400 billion grams per centimeter.
Kind of terrifying they can be so small honestly. Especially with scientists mucking around.
good video bro😀
Appreciate it bro ❤️
I really love black holes
Thank you for your effort :D
So, is there undiscovered stars that haven’t been discovered that literally take 1/8 of the whole universe? Or is it that these Black Holes are so old, that they’ve spent the last Billions of years absorbing other Black Holes and keep growing and growing?
They’re old and they’ve eaten a lot of matter and energy. The biggest ones are bigger than current models can explain, i.e there hasn’t been enough time since time began for black holes to eat this much and grow this big. Attempts to solve the mystery are ongoing.
There isn't a definitive explanation for supermassive black hole formation. The universe is too young for them to have been able to grow solely on accretion of matter. It has been proposed some models to create the seeds of supermassive black holes : Direct collapse of neutral hydrogen clouds and quasi stars (stars sustaining equilibrium partially trough dark matter particles annihilation, able to grow to thousands of solar masses, far beyond what normal starts are able, even for population III) that form black holes in their cores. But those hypothesis remain very speculatives for now, as collecting datas from those distant times is very difficult.
@@jhtrq1465 I wonder if it is possible for a galaxy to be absorbed into a black hole. But then again has the universe allowed enough time for that? I know the basic understanding that anything can become a black hole as long as its mass has been compressed into a certain threshold of the singularity. Could dark matter be in this example? Could the invisible, undetectable dark matter be somehow compressed into a singularity? One thing I’ll always remember, energy has never changed and has always been here. So whatever the answer, it’s an answer with already current knowledge. Just not understood.
@@cypresslos Sorry for the very late answer. I guess that in theory, yes a black hole could swallow an entiere galaxy, but in reality, a galaxy and his orbit is a very complex n-body problem. What happen when a star loose angular momentum to fall into the black hole, is that his angular momentum is transfered to other bodies of the system. So for one star that will plunge into the black hole, other will get more orbital speed. I don't know the excat ratio, but roughly, for each star falling, you will have another that will be ejected away.
For Dark Matter, yes you could form a black hole with it too, but the problem is that DM has no other mean to interact and dissipate his kinetic energy than the very weak gravitationnal force. Where baryonic matter can evacuate kinetic energy trough friction and heat, emmitting electromagnetic radiations, DM cannot, and so according to the models remain into very diffuse halos, as it cannot loose his speed and congregate into dense objects.
A brave camera man
Good and interesting videos🔥
Glad you think so!
Спасибо, очень интересно 👍
Prove that the cameraman never dies🗿🗿🗿
That's small 18KM Black Hole can swallow the whole universe !!
It must have been hard to find the black holes that were smaller than the moon.
👌❤️
not too hard, the effects of their gravity are very obvious
@@user-ix6vv8lo5j They are easy to find if they are in a close binary system, where we can see their effect on the orbit of the bright compainion, or the stuff being accreted. If the black hole is alone, you'll be very lucky to find one, as you only have the eventual lensing effect when the Earth, the black hole and a star in the background are aligned. I don't know if some have been detected that way.
my ceiling has been blowed... didn't realized that Sagittarius A* was such a dwarf....... thanks so much ! 🤯😘
Thanks for the support ❤️
Wow
Beautiful
Thank you ❤️
What's the song that starts at 5:58?
Impressive Presentation. Tho in few years, Phoenix A* will be outclassed eventually.
Who knows what bigger size of Black Holes our universe are still hiding
There is huge incertainty about the mass of Phoenix A* he's probably lighter than those 100 Bn solar masses. Same goes for TON-618 and some other ultramassive black holes, as their intense radiation dosen't allow for a very accruate measurement of their distances, and therefore, their masses.
Should use"Bn" to denote billion, because it looks like 8 as just B.
Great video and thanks.
Good point, thank you ❤️
Thanks to the camera man for all his effort 😂
Lol 😂
Same joke repeated a million times every day. This video is not even a camera-like view, it's just some model of objects placed one close to another. You're not funny and especially not original at all.
The camera operator understood the gravity of the situation
It was a camerawoman
@@dqdq4083no
Very interested view 👍👍
If you're wondering SM means solar mass
👌❤️
(\_/)
( •.• )
(>❤
Woah!!! Someone's been grindin' in black hole simulator 😂😂😂
The big ones are next to impossible to imagine.
👍👍👍
so cool
Wonderful graphics. But.... The Earth and Sun are rotating in the wrong direction. Sorry.
With this sizes I totally understand destiny of Earth life we fall into one of this Black holes
They maybe enormous, but still incredibly tiny compared to the huge distances between stars, not speaking about galaxy.
Hooked on Phonics A is now king of the block. 😃
Phoenix A*
Самая большая и близкая к нам чёрная дыра это Ton 618
What’s the name of the second song? That song should be in Stellaris.
The song starts at 3:30
Title Historical Moments - Mod Modes .
Good Video
Thank you so much 💖
NASA be naming black holes passwords💀
Its crazy to think that the first few is smaller than our moon divided by two
But how big are they actually? Physically edge to edge...?
Black holes are not holes. They need to stop calling them black holes. They're obviously not holes. They're solid objects so dense that the gravity is so strong nothing escapes it, not even from the poles.
Why do ppl think this is possible to go thru a black hole? A black holes is not a hole, it's a super dense physical object. Anything to go into it will collapse into effectively like a dense ball bearing, but actually just added material to whatever is already the object there, a super dense non luminous solid object. Likely no heat either.
The size comparison of the Sun and the Earth is way off. You had the Sun's width at the equator at around 20 Earths... whereas it's closer to 109.
The black holes were way off as well.
Did you measure it by the hole or with the ring
Yeah, but quickly it's nothing but numbers. How big are they compared to our solar system. And does that number represent the sphere, or does it include the disk? On a separate note, are those first few strong enough to collapse our solar system? Have scientists calculated the event horizon in theory?
The formula for calculating the size of an event horizon is well known ( just google it if you want the specific ) and it give roughly 3km in radius for 1 solar mass. M87* ( Powehi ) with his 6 billions solar masses has a radius of 20 billions kilometers, around 5 times the size of Neptune's orbit.
The first black holes shown in the video are tiny, but still at least 3-4 times the mass of the Sun, if one them were to fly by near our solar system, it will wreck havoc, first by destabilizing the Oort cloud, sending hoards of comets toward the inner solar system, resulting in numerous comet impacts on the planets, as it come close the black hole will mess up the planetary orbit, ejecting some of them in interstellar space and other plunging toward the Sun. Finally, if the black hole is on a trajectory and speed that allow to capture the Sun, they will orbit each other, eventually, the black hole will rip apart the Sun, creating an accretion disk around it, that will blast away intense radiation across all the electromagnetic spectrum as the infalling matter heat up to billions of Kelvins due to friction forces.
In short, everybody dies.
Would've they all have gravitational lensing?
Yes. Every mass bends space-time. Those effects are so intense for black holes that their horizons appear 2.6 times larger than they really are. In other words, you can "see" the back of a black hole when you look at it.
I thought TON 618 was the largest one... Do we know when did Phoenix A appeared?
me too
Nice😊
Thank you ❤️
Wait you’re telling me there is a black hole only 11 miles wide? DUDE I HAVE SEEN TORNADOES 1 FIFT OF THAT BLACK HOLE’S SIZE THATS CRAZY
У вас некорректно выглядят некоторые черные дыры. Аккреционный диск у всех должен быть горизонтальным и вертикальным. В реальности существует только горизонтальный диск, а вертикальный - это тот же горизонтальный, только с другой стороны от чёрной дыры (его свечение искривляется черной дырой таким образом, что он нам кажется вертикальным). И по этой же причине эти два диска не могут быть разных цветов. Если горизонтальный диск одного цвета, то и вертикальный должен быть того же цвета.
Спасибо за внимание и контент!
Wow i thought IC1101's would be the largest, probably the most massive though
That's the largest galaxy not a blackhole.
@@thecomment9489 yes, however I remember hearing that the size of a galaxy is relative to the size or mass of a black hole
please can someone explain why they measure the black hole by the edge of the accretion disc?
Because there'd be nothing to measure if they went by the size of the singularity.
@@Helbore but that's not my point. The outer size of the disc seems to have much larger radius compared to the event horizon.
@julinho218 do you mean the accretion disc? Technically, that's not part of the black hole, it's matter that it's absorbing and its size would differ based on how much material it has falling into it at any one time.
@@Helbore I know. But apparently they are measuring the BH by the size of the accretion disk if you pay close attention
@@julinho218 You said "accretion disc," but for some weird reason, my brain read "event horizon!" I get what you mean now.
There must've been too much alcohol past my event horizon that night!
whats the edit name where I can edit like this video can you tell me plzzz
Blender
I'm certain the next black hole discovered will have a Schwarzschild radius of trillion km.
Nice❤
The dimensions of Phoenix A is almost unbelievable! The Event Horizon is about 100 times the distance between our sun and the farthest planet Pluto. You would need 71 days and 14 hours at speed of light (!!) to travel across the entire circumference of the Phoenix A!
Whats's next?!
As if I needed something to make me feel even more insignificant. Can we find those ones that are only 18-50 miles wide and put a roller coaster on 'em? That would be some kind of E ticket ride for sure!
"Tiny" black holes are still weighting several solar masses in a very compact volume. You will be shred thousands of kilometers from the event horizon by tidal forces ;) maybe that's the ultimate rollercoaster ?
Not black holes
1:35 The Moon
1:56 Earth
2:10 The Sun
2:56 Rigel
4:01 Stephenson 2 DFK 1
5:26 IC 1101 (Looks like a black hole in the image, but is actually a galaxy)
No importa lo largo o lo grueso lo importante el tiempo que dure tiezo
Your scaling is off because it was rendering the sizes by their animated accretion disks and not the event horizons.
it seems like the person who made this confused the diameter of the event horizon and the diameter of the accretion disc, but the video is still awesome!
Yeah I don't think the person is confused maybe you are no offense but the stated distance km/mi is measured across the entirety of the object black hole, stars, and moon alike.
@@juliusevans8216 The acrretion disk isn't the black hole. The ususal measurement is the Schwarzshild radius.
It's true. I measure them every day with my ruler.
Lol 🤣
If you speed up the text a bit more then you can makesure that no one is able to read it...
OMG GUYS THE MOON,EARTH,SUN,RIGEL AND STEPHENSON WHATEVER ARE BLACK HOLES🤯🤯🤯
Hope we'll see a bigger black hole in another 5 year
Hopefully ❤️
Yes, mine when I can't hold my poop 😂😂😂
Phoenix A: Hold my beer.
Those bands of light were once stars
👌👌❤️
This video creates the impression that the diameter of a black hole is the diameter of its accretion disc. See 3:13 . But that's wrong. It's the diameter of the sphere that these numbers describe.
Black hole with circumference bigger the Jupiter's orbit. Wow!
🤯💯
‘Size matters’ : Phoenix A
Lol 💀
Ton 618 es el más grande?
Esto es infinitoo
Chhean Young is everything 😊
If they say stars have to be 10sm or whatever to change into a black hole how can one be less than 5sm?
And I'm out here trying to pay rent
So the biggest black hole that we know has 620 billion km? About 6% of 1 light-year...
How ton 618 is the first this time💀💀💀💀💀💀💀
i thought looking at the preview that there will be a black hole similar to the Enigma black hole 😂
I want that skin
I just noticed a massive flaw in your simulation. The size of the black holes indicated in the video includes the accretion disk. You can see this by comparing the diameters shown for the moon and the black holes beside it at 1:45. Notice how the moon is bigger even though the black hole has a larger diameter? The diameter of a black hole refers to twice its schwarzschild radius, which is a function of its mass. This extends from the singularity to the event horizon, which is even smaller than the photon ring (the innermost ring of light you can see for each black hole), at around half the size. This simulation falsely includes not only the photon ring but the entire accretion disk in the black holes' diameter, making them appear smaller than they actually are in comparison to the reference bodies you used like the moon.
What I mean is that the black hole is just the ball in the middle, not including the ring around it. The ring shouldn't be counted as part of the radius of the black hole, but that's what was done here, making them look smaller than they actually are. In those comparisons, the central spheres and not the accretion disks should have similar sizes to the moon.
Apart from that error, this is an amazing animation!
12,756 km is the real size of earth
Deu um trampo danado pra conseguirem comprovar a existência de um buraco negro. Agora tem buraco negro do tamanho de uma panela kkkk
Also IC 1101 is known as the biggest galaxy.
Is'nt 3C 120 a galaxy? So these are the Black holes at the center of a particular galaxy, I get it now, thanks, good vid. a
Usually, the supermassive black hole at the center of galaxy take the name of that galaxy with a "*" at the end. Like M87*