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Travel INSIDE a Black Hole

Travel INSIDE a Black Hole

Hey, Vsauce. Michael here. And today we are
going to go inside a black hole. It’s not going to be comfortable, but it will be pretty
fun. Now, first thing’s first: mathematically speaking, anything could become a black hole,
if you were to compress it into a small enough space. That’s right, you, me, this camera –
everything in the unvierse has what is known as a “Schwarzschild radius.” A tiny, tiny amount
of space that, were you to collapse the entire mass of the object into, its density would
be so great that its gravitational pull would be so great that not even light could escape
from it. You would have a black hole. If you were to compress Mount Everest into
something smaller than a nanometer, you would have a black hole. And if you were to compress
the entire Earth down to the size of a peanut, you would have a black hole. But, fortunately for us, there is no known
way to compress Everest or Earth in that fashion. But a star, many, many, many times larger
than our own Sun, has a much larger Schwartzchild radius, and when it runs out of fuel and can
no longer keep itself hot enough, it collapses to a single, infinitesimally-small point known
as a “singularity.” Its density will be infinite and so its
gravitational pull will be so strong that nothing can escape, not even light. But enough about ways black holes form, let’s
jump into one. First question: what would it look like from the outside? Well, we know
that gravitational fields bend space and time. Stars behind our Sun will actually appear
to be in slightly different locations from Earth, because the Sun’s gravitational field
bends the light coming from those stars. When it comes to the gravitational fields
of larger objects, like entire galaxies or, for that matter, a black hole, the effect
is even nuttier. Light coming from object’s behind them is significantly distorted,
producing smears and smudges. As seen from Earth, the blue galaxy behind
this red galaxy is completely distorted, like a fun house mirror. So, rather than appearing
as it really should, it looks to us like a ring – a smudge all the way around the red galaxy. This is known as “gravitational lensing.”
Now, take a look at this simulation of a black hole with a galaxy millions of lightyears
behind it. The galaxy’s really not in danger of the black hole’s “suck,” but the light
coming off of that galaxy certainly is. Watch as the galaxy passes behind the black hole
and its light is contorted, twisted and distorted. Now here’s a really fun demonstration. What if the Earth were to orbit around a black
hole? Looking from the outside, the Earth would look normal at first, but as soon as
it passed behind the black hole, the black hole’s gravitational field would warp the
light reflecting off the Earth, producing this. For the sake of simplicity, let’s jump into
a simple black hole, one that doesn’t have a charge and isn’t moving. And, also, isn’t
already sucking up a bunch of matter. So it’s just there on its own. As we approach, the distortion of the sky
grows greater and greater. A larger and larger portion of our field of view looking forward
into the black hole will be filled with darkness. At this point, where half of our field of
view has been swallowed up in darkness, we have reached the “Photon Sphere.” At this point, light is not going to necessarily
get sucked into the black hole, but it doesn’t necessarily leave it either. Instead, at this
magical point in space, light, photons, can actually orbit the black hole. If you were to stop here for a moment and
look to the side, you could theoretically see the back of your own head, because light
reflecting off the back of your head would travel all the way around the sphere of the
black hole, right back to your face. A gravitational field not only warps space,
it also warps time. Now, for most intensive purposes here on Earth, we never have to worry
about that. But near a black hole, gravity would be so strong that an observer standing,
watching you jump into the hole, would see something quite strange. They wouldn’t see
you get sucked quickly into the hole. Instead, they would see your approach become slower,
and slower, and slower, until you reached a point known as the event-horizon. This is a point in space where, once crossed,
there’s no going back. It is at that point that light can no longer escape. And, so,
to a person watching you fall into the hole, that would be where your journey ended. You
would seem almost frozen in space, the light coming off your body becoming increasingly
red-shifted until you simply faded into nothingness. They would never see you cross the event-horizon. But for you, of course, everything would seem
fine and dandy. You would continue pass that horizon to your now, inevitable, death.
As you continue to approach the black hole’s singularity, your view of the entire universe
would get compressed into a smaller and smaller point in space behind you. If the black hole we’re jumping into was large
enough, things actually might be quite comfortable at that event horizon. We’ll know that we’re
never going to escape and that our lives are pretty much over, but it might take us hours
to actually reach a point where things started to hurt. Why would they hurt? Well, the closer you get
to the singularity, the more significant the difference in gravitational pull is across
space. And, so, parts of me that are closer to the singularity would be pulled more strongly
than parts that were facing away and my entire body would be stretched toward the singularity.
The effect would be so incredible, scientists don’t usually call it stretching, they call
it “Spaghettification.” Once you reach this point, you would be dead.
Your molecules would be violently ripped and stretched apart, and when they got to the
singularity, well, we don’t really know what would happen. Perhaps they would completely
disappear in violation of all the laws of physics or maybe they would reappear elsewhere
in the universe. It is believed that a moving or spinning black hole might actually create
what is known as a “wormhole,” a way of transitioning across space faster than light. Not in any
way that violates the laws of science, but in a way that takes advantage of the universe’s
dimensions. For instance, if I wanted to get from this
point to this point, I’d have to travel the distance. But, theoretically, a wormhole would
do something really crazy. For instance, this. Now, the two points are right next to each
other and I can travel between them almost instantaneously. But, again, this is all theoretical. Luckily,
we do have a possible way of analyzing black holes right here on Earth. Enter the “Dumbhole.” Just as a black hole does not permit light
to escape, a Dumbhole is an acoustic black hole. It won’t allow sound to escape. It doesn’t
have to be nearly as powerful and scientists have been able to create Dumbholes in laboratories
using special fluids traveling at the speed of sound. A lot of progress still needs to be made in
the world of acoustic black holes, but we may be able to learn an amazing amount of
information about how black holes work by looking at how sound is treated in a Dumbhole. Now here’s another good question: What would
it look like to travel at the speed of light, say, toward the Sun? Well, surprisingly, you
wouldn’t just see the Sun immediately rush up toward you. No, no, no. In fact, initially,
it would look almost as if the Sun were receding away from you. Why? Because your field of
view would vastly increase in size. You would be able to see stuff almost behind you.
And here’s why. As you sit there, not moving yet, looking
at the Sun, there’s light coming from stuff behind you. But, if you travel the speed of
light, you will actually reach that light coming from things behind you. As you reached
light speed, your field of view would expand like this, concentrating the stuff in the
middle. But where are you in the universe? Or, here’s
a better question. Where is the center of the universe? Well, this might sound crazy,
but it’s everywhere. This is known as the “Cosmological Principle.” No matter where
you are in the universe, everything else will seem to be moving away from you, expanding,
at the same rate. The universe is expanding, but not like a
balloon getting bigger with all the people inside it. Instead, it’s as if we are the
surface of a balloon. If you were to put a bunch of dots on a balloon and then blow it
up, all the dots would move away from each other at the same rate. And, on the surface
of the balloon, there is no center. Take a look at these two layers. They are
exactly similar, except the top layer represents a 5% expansion of the bottom layer. Let’s say that you live on one of these dots,
and you want to measure where everything is moving away from. Well, watch what happens
when I line up a dot in the past and the present. Boom. It looks like the center of the expansion.
I can do this with any dot. As soon as I choose a dot to be the frame of reference, it immediately
becomes the center of the expansion. So, while dying in a black hole would be lonely,
and scary, and morbid, when you look up into the sky think instead about this. No matter
where you are, or who you are, or what your friends or your parents, you really,
scientifically, are the center of the universe. Finally, what if our universe was a googolplex
meters across? It is nowhere near that large. But, if it was, it would be so voluminous
that, statistically, it would be nearly impossible for there not to be an exact copy of you somewhere
else out there in the universe. To see why, I highly suggest that you click right there
and check out Brady Haran’s new channel “Numberphile.” It’s part of the YouTube original channel’s,
and I’ve worked with these guys before. They’re amazing, they’re my favorite kind of geeks.
So, check out that video, watch their other stuff, and if you like math,
I highly suggest that you subscribe. And as always, thanks for watching.

100 thoughts on “Travel INSIDE a Black Hole”

  1. 7 yrs ago, this was the first vsauce video that I watched. Today I’m a physics grad student 😂 thanks for the inspiration 🙏🏻

  2. black holes r in fact a sun/star in the next dimension. all of the energy on one side is burned at the extreme density location of the other sides revelation, and the same thing occurs here as our sun is an actual black hole on the other side.

    But hey I could b wrong…

  3. “But for you, everything would be fine. You’d continue on past the event horizon and to your inevitable death.” What?! 🤣🤣🤣

  4. I really thought, 7 years after the video was released, that I would be the first to point out "the black hole's SUCC".

  5. Couldn't 'Spooky Action send info from inside a black hole?
    A ButtHole contains Dark Matter backed by Dark Energy resulting in a Dark Fate, I couldn't resist.

  6. Density of mass does not equal increased gravity. However your mental density does approximate the effects of a black hole.

  7. The balloon analogy only works on a piece of 2 dimensional paper. Two objects moving in the same direction at the same speed do not increase distance relative to each other. You are a stupid man Vsauce.

  8. there are 2 ways to look at Vsauce's videos, you can take it as a way to talk about science, or you can take it as a confident booster lol

  9. VSauce Michael just called me a dumb hole I’m fucking shaking and crying mascara is running down my face and I can’t stop rocking back and forth

  10. question reguarding black holes. sience they pull in light, it stands to reason that at some point , the light goes in orbit. doesnt that mean, at some point where all the light is concentrated from all the stars around , will more or less make a laser strong light ? cause the light cant escape, it will just go round and round forever for lightyears. so even getting into the blackhole is more or less impossible. cause u will get fried by this laserlayer or orbiting light.
    was just something i was thinking about

  11. If you were an outside observer watching that astronaut fall into the black hole, how long would he be visible? How long would it take before he disappeared? I can't really find the answer on Google. I assume the answer is relative to the size of the black hole, but honestly I'm just guessing.

  12. (KJV)Romans 1:19-20
    Because that which may be known of God is manifest in them; for God hath shewed it unto them.
    For the invisible things of him from the creation of the world are clearly seen, being understood
    by the things that are made, even his eternal power and Godhead; so that they are without excuse

  13. 4:15 Vsauce: "that if an observer standing, watching you jump into a black hole"…

    Me: WhERe iS My ReDStOnE OutPuT?

  14. Cool, now if we can only see how it actually looks like on the surface of the moon. Hopefully in my generation, man will actually land there instead of watching the movie(s)😟

  15. "Today we are going to go inside a Black Hole . It's not going to be comfortable, but it will be pretty FUN .
    0:02 uhhh….. OK

  16. i know you aint believe me but i have across a black hole and im from a parallel univers and im searching for a way so i go back home

  17. I have a small theory though. Like VSauce said, once you enter a black hole, the molecules in your body would start to extend because of the force of gravity, killing you in the process. What if this is because these molecules are actually being transfered to another location? And once we got there, our molecules would slowly but surely start stacking up again?

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