Can be really weird, anything you can think of.

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Can be really weird, anything you can think of.

INTJ8w9⭐⭐⭐⭐⭐🌀💜🖤🖤💙💚🤍💛🧡🧡❤𝗺𝗲𝘁𝗮𝗰𝗵ѕσυℓ𝐔𝐑𝐃𝐈𝐀𝐍𝐒♡⚝⛓🪐ᒍᑌᔕT ᗪO YOᑌᖇ ᗷEᔕT!

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What's the temperature like inside a black hole?Can be really weird, anything you can think of. View attachment 890554

Are you a black hole? Because attraction grows and time distorts the closer I get to you.

Temperature only depends on the (inverse) mass of the black hole (and some other universal constants).What's the temperature like inside a black hole?

So, the smaller the black hole, it’s temperature will be much higher, and the other way around, large black holes are colder.

This is because all black holes evaporate (proven by Stephen Hawking, Hawking’s radiation):

This is true for all astrophysical bodies, just with smaller effectsAre you a black hole? Because attraction grows and time distorts the closer I get to you.

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1) what is that face inside it lol?

2) If light around a black hole bends how can you see it? That light is supposed to not be able to escape becuase it's trapped and will eventually go inside it, so how can you see the streak of light around it?

3) Also another question, if light is all around the black hole how can you see the actual black part? Like how doesn't the light around just cover it?

Here are some more realistic pictures of black holes (below), no faces inside.

1) what is that face inside it lol?

2) If light around a black hole bends how can you see it? That light is supposed to not be able to escape becuase it's trapped and will eventually go inside it, so how can you see the streak of light around it?

3) Also another question, if light is all around the black hole how can you see the actual black part? Like how doesn't the light around just cover it?

Real: with source Event Horizon telescope/project

Computer simulation (real/using equations):

You would see some light bending effects and accretion disc, which contains of matter around black hole (the matter is on very high temperatures due to strong gravitational fields).

Are you a black hole? Because you are mysterious and unreachable.This is true for all astrophysical bodies, just with smaller effects

Black holes exist as assumed by general theory of relativity (4D space-time), and are today considered to be confirmed experimentally (observational cosmology).What do you think about variable dimensionality? Like, are black holes only an issue if you assume space is some newtontarded uniformly dimensioned background?

Time is not necessarily 1 dimension everywhere either. Hawking said.

Probably similar equations other than GTR would also have singularities, but I am not sure what would be the equation/theory.

I didn’t study multiverse, could be a part of this.

Are you trolling? 😸Are you a black hole? Because you are mysterious and unreachable.

Time only appears to stand still for the outside observer (who observes the event horizon). Whoever goes inside/over event horizon has a different notion of time. It’s not nothing inside, definitely strong gravitational forces, and depending on the type of black hole other interesting effects are possible (eg. ring shaped singularity or rotating holes).

Gravity is infinitely strong in the singularity (it’s a “hole” in space-time).what is it effectively that gives a black hole its gravity strong enough to devour light? I mean the thing formed as a result of a dying star imploding on its own gravity but do they actually last forever or can you have a black hole that 'run's' out of momentum? or... suction power

The other question, no, they don’t last forever, they evaporate and vanish, in 90 mlrd years or so.

An outside observer watches the largest black hole is the universe for 10^70 years. He watches all the stars around him fade and dissolve into Hawking radiation. Meanwhile, time never passes at the event horizon. The event horizon shrinks and disappears. Finally, the last star, formerly the largest black hole, in the universe dissolves. The entire universe cools to absolute zero.Time only appears to stand still for the outside observer (who observes the event horizon). Whoever goes inside/over event horizon has a different notion of time. It’s not nothing inside, definitely strong gravitational forces, and depending on the type of black hole other interesting effects are possible (eg. ring shaped singularity or rotating holes).

Let's say an astronaut fell into the black hole. What remained of the astronaut would never pass the event horizon. It would hit the surface of star once the object lost sufficient mass to no longer be a black hole. To what remained of the astronaut, time would appear like very little passed, though 10^70 years may have passed in the perspective of an outside observer.An outside observer watches the largest black hole is the universe for 10^70 years. He watches all the stars around him fade and dissolve into Hawking radiation. Meanwhile, time never passes at the event horizon. The event horizon shrinks and disappears. Finally, the last star, formerly the largest black hole, in the universe dissolves. The entire universe cools to absolute zero.

The fate of the universe is to cool / remain “nothing”, yes. The last astrophysical bodies that remain will be black holes, before them all warm bodies will cool off and evaporate. So basically all that will remain will be photons. If someone is interested, really smart and funny man explaining the same thing: Penrose lectureAn outside observer watches the largest black hole is the universe for 10^70 years. He watches all the stars around him fade and dissolve into Hawking radiation. Meanwhile, time never passes at the event horizon. The event horizon shrinks and disappears. Finally, the last star, formerly the largest black hole, in the universe dissolves. The entire universe cools to absolute zero.

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