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White holes are mathematically possible, according to general relativity. But does that mean they're actually out there?

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[-] rich@feddit.uk 5 points 1 year ago
[-] Yewb@kbin.social 4 points 1 year ago

Maybe a white hole is the big bang after mass in the black hole hits a tipping point?

[-] BaldProphet@kbin.social 3 points 1 year ago

I'm comfortable with the idea that humanity still has some things to observe that we haven't yet. Science being an ongoing process is one of the most exciting things about it.

[-] newtraditionalists@kbin.social 2 points 1 year ago

Interesting read. Especially liked learning how general relativity and thermodynamics interact. Thanks for sharing!

[-] dingleberry@discuss.tchncs.de 1 points 1 year ago

Wouldn't the Big Bang look like a white hole from our perspective?

[-] sparseMatrix@kbin.social 1 points 1 year ago* (last edited 1 year ago)

@readbeanicecream

I'm no authority, but I love this stuff. I read Dr. Hawking's book "A Brief History of Time", and it was not problematic for me.

My takeaway is that a black hole is a sort of manifold. It would follow that if there is a way into it, and stuff going into it, the stuff must be coming out somewhere.

The question is where that stuff comes out, and in what form, and when, in it's local time frame.

I had always envisioned this hypothetical 'other side' as a white hole. It seems like, since we haven't observed any white holes, that the exits must be elsewhere.

[-] exscape@kbin.social 4 points 1 year ago

I'm also no authority, but I strongly disagree that "it follows" that the stuff must be coming out.
We know that stuff enters black holes, and we know that they gain mass when it does. We think they shrink in mass over extreme periods of time, but other than that, I'm fairly sure we've never seen a black hole lose mass.

So if the mass comes out in a white hole, why does the black hole retain its mass?
I haven't read the book but I can't imagine he says, without strongly stating that it's very speculative, that such a thing could happen.

[-] sparseMatrix@kbin.social 1 points 1 year ago

@exscape

@readbeanicecream

By definition, a manifold has a place where things go in, and other things come out. So yes, it does in fact logically follow. If its a manifold, then it logically follows that what goes in comes out.

You're saying we know a bunch of stuff I'm not certain we know.

My understanding is that by definition, the singularity has infinite mass and infinite gravity, so there is no way it can gain mass; because infinity + 1 = infinity. It's the very nature of infinities. You can have a number of infinities, but manipulating them arithmetically always yields infinity. 2 x infinity = infinity. 3 / infinity = infinity.

Like zero, it is more identity than number. 0 = nothing, infinity = everything.

So if you hope to have me follow your narrative, you're going to address this assertion concerning increasing the mass of black holes first.

[-] exscape@kbin.social 3 points 1 year ago

Almost nobody actually believes the singularity is real, it's just what the math tells us -- it's where the math of GR breaks down, and a better theory of gravity would be needed to resolve it.

I've never heard a black hole described as a manifold, but then again I'm not sure exactly what a manifold is.

[-] sparseMatrix@kbin.social 1 points 1 year ago

@exscape

@readbeanicecream

Also Idk what you are talking about nobody believing there's an actual singularity; I don't know what else you think is happening, or of what use the mathematics might be if it doesn't approach some degree of accuracy as concerns the physical character of the phenomena

[-] exscape@kbin.social 1 points 1 year ago

Here's some reading about black holes singularities and whether they're real or not:
https://www.pbs.org/wgbh/nova/article/are-singularities-real/
https://en.wikipedia.org/wiki/Gravitational_singularity#Interpretation

We know that GR predicts some things extremely well, and QM some things extremely well, but they fundamentally disagree. Both CANNOT be entirely correct, and black holes is the most notable case where one or both break down. (See the "black hole information paradox".)

[-] sparseMatrix@kbin.social 1 points 1 year ago

@exscape

@readbeanicecream

A couple examples of manifolds:

  • exhaust manifold on combustion engine takes raw cylinder exhaust gases in pipes that all come down and combine into a single larger pipe that connects to the input of a catalytic converter.

  • the plenum in your attic is a manifold. One big duct runs from your air handler into a box with several ducts coming from it, delivering air to each of the vents. the ducts and the plenum form a manifold.

In literature, it means 'many and various'.

In mathematics, "a collection of points forming a certain kind of set, such as those of a topologically closed surface or an analog of this in three or more dimensions"

In Kantian philosophy, "the sum of the particulars furnished by sense before they have been unified by the synthesis of the understanding"

Origins: Old English manigfeald ; current noun senses date from the mid 19th century.

All from the wikipedia

They all have some descriptive relevance, but the one that really counts for us is the math one, suggesting the closed surface.

It wouldn't surprise me though if it still worked; there are many examples of topologically closed surfaces that can still be traversed, if in unexpected ways. I'm thinking of another manifold, the klein bottle, and of course the mobieus strip.

[-] FfaerieOxide@kbin.social 1 points 1 year ago

the singularity has infinite mass and infinite gravity, so there is no way it can gain mass; because infinity + 1 = infinity. It's the very nature of infinities. You can have a number of infinities, but manipulating them arithmetically always yields infinity. 2 x infinity = infinity. 3 / infinity = infinity.

Can't infinities be different sizes, though?

[-] sparseMatrix@kbin.social 1 points 1 year ago

@FfaerieOxide

@readbeanicecream @exscape

Thank you for linking that! I knew I had read that they could be, but I couldn't recall where. It might not have been Scientific American, but that'll do XD

While clearly they can be, infinity == infinity is still true, If I recall.

Also, I've got some simple problems with that crate analogy, Scientific American or not; any crate with an infinite number of anything inside it cannot be emptied, it's in the very definition of infinite. Consequently, neither crate will ever empty and the pairing will be an infinite pairing of apples and oranges.

[-] Sodis@feddit.de 0 points 1 year ago

Black Holes do not have infinite mass. We pretty much know how heavy the are, because we can measure their gravitational influence on surrounding matter. They just have enough gravity, that light can't escape their gravitational pull. Infinite mass would also break a lot of fundamental physic laws, like conversation of energy.

3/infinity is 0. You probably meant infinity/3 is infinity.

[-] sparseMatrix@kbin.social 1 points 1 year ago* (last edited 1 year ago)

@Sodis

@readbeanicecream @exscape

According to my understanding, beyond the event horizon, gravity is infinite.

I am not a physicist - I'm a guy who read Prof. Hawking. Given the nature of llight vis a vis observation, inside the singularity, mass and gravity approach infinity.

Mass bends spacetime into gravity. Gravity bends light. Infinite mass > infinite gravity > stops light == singularity.

Note that things happening near the singularity are not the same as things that happen beyond the event horizon.

[-] Sodis@feddit.de 1 points 1 year ago

Density is infinite (or at least very high) and that creates the singularity. Mass is still finite. You don't need infinite gravity to trap light as well, you can look into the calculation of escape velocities for that.

this post was submitted on 13 Aug 2023
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