Well here is the thing. We dont know whats at the center. Could be some quantum gravitational effects. All this to say mass and energy are interchangeable. So it could be said there is a lot of energy there. Food for thought.
After googling this, apparently mergers can in fact happen in more complex systems (3 or more), and according to this video the intermediates are practicaly swarming Sag A*, so I guess we've just been theorizing... too theoreticaly (1 hole vs 1 hole without particular influence from other bodies). So mergers would happen (which is what circumstantial evidence has been implying anyway practicaly speaking, not to mention the gravitational waves discoveries) - the interesting bit is that in such systems, fly-away black holes would presumably be quite common? Imagine a little 100k stellar mass BH hurtling through the galaxy at break-neck speeds.. perhaps the intergalactic space is relatively full of such phenomena, even.
Hi Anton. I hear Dorothy saying "I didn't need to go somewhere else to find what I was looking for, but stay in my own back yard !!!" And now we have an IMBH garden circling Sag A*. Whoda thunkit !!! How did all those black holes get there, and when did they get there ? Were they the "Seeds" that created the Milky Way?? My head hurts now !! Thank you Anton for another great presentation.
Compliments and applause again and again wonderful Anton. Please accept some of the admiration and respect I declare you deserve. Allergies are punishment, my very best wishes to you and may moments of profound joy come upon you unexpectedly.
you're friggin' AMAZING!!! have noticed your congestion in the recent vids and hope you get to feeling better soon. PS - i honestly don't know where i'd learn this sorta science if it weren't for you…so, please take good care of yourself!
Outstanding! In the brief decades humans have been able to measure the orbits of our central galactic stars, we have gotten good enough to discover black holes, if only indirectly. Thank you for featuring this study, Anton!
We are definitely moving towards understanding the origins or galaxies, massive black holes and globular nebulae. I think we already have some crucial data,the "corner pieces"of the puzzle.
Every new bit of information makes modern cosmological experts say "We didn't expect THAT!" So, no, they haven't learned anything new because they refuse to even consider that THEIR theories are lacking.
@@Tintintanabulation I would advice not to believe in all the media titles "Scientists stunned by...". This is only clickbait. Real scientists always try to find new hypotheses. No one makes career by confirming old ones.
@@arctic_haze Um, their own titles use those terms. Lots of scientific research papers ADMIT that the new information does NOT reflect what their theories would predict. Do you not read any new studies?
Thanks Anton, another brilliantly informative video. Thats my morning done now finding and reading the discovery papers. It would be great to work out the orbital decay of these FCCs as this would provide a clue as to the speed at which Sag A* absorbs these smaller objects. It would also be good to find out how often the FCCs collide and grow as this could also explain why some galaxies show multiple supermassive BHs in their central regions.
We are just in the infancy of gravitational wave detection. As new observatories come online over the next few decades we will expand our detection range.
Theory on Anti-Neutron Stars and High-Energy Quasars- I propose that some quasars exhibiting unusually high levels of gamma radiation could be explained by the presence of anti-neutron stars rather than traditional supermassive black holes. In this model, the high-energy gamma rays observed are due to matter falling onto an anti-neutron star, where it interacts with antimatter. This interaction would lead to matter-antimatter annihilation, producing intense gamma radiation.The accretion disk around such an anti-neutron star would produce thermal radiation similar to that observed in typical quasars. However, the unique high-energy gamma emissions could be a result of annihilation processes. This hypothesis aims to address cases where traditional black hole models fall short in explaining the extreme gamma-ray outputs. Further observational and theoretical investigation could determine if this model provides a viable explanation for these high-energy phenomena.
"This interaction would lead to matter-antimatter annihilation, producing intense gamma radiation." That should produce gamma radiation only of a _very_ specific frequency, i. e. a rather narrow spectral line. That is _not_ what is actually observed.
The more data we uncover the more it appears that there is a predominance of dark matter and black holes with the visible universe, in contrast, being the minor fraction.
Wonder how research like this will be affected by the loss of the current x-ray telescope. Seeing how there are no current plans to send a replacement out there...😕
Without graventational countering and the diamagneticle inclosmends of the meta behavieures as the black holes there would not be a behavieure that we recordnice as blackhole behavieures in existance 🥰🐜
Helio is olso black hole behavieures If the infiormental behavieures of the memory's and the interaction ophone external demand was not there for the jws our other opservertorys to interact with for its behavioral chainces for us to reseave diverentionals in to mashermends it would not be able to records and translate wat we sees as.......... than it would be blinded and expected every where onley gray😅♟️🐜
Parenting Conditions towart poseble graventational countering and diamagneticle containment is the creatie of the posebiletys for that dimension to behave as a black hole
this could have implications on the earlier universe in the physics of the density of the gas in the early remark and how that created black holes and created stars so on and so forth. Cool.
So some property of the supermassive accretion disk creates over densities that collapse into intermediate mass or something about the interaction between the disks of them both
Forget the 3 body problem 🤯 how does all those stars pretty much randomly orbiting this intermediate mass black hole work, just trying to imagine it 😵💫
Wonder if black holes can work in tandem to attract more material from certain regions. If a intermediate black hole is near a super massive bh perhaps the gravitational pull is amplified in the direction the black holes are alligned similar to the lensing affect. So if this is so and black holes can act instinctual, knowing what step is needed next to complete a process, then perhaps these tandem black holes wre not accidental but a formation needed to make a black hole feed more efficiently and in a order of material that is needed to produce a particular process.
I believe that there's ultra massive black holes out there too, maybe the great attractor has/is one of these. In the end, when all other matter has been consumed, they all merge into a final, super ultra massive black hole which will end up as the source of the next big bang 🕳️💥
I wonder if a huge black hole can form straight from hydrogen. For instance, a large collection of hydrogen can form a small star that lasts a very long time. A titanic cloud of gas can form a huge blue giant star that burns super bright and does not last as long. But suppose that there was a super-huge cloud of relatively dense hydrogen, a thousand times bigger than the cloud that makes a blue supergiant. Could it go straight to a black hole? Or alternatively, what about a giant cloud of hydrogen that has a small black hole in the middle. Could that form an intermediate black hole? Maybe they are made by a process we never imagined.
Dang Anton, hang your shirts flat to dry instead of balling them up. That shirt still has the tug areas at the collar where your fingers were when you put it on.
Anton, you sound as if you have a cold or the dreaded COVID. Hopefully it’s just a weak virus. Thank you for keeping us entertained with all the interesting information you give us.
+These Black Holes are the most fascinating things. One thing I always wonder about them is if they are perfectly spherical or more likely something weirder than I can imagine. I can't imagine them being perfect, but that's the way they're always portrayed in CGI.
My understanding is they're perfectly spherical and smooth, for all practical purposes. Hawking radiation is sometimes talked about as "hair" for the black holes, but the actual event horizon is perfectly uniform. If we think about how gravity works, it would have to be. Assuming they really do have point singularities, and not say, ring singularities, gravity would be uniform and spherical radiating out from the center, ensuring a perfect sphere.
A dead black hole is a perfect sphere, a rotating black hole has an event horizon that's a topological sphere. The geometry of the horizon will depend on your choice of coordinates.
@@dennisestenson7820 The horizon is a perfect sphere in Boyer-Lindquist coordinates, r_H=m+(m^2-a^2)^{1/2}, which is the equation of a sphere, though the horizon is not spherical in other coordinates, e.g. Kerr-Schild.
Let's suppose galaxies are the result of a long history of multiple merging of smaller galaxies.. we can suppose than all of them had one or more black holes in their center... maybe the merging of two galaxies wouldn't result systematically in the merging of the black holes.. It seems difficult for black holes to just happen to go into each other when two galaxies with various movements merge.. they need some interactions with somethings (the gas and stars in the center region) to slow down relatively to each other and align into a collision trajectory. if the black holes don't merge, they would accumulate in a sort of dynamic group of black holes of various sizes in the middle of each galaxies (and they would occasionally merge but much slower than their host galaxies)... so maybe galaxies all have a sort of "nucleus" of gas and black holes
FYI: 0.1 light-years = 36.5* light-days. Voyager 1 has gone only less than a light-day at 22.5 light-hours. *Corrected. Now, I know how the Mars Probe folks feel, minus helping in a significant project. I even had the right answer at first (unprovable), then a "corrected" it to the wrong because it felt off.
@@rahlmaclaren1478 So, if it could do light speed, we could have launched it 9pm on Sunday evening ?.. Please don't embarrass me by working it out, it was not serious, well just a little.
Your ratio is wrong, but yes "Space is big. You just won't believe how vastly, hugely, mind-bogglingly big it is. I mean, you may think it's a long way down the road to the chemist's, but that's just peanuts to space." Douglas Adams The Hitchhiker's Guide to the Galaxy
And they say magic doesnt exist in this universe. Frankly, just because we know how it works does not mean it isnt magic. I mean a giant black hole with balls of plasma many AU across being flung around like boomerangs, many with black holes of thir own is an object whose scale and power are simply off the charts compared to anything in our fiction!
Probably nothing to worry about for some tens to hundreds of thousands of year at least.... but exactly how close was that intermediate black hole to Sag A*, and is it heading in for a splashdown in so many orbits?
Got a question for you Anton. Have you heard of a star passing through The Oort cloud in about a hundred years. I saw something about this a few months ago. If so let me know please.
So when one of these intermediates black holes drops into the central hole right on our doorstep, how badly do we get shaken by the gravity waves? Would we notice anything?
what does the model of a head-on collision of a smaller black hole into a much more massive one show? does it cause “damage” outside the horizon? how does the expansion of the horizon associated with mass interact with the fallout thereof?
Why did it take so long to find it? The center of star clusters seem like such an obvious place to look, and we've observed those with decent telescopes for almost 100 years. The same goes for the center of galaxies -- it's well known that heavier stars tend to fall toward the center due to tidal interactions, because larger masses tend to shed momentum onto lighter passersby, flinging them out and thus themselves sinking toward the center. I get that the galactic center is heavily obscured. But why did it take so long for people to take a good look at clusters???
Simple answer: Our telescopes were _not_ decent enough for examining the _centers_ of dense star clusters. And the _galactic_ center only could be observed with the advent of _infrared_ telescopes.
Can't help thinking that some of these companion black holes might get sling-shotted out of the galactic centre and if so they should leave a visible trail of destruction. Also, is Anton an avatar or just a real person with encyclopedic knowledge?
No, the gravitational waves of the black holes are _much_ to weak for that. They are strong in the neighbourhood of the BH, but they _very_ quickly get weaker with increasing distance.
I remember you saying a few years back that no Intermediate sized black holes had been discovered, and now they have...wow to progress in science!
It's crazy to think 32,000 solar masses is only an intermediate black hole. They just get so terribly massive it boggles the mind
Just like your mom. 🥰
Well here is the thing. We dont know whats at the center. Could be some quantum gravitational effects. All this to say mass and energy are interchangeable. So it could be said there is a lot of energy there. Food for thought.
It is counter intuitive to think that black holes can be of varying sizes, yet all have the same singularity in the centre.
@@custossecretus5737 The singularity represents more of a breakdown in GR. We dont know what is at the center.
alien life forms
My favorite 2 AM program, can't fall asleep without it. Thank you Anton!
Where the fuck you live? Its 7 PM in the USA
@@chrisphinney8475 I bet, they even use kilometers there. and what the fuck is kilometer, am I right?
@@chrisphinney8475 lmao, *not* in the USA
@chrisphinney8475
Science
American discovers that other countries exist and the earth rotates @@chrisphinney8475
Anton thank you for communicating science to us so well! I remember when they didn't know what was at the center of galaxies.
It's especially cool when things are found relatively nearby.
Thank you, wonderful sir.
@@George-rk7ts I just found a peanut, it was incredibly close.
@@Chris-wz5yd And it's way better than if it was on Mars, right,?
@@George-rk7ts It was cool, you were right.
@@Chris-wz5yd Was it an intermediate peanut? Or supermassive peanut? Did you eat it?
@@NightBazaar It had very little atmosphere and a thin brown powdery dust on it's surface. That's all I can tell you really.
At 0.1-1LY, that’s well inside the “final parsec” which itself is useful info.
After googling this, apparently mergers can in fact happen in more complex systems (3 or more), and according to this video the intermediates are practicaly swarming Sag A*, so I guess we've just been theorizing... too theoreticaly (1 hole vs 1 hole without particular influence from other bodies). So mergers would happen (which is what circumstantial evidence has been implying anyway practicaly speaking, not to mention the gravitational waves discoveries) - the interesting bit is that in such systems, fly-away black holes would presumably be quite common? Imagine a little 100k stellar mass BH hurtling through the galaxy at break-neck speeds.. perhaps the intergalactic space is relatively full of such phenomena, even.
Time lapse shots of radio telescopes is always like, “Look over there! What? Never mind, you missed it.”
I'm probably going to be reminded of this everything I see one of those time-lapses from now on.
Thank you for all your hard work ❤
I just love this stuff! I'm learning so much! Thanks Anton! Love that smile too!! 😊
pull up anton
Thanks, Anton 🙏🤠👋
Wonderful as always Anton. Thank you. 🙂
Hi Anton. I hear Dorothy saying "I didn't need to go somewhere else to find what I was looking for, but stay in my own back yard !!!" And now we have an IMBH garden circling Sag A*.
Whoda thunkit !!! How did all those black holes get there, and when did they get there ? Were they the "Seeds" that created the Milky Way??
My head hurts now !! Thank you Anton for another great presentation.
I'll get you my pretty. And your little dog too!
Compliments and applause again and again wonderful Anton. Please accept some of the admiration and respect I declare you deserve. Allergies are punishment, my very best wishes to you and may moments of profound joy come upon you unexpectedly.
So intermediate black holes are grist for supermassive black holes. Glad it seems to be the case we can confirm that.
Nice video Anton
you're friggin' AMAZING!!! have noticed your congestion in the recent vids and hope you get to feeling better soon. PS - i honestly don't know where i'd learn this sorta science if it weren't for you…so, please take good care of yourself!
I noticed he sounded rather nasal.
Going in I was thinking 'confirmed is a strong word', but hot damn, that's really close to proper confirmation!
Thanks Anton for another informative video😊
Thank you, Anton
They creep me out.
They also fascinate me.
You're wonderful Anton!
How long does it take the stars closest to the black hole to orbit around it? In the time lapses they look like they are just flying around
Outstanding! In the brief decades humans have been able to measure the orbits of our central galactic stars, we have gotten good enough to discover black holes, if only indirectly.
Thank you for featuring this study, Anton!
We are definitely moving towards understanding the origins or galaxies, massive black holes and globular nebulae. I think we already have some crucial data,the "corner pieces"of the puzzle.
Every new bit of information makes modern cosmological experts say
"We didn't expect THAT!"
So, no, they haven't learned anything new because they refuse to even consider that THEIR theories are lacking.
@@Tintintanabulation Anyone that says this doesn't understand science.
@@RisetoStrength What?
@@Tintintanabulation I would advice not to believe in all the media titles "Scientists stunned by...". This is only clickbait. Real scientists always try to find new hypotheses. No one makes career by confirming old ones.
@@arctic_haze Um, their own titles use those terms. Lots of scientific research papers ADMIT that the new information does NOT reflect what their theories would predict. Do you not read any new studies?
I was looking at one with a telescope one day and could swear it was trying to suck my eyeball out of it's socket!!!😅
Hello wonderful Anton , Legend mate.
Incredible indeed
Thanks Anton, another brilliantly informative video. Thats my morning done now finding and reading the discovery papers. It would be great to work out the orbital decay of these FCCs as this would provide a clue as to the speed at which Sag A* absorbs these smaller objects. It would also be good to find out how often the FCCs collide and grow as this could also explain why some galaxies show multiple supermassive BHs in their central regions.
That's wonderful! We can't have too many black holes!
Black holes merging of a certain size must have a spectacular effect we dont know about yet when they collide.
Yeah I pray we're never near any when they collide.
We are just in the infancy of gravitational wave detection. As new observatories come online over the next few decades we will expand our detection range.
It takes a long time for them to finally merge.
I give this one a like without watching just for the thumbnail. Finally Anton looks kinda happy. 🙂
Theory on Anti-Neutron Stars and High-Energy Quasars- I propose that some quasars exhibiting unusually high levels of gamma radiation could be explained by the presence of anti-neutron stars rather than traditional supermassive black holes. In this model, the high-energy gamma rays observed are due to matter falling onto an anti-neutron star, where it interacts with antimatter. This interaction would lead to matter-antimatter annihilation, producing intense gamma radiation.The accretion disk around such an anti-neutron star would produce thermal radiation similar to that observed in typical quasars. However, the unique high-energy gamma emissions could be a result of annihilation processes. This hypothesis aims to address cases where traditional black hole models fall short in explaining the extreme gamma-ray outputs. Further observational and theoretical investigation could determine if this model provides a viable explanation for these high-energy phenomena.
"This interaction would lead to matter-antimatter annihilation, producing intense gamma radiation."
That should produce gamma radiation only of a _very_ specific frequency, i. e. a rather narrow spectral line. That is _not_ what is actually observed.
The more data we uncover the more it appears that there is a predominance of dark matter and black holes with the visible universe, in contrast, being the minor fraction.
Wonder how research like this will be affected by the loss of the current x-ray telescope. Seeing how there are no current plans to send a replacement out there...😕
Very interesting information, nice presentation, thanks 👍😊
Fascinating!
Exactly!
And my sense of existential terror intensifies! 😭
Good morning 😍🥰😍 no mistery🥰🌹
🐒🌀
Without graventational countering and the diamagneticle inclosmends of the meta behavieures as the black holes there would not be a behavieure that we recordnice as blackhole behavieures in existance 🥰🐜
Helio is olso black hole behavieures
If the infiormental behavieures of the memory's and the interaction ophone external demand was not there for the jws our other opservertorys to interact with for its behavioral chainces for us to reseave diverentionals in to mashermends it would not be able to records and translate wat we sees as..........
than it would be blinded and expected every where onley gray😅♟️🐜
Parenting Conditions towart poseble graventational countering and diamagneticle containment is the creatie of the posebiletys for that dimension to behave as a black hole
It's going to suck finding black holes when they close down the Chandra observatory.
The IRS is a Black Hole in my bank account too, such an appropriate name
Giga-spacewurms!
What's going on with the Final Parsec Problem with mechanisms for actually getting them to merge at the center?
that's a 2 body math problem, with 3 or more objects all hell breaks loose as a nudge is all they need
It’s a very interesting subject, and I like your hairstyle.
I love this channel
It's not a black hole. It's God trapped inside a Great Barrier. He is demanding a starship.
"What does God need with a starship?"
this could have implications on the earlier universe in the physics of the density of the gas in the early remark and how that created black holes and created stars so on and so forth. Cool.
Greetings from the BIG SKY of Montana. It's hot here today.
It's 67° on the SoCal coast.
@@douglaswilkinson5700 Greetings from the Big Sky of Montana.! Now us when that cool sea breeze is great.
Region's of space. Like ocean currents
So some property of the supermassive accretion disk creates over densities that collapse into intermediate mass or something about the interaction between the disks of them both
Nice work, the seyfert hypothesis sounds plausible
I'm waiting for the day to see the title "We found out that actually we have been in the super duper massive black hole all along"
This is a really cool discovery.
Forget the 3 body problem 🤯 how does all those stars pretty much randomly orbiting this intermediate mass black hole work, just trying to imagine it 😵💫
Wonder if black holes can work in tandem to attract more material from certain regions. If a intermediate black hole is near a super massive bh perhaps the gravitational pull is amplified in the direction the black holes are alligned similar to the lensing affect. So if this is so and black holes can act instinctual, knowing what step is needed next to complete a process, then perhaps these tandem black holes wre not accidental but a formation needed to make a black hole feed more efficiently and in a order of material that is needed to produce a particular process.
Thankyou!
Relativly small black holes swirling around tge galaxy and interacting...thats my mind-boggler of the day. Thx for that Information.
It seems all our dwarf galaxies contain them
I am so so sorry for your loss , i am a father Anton of 4 kiddos , i can't imagine. You have a good heart,
that makes alot of sence
It was just a couple of years ago that we were wondering if there were even any intermediate mass black holes at all
By the time that light reached us, these two probably have collided. You could say we're screwed but we don't know it yet.
hello anton, this is person.
boy when it rains it pours thanks anton for the update
i wonder if the event horizon telescope or jwst could pick up hints or an image
Well explained Video.
You continue to raise the interest of your audience members and for that..
Absolute Gratitude.
Be Well.”
: LEv
For so long we struggled to find _any_
And already we now have more than one.
I believe that there's ultra massive black holes out there too, maybe the great attractor has/is one of these.
In the end, when all other matter has been consumed, they all merge into a final, super ultra massive black hole which will end up as the source of the next big bang 🕳️💥
I doubt it. The great attractor is not an object it's a region with a lot of mass
LMFAO.
I wonder if a huge black hole can form straight from hydrogen. For instance, a large collection of hydrogen can form a small star that lasts a very long time. A titanic cloud of gas can form a huge blue giant star that burns super bright and does not last as long. But suppose that there was a super-huge cloud of relatively dense hydrogen, a thousand times bigger than the cloud that makes a blue supergiant. Could it go straight to a black hole? Or alternatively, what about a giant cloud of hydrogen that has a small black hole in the middle. Could that form an intermediate black hole? Maybe they are made by a process we never imagined.
The tear behind Anton is getting bigger every episode lol
It's driving me insane, I keep thinking my monitor is dirty.
Need a bit of green patch over it lol
Hi mate, can you cover dark oxygen please?!
Dang Anton, hang your shirts flat to dry instead of balling them up. That shirt still has the tug areas at the collar where your fingers were when you put it on.
Hard to imagine there is more than one black hole in the center of the Milky Way. The immensity of space is always overwhelming.
Anton, you sound as if you have a cold or the dreaded COVID. Hopefully it’s just a weak virus. Thank you for keeping us entertained with all the interesting information you give us.
You sound a bit stuffy, if your getting sick take some time off, as always man you are a wonderful person and your videos are great
+These Black Holes are the most fascinating things. One thing I always wonder about them is if they are perfectly spherical or more likely something weirder than I can imagine. I can't imagine them being perfect, but that's the way they're always portrayed in CGI.
My understanding is they're perfectly spherical and smooth, for all practical purposes. Hawking radiation is sometimes talked about as "hair" for the black holes, but the actual event horizon is perfectly uniform.
If we think about how gravity works, it would have to be. Assuming they really do have point singularities, and not say, ring singularities, gravity would be uniform and spherical radiating out from the center, ensuring a perfect sphere.
@@DeletiriumFair enough. What happens when two black holes collide? Is the lesser one just sucked up like a ping pong ball by a shop vac??
Real black holes spin. The spin flattens the event horizon along the poles. So, no it's not perfectly spherical.
A dead black hole is a perfect sphere, a rotating black hole has an event horizon that's a topological sphere. The geometry of the horizon will depend on your choice of coordinates.
@@dennisestenson7820 The horizon is a perfect sphere in Boyer-Lindquist coordinates, r_H=m+(m^2-a^2)^{1/2}, which is the equation of a sphere, though the horizon is not spherical in other coordinates, e.g. Kerr-Schild.
In galactic centers, star density is a lot higher. All sorts of funny things can happen.
Let's suppose galaxies are the result of a long history of multiple merging of smaller galaxies.. we can suppose than all of them had one or more black holes in their center... maybe the merging of two galaxies wouldn't result systematically in the merging of the black holes.. It seems difficult for black holes to just happen to go into each other when two galaxies with various movements merge.. they need some interactions with somethings (the gas and stars in the center region) to slow down relatively to each other and align into a collision trajectory.
if the black holes don't merge, they would accumulate in a sort of dynamic group of black holes of various sizes in the middle of each galaxies (and they would occasionally merge but much slower than their host galaxies)... so maybe galaxies all have a sort of "nucleus" of gas and black holes
FYI: 0.1 light-years = 36.5* light-days. Voyager 1 has gone only less than a light-day at 22.5 light-hours.
*Corrected. Now, I know how the Mars Probe folks feel, minus helping in a significant project. I even had the right answer at first (unprovable), then a "corrected" it to the wrong because it felt off.
you mean 36.525 light days
@@rahlmaclaren1478 So, if it could do light speed, we could have launched it 9pm on Sunday evening ?..
Please don't embarrass me by working it out, it was not serious, well just a little.
Your ratio is wrong, but yes "Space is big. You just won't believe how vastly, hugely, mind-bogglingly big it is. I mean, you may think it's a long way down the road to the chemist's, but that's just peanuts to space." Douglas Adams The Hitchhiker's Guide to the Galaxy
0/10 math
I thought V1 was past the 24 light hours mark?
And they say magic doesnt exist in this universe. Frankly, just because we know how it works does not mean it isnt magic. I mean a giant black hole with balls of plasma many AU across being flung around like boomerangs, many with black holes of thir own is an object whose scale and power are simply off the charts compared to anything in our fiction!
Is there a mark on your lens or green screen?
Probably nothing to worry about for some tens to hundreds of thousands of year at least.... but exactly how close was that intermediate black hole to Sag A*, and is it heading in for a splashdown in so many orbits?
Got a question for you Anton. Have you heard of a star passing through The Oort cloud in about a hundred years. I saw something about this a few months ago. If so let me know please.
32000 solar mass black hole orbiting 0.1 light years away from the mother of all black holes. When will it get absorbed?
THAT will be a show!
Anton there is something behind you that looks like a tear in your bluescreen. It looks like bad pixels on our end. Please correct. Thank you
Several inches to the left of your left ear
Could the existence of intermediate mass black holes in these areas lend to a potential solution for the final parsec problem?
I was here 🙏🏾
Does this change the percentage of matter vs dark matter?
I am a creation guy, and I love how unbiased Anton is. I watch almost every night.
Can our gravitational wave detectors detect mergers of super and intermediate black holes?
So when one of these intermediates black holes drops into the central hole right on our doorstep, how badly do we get shaken by the gravity waves? Would we notice anything?
No. Gravitational waves at that distance are much too weak to be noticeable without _very_ sensitive instruments.
Wow !!! I didnt think there were anymore unbroken doritos in this bag.
We've crashed through a number of other galaxies over time, could it have come from one of the smaller ones we passed through and it hitched a ride?
If we are a barred spiral, there should be some multiple huge barycenter masses to create the mass of the bars
what does the model of a head-on collision of a smaller black hole into a much more massive one show? does it cause “damage” outside the horizon? how does the expansion of the horizon associated with mass interact with the fallout thereof?
Check out these wikipedia articles: *_"Rotating black hole"_* and *_"Spin-flip"._* Also see *_gravitational waves_*
I can't wait till they find a few more and map this out....
Quick question as Anton mention X-ray emission, could NASA reactivate Chandra teleskope, or is it lost out there?
That’s terrifying that the Sag A star is practically Touching an intermediate bh that could make it AGN (go supersayain) AGaiN.
Why did it take so long to find it? The center of star clusters seem like such an obvious place to look, and we've observed those with decent telescopes for almost 100 years. The same goes for the center of galaxies -- it's well known that heavier stars tend to fall toward the center due to tidal interactions, because larger masses tend to shed momentum onto lighter passersby, flinging them out and thus themselves sinking toward the center. I get that the galactic center is heavily obscured. But why did it take so long for people to take a good look at clusters???
Simple answer: Our telescopes were _not_ decent enough for examining the _centers_ of dense star clusters. And the _galactic_ center only could be observed with the advent of _infrared_ telescopes.
The first stars that formed became these giant black holes.
Can't help thinking that some of these companion black holes might get sling-shotted out of the galactic centre and if so they should leave a visible trail of destruction. Also, is Anton an avatar or just a real person with encyclopedic knowledge?
I wonder how much bigger Sag. A* would have to be for us to start falling into it?
Is it possible that spiral arms are the result of gravitational waves caused by large black holes orbiting each other in the center of the galaxy?
No, the gravitational waves of the black holes are _much_ to weak for that. They are strong in the neighbourhood of the BH, but they _very_ quickly get weaker with increasing distance.