Two Supermassive Black Holes About To Embrace

Taco Cowboy writes "NASA's WISE (Wide-field Infrared Survey Explorer) satellite was looking at a distant galaxy, some 3.8 billion light-years away, and saw something rather unusual. At first they thought that they saw a galaxy was forming new stars at a furious rate, but upon closer checking, they found that they were seeing two supermassive black holes spiraling closer and closer to each other. The dance of this black hole duo started out slowly, with the objects circling each other at a distance of about a few thousand light-years. As the black holes continued to spiral in toward each other, they were separated by just a few light-years. Supermassive black holes at the cores of galaxies typically shoot out pencil-straight jets, but in this case, the jet showed a zig-zag pattern. According to the scientists, a second massive black hole could, in essence, be pushing its weight around to change the shape of the other black hole's jet. Visible-light spectral data from the Gemini South telescope in Chile showed similar signs of abnormalities, thought to be the result of one black hole causing disk material surrounding the other black hole to clump. Together, these and other signs point to what is probably a fairly close-knit set of circling black holes, though the scientists can't say for sure how much distance separates them."

FSVO "about"

[Anonymous Coward]

I'm not sure you can use the term "about" to describe something that happened 3.8 billion years ago

Re:

[Dunbal]

You're right - they probably already have!

Re:FSVO "about"

[Opportunist]

Did it really? I think that's a philosophical question. Personally, I think not only space and time but also cause and effect are relative to the spectator.

The light carrying the information that this is happening is just arriving here. The speed of light is also by definition the fastest information can travel. It may "in reality" have happened 3.8b years ago, but the effect can only now affect someone here. Even if you happened to have an observation post there and 3.8b years ago they noticed "hey, they're falling into each other NOW", and they sent that information right away, the information would not have reached us before the event since, well, the information of the event ITSELF is traveling at the speed of light, which, as stated before, is the fastest an information sent to us by the observation post could have traveled.

Long story short, the absolute moment in time when something happens does not matter as long as you cannot overcome its information propagation speed. It will of course change if someone happens to find a way to propagate information faster than the speed of light... which would open a completely different can of worms if you ask me (but that's beyond the scope of this post now).

What this all comes down to is that the absolute moment of some event does not matter, but only the relative moment that you receive the information.

Re:

[geminidomino]

That's rather solipsistic, isn't it?

Re:

[Your.Master]

Not necessarily, it's just relativistic. It's hard to break out of an absolutist mindset, but there isn't really a sensible way to say that the black hole is there at all without invoking a set of physics that outright demands you think relatively. Remember, we're actually observing phenomena which is consistent with a physics model that is rooted in relativity, not downloading absolute knowledge of the existence of black holes at this location in spacetime.

The entire population of earth is essentially in

Re:

[geminidomino]

I've never been able to wrap my brain around it, probably because of the aforementioned "absolutist" mindset.

I can see how an event being outside of any real sphere of effect makes it irrelevant to us for 3.8 billion years, but saying it didn't happen until it's been observed happening just sounds like an internet troll to me.

Re:

[RockDoctor]

but there isn't really a sensible way to say that the black hole is there at all without invoking a set of physics that outright demands you think relatively

People were making self-consistent speculations about the physics of black holes before 1800. There weren't many of them, and they didn't spend much time (or ink) on it. But the idea does date back that far. Not as subtly as our GR and QM models, but it is an idea of considerable age.

Re:FSVO "about"

[CapOblivious2010]

You're close - but the whole point of relativity is that there is no "absolute time". With one caveat (see below) It's ALL relative to the observer. There are some observers (specifically those roughly motionless with respect to the earth and the two black holes, like us) for whom "then" and "now" are separated by 3.8b years. There are (or could be) other observers (specifically those traveling at something close to the speed of light in along a line between the black holes and us) for whom the two events are separated by far less time. For someone traveling along that line at the speed of light, the two events would be simultaneous.

The only hard and fast rule is that space-time is divided into 3 zones:
* The absolute past - events within (or on the surface of) the light-cone leading up to here-and-now
* The absolute future - events within (or on the surface of) the light-cone starting at here-and-now
* Everything else - events in neither light cone, which means they cannot affect us and we cannot affect them. Depending on an observer's motion relative to us and such an event, someone might see the event as happening at the same time as the here-and-now, or before, or after. It doesn't matter, because such an event is not causally connected to the here-and-now in either direction.

The interesting thing is that the vast majority of the universe is in the "everything else" zone.... contemplate that one for a while...

Re:

[ByteSlicer]

The interesting thing is that the vast majority of the universe is in the "everything else" zone.... contemplate that one for a while...

Hmm, I don't think this is correct, depending on what you mean exactly.

When we talk about the universe, we usually mean the observable universe. Since we receive light from all parts of the observable universe (it's observable after all), that means we are in the future light cones of those locations (each roughly an expanding sphere in 3D+time). If we can see something, it can effect us.

But, not all of those places are in our future light cone. Because of the metric expansion of space, which causes acceler

Re:

[CapOblivious2010]

I mean the total universe, not just the observable universe.

The universe is 14b years old; let's assume it continues for another 14b years. Ignore expansion for now, and we can conclude that it must be at least 14b light-years across because we can see almost back to the big bang. In a 2D space-time diagram (1 space dim + 1 time) you'd see a square with an X in it - we're at the center, the absolute past is below us, the absolute future is above us, and the "neither past nor future" (let's call this the

Re:

[RockDoctor]

I mean the total universe, not just the observable universe.

The universe is 14b years old;

The portion of the universe which can be observed from our location in space time has a (almost) homogeneous state, the so called hydrogen re-combination event, about 13.7 Gyr ago. What happened outside that light cone is less certain, and there are hints in the WMAP data set (soon to be updated! Be excited, very excited!) that in some directions the events outside our light cone were not the same as in other directi

Re:

[Hatta]

Everything else - events in neither light cone, which means they cannot affect us and we cannot affect them.

It will affect us eventually, when both light cones get large enough to intersect. That is, unless they are far enough away that the expansion of the universe outpaces the growth of the light cone.

Depending on an observer's motion relative to us and such an event, someone might see the event as happening at the same time as the here-and-now, or before, or after.

Wouldn't such an observer be moving fa

Re:

[CapOblivious2010]

It will affect us eventually, when both light cones get large enough to intersect. That is, unless they are far enough away that the expansion of the universe outpaces the growth of the light cone

Sure, but that's not the point - relativity talks about "events" which are particular points in space and in time. You're treating "us" as a point in space but a line in time.

Wouldn't such an observer be moving faster than the speed of light?

Nope - that's the whole point. Relativity is actually pretty simple (special relativity, anyway), but you have to get past a couple of things, and one of the biggies is that space and time don't work the way you think they do. Your "common sense" has jumped to unwarranted conclusions based on severely limited experience, and until you

Re:

[Hatta]

We're still talking about two events that are outside of each others light cones. In order for an observer to observe both events at all, let alone ascribe them an order in time, he'd have to be travelling faster than the speed of light.

I'm quite aware of how special relativity works, thank you.

Re:

[CapOblivious2010]

We're still talking about two events that are outside of each others light cones. In order for an observer to observe both events at all, let alone ascribe them an order in time, he'd have to be travelling faster than the speed of light.

No, the observer just needs to be situated so that both events are in his past light cone. That's completely independent of whether they're in each other's past or future light cones.

See http://en.wikipedia.org/wiki/Relativity_of_simultaneity [wikipedia.org]

Re:

[Hatta]

Ah, that's a very good point. Thanks.

Re:

[wonkey_monkey]

Yes, it is.

(well, if you don't have to provide any evidence, nor do I).

Re:

[nitehawk214]

Look, if he argues with you, he has to take a contrary position.

Yes, but that's not just saying "No it isn't".

Re:

[Your.Master]

No, it's entirely true. Just look up the definition of relativity -- even just the word itself, not the physics term. It literally means the absence of absolutes -- in this case, space and time.

A consequence of relativity is that Alice and Bob can disagree on which came first: event C or event D, and both can be correct and both correctly think the other guy is incorrect, because each exists in a realm where their event actually did come first. Despite inhabiting the same universe.

This said, we think th

Re:

[nitehawk214]

Inflation theory doesn't say whether the universe is infinite or not, it is just potentially compatible with both an infinite and a finite universe.

I suppose that is why GP said "almost infinitely", which really is a terribly meaningless and confusing phrase when you think about it.

Re:

[RockDoctor]

GP said "almost infinitely", which really is a terribly meaningless and confusing phrase when you think about it.

DON'T DO THAT!

Think about what happened to Georg Cantor as a result of thinking too seriously about infinity.

Re:

[nitehawk214]

GP said "almost infinitely", which really is a terribly meaningless and confusing phrase when you think about it.

DON'T DO THAT!

Think about what happened to Georg Cantor as a result of thinking too seriously about infinity.

Will I go insane if I think about someone thinking about infinity?

Re: FSVO "about"

[Anonymous Coward]

It does when your wife says she's three month pregnant, and you were on a business trip three months ago.

Re:

[digitig]

It does when your wife says she's three month pregnant, and you were on a business trip three months ago.

Good job she came with me, so I didn't have to calculate the relativistic effect of only one of us making the journey.

Re:

[Galactic Dominator]

but also cause and effect are relative to the spectator

Well I suppose facts and science are relative to a spectator...at least until they try to replicate them.

Re:

[cusco]

The speed of light is also by definition the fastest information can travel if that information is carried by light. If the information is carried by some other method, such as sound waves, then the speed of sound is the fastest it can travel. Remember, we can't even measure around 90 percent of the mass and energy in this universe yet. I would be very surprised if we don't eventually find something faster than light, at which point that will be your new speed limit.

Re:

[Neil Boekend]

Assuming that our current understanding of physics is correct, there is nothing that can travel beyond the speed of light through space-time.

That does leave us with some loopholes.
1. Our understanding of physics could be incomplete. There is much yet to discover, so this may be the case. However, the current models are verified extremely precisely.
2. Warp drives. Not traveling through space-time but morphing it would help. However this seems to require massive amounts of energy. I believe the last ca

Re:

[blue trane]

Regarding point 3 "we have no reason to believe...", that same argument was used against black holes once. From http://greekgeek.hubpages.com/hub/Real-Photos-of-Black-Holes [hubpages.com]:

Einstein himself thought they were "too strange to be real."

"When I was a PhD student, people used to giggle when you hear[d] about black holes. They're like unicorns, mythical creatures. We call this the 'giggle factor.' People would say, 'Beam me up, Scotty.' Well, no one is laughing anymore."

~ Dr. Michio Kaku, Theoretical Physicist, o

The relativity of wrong

[TapeCutter]

Yep, when I was at school black holes were considered a "mathematical curiosity", it was considered "impossible" to detect planets around nearby starts with an Earth bound telescope, the phrase "big bang theory" was still a derisive comment about said theory, there was still a debate about the reality of tectonic plates....the list is long and I'm only in my 50's. - This phenomena is what Asimov referred to as The relativity of wrong [tufts.edu]

Re:

[Neil Boekend]

I didn't say there wasn't one. I just said we have no reason to believe there is one. That is a cold, hard fact.
At this point it is like a god. No one can prove that he exists and no one can prove that he doesn't exist. We once logically assumed that the universe was created by a god. Any other cause was more complex with the information we had. Nowadays we know more. Much more.
In the same way we should assume now that there is no subspace. That doesn't mean that we should hold to this assumption when ex

Re:

[cusco]

Most of the theories that attempt to unify quantum and relativistic space assume multiple (7 to 25) additional dimensions that we currently can't detect and for which we have only the most vague of descriptions. Light is the fastest phenomena in the space/time that we know, nothing says that there can't be something faster that we currently can't detect.

Re:

[amRadioHed]

But there was reason to believe in black holes. There was no reason to believe an object with an escape velocity faster than the speed of light couldn't exist. They were strange but they solved a very simple problem. Subspace on the other hand is just wishful thinking for those who want to think FTL travel will someday be possible. There is no reason to believe it might or even should exist based on anything we know about the universe.

Re:

[blue trane]

Well there is entanglement.

Re:

[blue trane]

I thought we were talking about subspace, the subject of the article?

Re:

[blue trane]

What about this sentence in a post I was responding to?

Subspace on the other hand is just wishful thinking for those who want to think FTL travel will someday be possible.

Re:

[Bengie]

I thought the speed of light is the fastest information can travel through space, but not to say there aren't shortcuts to using space.

Re:

[cusco]

The fastest thing currently known. Nothing says that there isn't something faster that we currently can't detect. A century and a half ago we couldn't detect ultraviolet light or cosmic rays, and half a century ago we weren't even sure that neutrinos actually existed.

Re:

[sFurbo]

The problem is that moving information faster than the speed of light in a relativistic universe is equivalent to having an effect precede its cause, i.e. breaking causality. Or, more succinctly, {causality, relativity, FTL}, pick two.

Re:

[VortexCortex]

The speed of light is also by definition the fastest information can travel.

We once thought the sound barrier was unbreakable. So far no matter can travel through space faster than light, but that won't stop us from using relativity to change the definition of travel. [nasa.gov] There is a horizon beyond which we can not currently see -- Galaxies are travelling away from us faster than the speed of light from them can reach us. Aren't they traveling faster than light? Oh, that's expansion... So, if it's space that's moving then the matter doesn't have to travel through space to achieve f

Re:

[michelcolman]

Galaxies are travelling away from us faster than the speed of light from them can reach us. Aren't they traveling faster than light? Oh, that's expansion... So, if it's space that's moving then the matter doesn't have to travel through space to achieve faster than light speeds.

That's just the result of a weird (put pragmatically practical) definition of space-time coordinates called "co-moving coordinates".

According to the "normal" rules of special relativity, the speed of light relative to us is the same everywhere, there's no such thing as "space itself expanding", and nothing goes faster than light. However, using those same definitions, we are the oldest part of the universe (using our reference system), all distant galaxies moving away from us at high speed are aging more sl

Re:

[amRadioHed]

The sound barrier was not the same at all. We knew of things going faster than sound, we just didn't think we could engineer a machine that could survive the stress of breaking the sound barrier. It's like building a fusion reactor, we know in theory it's possible but some people believe the engineering challenges are too great to overcome. The speed of light is different. We know of nothing that goes faster than light, and all the evidence we have supports this theory that nothing can go faster.

Re:

[Bengie]

At some point in the past, I brought up a question in a physics forum used by college, graduate, and PHDs. I asked if a blackhole had a radius greater than 1 light second, and something fell past the event horizon, wouldn't the object be moving fast as light after 1 seconds given that acceleration at the even horizon is c/s^2? Several people responded saying it doesn't matter because it's not proper acceleration, so the same restrictions do not apply. Either I got massively trolled or it seems to be common

Re:

[cyn1c77]

Did it really? I think that's a philosophical question. Personally, I think not only space and time but also cause and effect are relative to the spectator.

The light carrying the information that this is happening is just arriving here. The speed of light is also by definition the fastest information can travel. It may "in reality" have happened 3.8b years ago, but the effect can only now affect someone here. Even if you happened to have an observation post there and 3.8b years ago they noticed "hey, they're falling into each other NOW", and they sent that information right away, the information would not have reached us before the event since, well, the information of the event ITSELF is traveling at the speed of light, which, as stated before, is the fastest an information sent to us by the observation post could have traveled.

Long story short, the absolute moment in time when something happens does not matter as long as you cannot overcome its information propagation speed. It will of course change if someone happens to find a way to propagate information faster than the speed of light... which would open a completely different can of worms if you ask me (but that's beyond the scope of this post now).

What this all comes down to is that the absolute moment of some event does not matter, but only the relative moment that you receive the information.

You're making the issue more complicated than it really is. (Perhaps you are also a cosmologist!)

Fact 1: Our current understanding of physics implies that this event happened 3.8 billion years ago.

Fact 2: In colloquial English, "About to" indicates that the preceeding action is imminent.

Given that "about to" indicates a future action and this event happened in the past, the title is either (a) illogical, (b) inconsistent with the English language, or (c) not consistent with our current understanding of phy

Re:FSVO "about"

[Sardaukar86]

The speed of light is also by definition the fastest information can travel.

No, it's not.

Sorry, Opportunist, it looks like this eloquent and reasoned rebuttal has not only completely defeated your argument but also dealt a death blow to that silly Special Relativity baloney.

Re:FSVO "about"

[digitig]

It's not by definition the fastest information can travel. It's the fastest according to our current understanding, which might be wrong.. The OP confused a priori with a posteriori truth -- logical certainty with scientific confidence.

Re:

[Jeremy Erwin]

wikipedia notes that
Special Relativity

is based on two postulates: (1) that the laws of physics are invariant (i.e., identical) in all inertial systems (non-accelerating frames of reference); and (2) that the speed of light in a vacuum is the same for all observers, regardless of the motion of the light source.

som nice juicy a priori truths for you.

The absolute speed limit (for particles with positive rest mass) is a consequence of special relativity.

Re:

[digitig]

I don't think you understand what "a priori" means in the theory of knowledge. And it looks as if you don't understand how science works, either. Try reading some Kant.

Re:

[Jeremy Erwin]

And it looks as if you don't understand how science works, either

I may not know enough about Kant to fully understand why Kantians were challenged [stanford.edu] by Relativity theory, but I do know that the philosophy of science is an unsettled field. Perhaps the best way to understand science is to do science, and not simply argue whether "a priori" and "a posteriori" are adequate containers for human knowledge.

On the other hand, you are correct, and I was in the wrong-- to the extent that the "invariance of light" relies on experimental data, it is a posteriori.

Re:

[RockDoctor]

The absolute speed limit (for particles with positive rest mass) is a consequence of special relativity.

Nope ; it's a consequence of Maxwell's laws of Electro-Magnetism. But most people didn't believe that part of Maxwell until (1) Fizeau and his experiments on the speed of light in different moving media, followed by (2) Lorentz's explanation of Fizeau's (and Michelson-Morley's) results in terms of contractions of space and/or time following motion with respect to the "luminiferous ether" ; then in 1905 (

Re:

[Jeremy Erwin]

Thanks.

Re:FSVO "about"

[Anonymous Coward]

Are you suggesting, perhaps, that Stupid travels faster than light? You may have a point.

Re:

[Archangel Michael]

Sorry, Stupid seems more like Black Holes rather than anything based on the speed of light. With stupid, you send information in, and nothing much of value escapes; a black hole.

Re:

[RockDoctor]

Information can transfer faster than light via quantum entanglement.

I'll fix that last bit ...

via the quantum entanglement of particles whose travel is limited to the speed of light.

If you like your SF, Charlie Stross has a couple of books where the consequences of that are explored (as a plot element of moderate consequence). Singularity Sky (2003, ISBN 0-441-01072-5) and Iron Sunrise (2004, ISBN 1-84149-335-X) ; good enough to live on my ink-and-paper bookshelf.

Re:

[timeOday]

It's unobservable to humans on a whole 'nother dimension anyways - duration. I don't think anything on this scale can change noticeably during our paltry lifetimes.

Re:

[Sockatume]

Less than 3.8 billion years ago - space is expanding.

Re:

[michelcolman]

Well, time does slow down in the vicinity of a black hole, so they may still be "just about" to embrace, and forever will be from our point of view. Depending on what coordinate system you use, of course.

We can never actually see something cross the event horizon of a black hole, objects will always slow down to a halt before the event horizon (even though from the point of view of the object itself, time continues normally and it crosses the boundary in a finite amount of time). I expect the same is true f

Re:

[wonkey_monkey]

The whole thing will just appear to freeze.

Doesn't it also become unobservable at the same time? Err, when I say time, I mean... uh...

Old news

[caseih]

Happened over two billion years ago and we're just hearing about it now!? Typical.

Re:

[Dunbal]

oblig: "Well the thing about black holes, you see, is that they're black. And the thing about space is - that it's black..."

Re: Old news

[todrules]

So you had to go and play the race card didn't ya?

Re:

[Dunbal]

Er, Red Dwarf. Nerd card revoked.

Re:Old news

[tgd]

Happened over two billion years ago and we're just hearing about it now!? Typical.

Its Slashdot ... You'll hear about it next week, too!

Re:

[Opportunist]

Quite a period for a binary star.

Re:

[thegarbz]

On the upside in this case slashdot was only 0.000000000001% slower than every other news outlet. Surely this is a new speed record.

Did not read article yet, but...

[Anonymous Coward]

So.. if they observed these black holes at a few thousand light years apart, and then some time later (assuming less than a few thousand years later) at just a few light years apart... does this mean that they are moving toward each other at faster than the speed of light?

Re:

[Dunbal]

Either that or distance is being seriously compressed!

Re:

[ls671]

Or the black holes, due to gravitational forces affecting each other, grow in size at a rate than looks faster than the speed of light thus making them look closer.

Whatever it is, I heard that the space time continuum is affected in areas where black holes are present. It might then be hard to "see" what is really happening. The links in the summary state they aren't sure about what is going on yet.

https://en.wikipedia.org/wiki/Spacetime [wikipedia.org]

Re:

[CastrTroy]

I thought the exact same thing. Seems like there's some kind of contradiction. Even if they were both moving at the speed of light, toward each other it would still take many centuries for them to collide.

Re: Did not read article yet, but...

[todrules]

FTA, it was more of a generalization on 2 black holes collapsing. It wasn't talking about anything specific in this case.

Re:

[wonkey_monkey]

if they observed these black holes at a few thousand light years apart, and then some time later (assuming less than a few thousand years later) at just a few light years apart...

That's a big "if." A casual reading of the summary might lead you to infer it, but it's more likely something they've extrapolated from the current observations.

If they where thousands of light years apart...

[TheSimkin]

Then won't it take them thousands of years to close the gap? What am I missing here?

Re:If they where thousands of light years apart...

[Anonymous Coward]

They're looking at the wavy motion in the jet they put out - which is apparently showing a history of their interaction.

Re:

[wonkey_monkey]

To quote todrules [slashdot.org]:

FTA, it was more of a generalization on 2 black holes collapsing. It wasn't talking about anything specific in this case.

Really?

[Frosty Piss]

Two Supermassive Black Holes About To Embrace

Kanye West and Kim Kardashian?

Re:Really?

[Anonymous Coward]

Black Holes, not assholes.

Re:

[Uncle Mark (AUS)]

Black Holes, not assholes.

Black Assholes

Re:

[RivenAleem]

Not touching that with a 1000 light-year pole.

Gravitational Waves

[Anonymous Coward]

Given the countless galaxies, each with its own supermassive black hole, just like intersecting waves, the gravitational waves could theoretically act like waves in the electromagnetic spectrum, or classical physics experiments with waves. Some waves would cancel, others would be much larger than the 2 source standing waves, and thus would appear as a stronger signal to a gravitational wave detector, given said detector was sensitive enough.

Gravitational waves could also bring us closer to the point in time of the "big bang" than the cosmic microwave background radiation images. I sincerely hope this discovery, gives solid reason to develop said gravitational wave detector. Kudo's to the NASA WISE team!

Rephrasing the question properly

[Ukab the Great]

Given the countless galaxies, each with its own supermassive black hole, just like intersecting waves...would you like a piece of toast?

Re:

[Sardaukar86]

+1 for the obscure RD reference!

somehow nostalgic

[Werrismys]

"they were separated by just a few light-years" sounds like my high school drama.

About to

[reiter.john]

You could say "About to" if it where 3.8 billion years ago. Just because we are about to see it doesn't change the fact that it already happened about 3.8 billion years ago.

Re:

[wonkey_monkey]

Only in this reference frame.

Re:

[wonkey_monkey]

It's not at all theoretical. It's how reality works. It isn't any less true just because we can't anything bigger than a subatomic particle anywhere near such a reference frame at the moment.

Re:

[wonkey_monkey]

I would, but I'm not sure you exist, so there's probably no point.

Re:

[wonkey_monkey]

We see two black holes.

Not one.

Therefore they haven't coalesced yet.

The light takes 3.8 billion light years to get here, so they may well have already* coalesced.

*for a value of "already" that unique to our reference frame.

Event horizons

[drakesword]

From the blackhole standpoints they will never 'embrace'. Nor do they care, they are blackholes!

Re:

[michelcolman]

Actually, it's the other way around. From their point of view, they will embrace just fine. From our point of view, they never will.

If you fall into a black hole, outside observers will see you slowing down to a halt, and your watch stopping, before you reach the event horizon. For you, though, time will continue normally and you will cross the event horizon in a finite amount of time.

In fact, depending on what coordinate system you use, black holes may not even exist yet. Every "almost-black-hole" is stuck

Obligatory Muse Reference

[PopeRatzo]

Glaciers melting in the dead of night
And the superstars sucked into the supermassive
Supermassive black hole

Re:

[soccerisgod]

Damn! I just wanted to post that :D Was my first thought on reading that headline, too!

hmm

[Anonymous Coward]

Stupid question, but,

If they were 1000 LY's apart, and are now just "a few" LY's apart, *during the timespan of human scientific observation via modern optical tech*, does that indicate they are traveling FTL?

eg, they moved 1000 LY inside of (50?) earth years.

A Strange Meeting

[Jim Sadler]

So we are to conceive the notion of two singularities merging to become one. But a singularity has zero size and therefore has zero location. And even though the two combine the size will stay the same. If i tried to make an equation with this mess it would read huge nowhere of zero size plus another huge nowhere of size equals another nowhere no larger than either of the original nowheres. So there we have it 1 plus one now equals 1. I think I need more meds.

Re:

[Neil Boekend]

See it like this:
A black hole (size 0) combines with another black hole (size 0) to form a bigger black hole (size 0). 0+0=0 so that works.
As for location: black holes do have a location. It's at the center of their schwarschild radius.

All this is difficult to know for sure. We can hardly go and take a look.

Re:

[Neil Boekend]

Sorry, I have other plans with the rest of my existence.

that's a big distance to close in on so fast

[BringsApples]

They look out and see 2 black holes thousands of light years apart. Then they look later (not thousands of years later, mind you) and they're mere light years apart. I have such a poor understanding of how this is possible. Can anyone explain?

Re:

[Urkki]

They're looking at the jets, which conveniently record the history of the interaction, like a recording tape that is shooting out of them.

The black holes themselves are still moving quite "normally".

Intent

[wjcofkc]

Perhaps what we are seeing is an engineering effort or scientific experiment beyond our understanding. Perhaps one day, if we survive our infancy, we to will find a practical use for black holes. Assuming an upper limit to technology does not prevent their manipulation. As it stands - with physics in general so incomplete - who knows? Don't mind me, I'm posting on very little sleep.

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[account_deleted]

Comment removed based on user account deletion

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[rsborg]

So what happens when both black holes collide and suck each other in?

As you read about black holes and event horizons you'll find that an external observer will never really see anything "hiting" the center of the black hole as time dilation forces the object to appear to go slower and slower as it descends the gravity well of the singularity.

In short, the heat-death of the universe will happen before we (assuming we live forever) ever find out what happens to this kind of singularity merger.

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[Maritz]

It's proximity to the event horizon that shows strong relativistic effects akin to being accelerated close to c (rather than proximity to the centre in and of itself). Black hole event horizons are not 'made' of anything in particular, they're just a region of space, so I expect we could observe black holes merging without any difficulties. Objects thrown in will appear to slow down and stop on the event horizon before gradually disappearing.