How to Make Black Holes (Both Regular and Supermassive)

This is probably the most underrated channels on RUclips. I have only recently started watching your videos and I can already say that you deserve at least a million subs.

I’ve been binge watching your cosmology series and my 5 year old daughter has shown an interest. She particularly likes the music.

Dave, learning about Hawking Radiation and the death of black holes is the first time that I’ve joyously exclaimed “that is f**king amazing!” out loud to myself on my own in a loooong time. I learn a lot from you by watching all of your videos, but THIS little titbit of science is absolutely fascinating, and I’m off to go learn more.
Thank you for the years of brilliant science communication. One of my favourite channels on RUclips.

Ant Man was close to becoming a black hole!

Dave, you know what makes these videos so good and entertaining? You! You sound so excited to be teaching! 😃

Your explanations about ALL the subjects you cover are amazing. Nobody else is covering key subjects and cross-refering them as methodically and systematically as you. Please, keep it up and thanks. :)

Due to a German spelling error in this video, this comment section now belongs to the BRD.
Thank you for your Compliance.

Hahah, as a german I loved the Schwarz(s)''child'' radius pronunciation

I've watched a lot of these videos on black holes. I find them absolutely intriguing. But I learned more about them in this 9 minute video than I ever knew before.

7:56 Why does it have to be the negative of the pair that falls in? isn't there an equal chance that the positive one falls in, thus increasing the mass?

"We can't take actual photographs of black holes."
29 yr old female computer scientist: "Hold my beer..."

By far one of the best videos I've seen in RUclips about Black holes. Thank you so much !!!

your videos make me smile lol.
thanks for what your doing its helping me so much in my classes and it's really nice to watch. keep up the good work

This is a really amazing video. I had never thought about a lot of this before- I accepted that they existed- I knew where they came from- but I didn't realise the whole escape velocity thing. This video is great!

Amazing video. I learned things I didn't even know could happen with black holes. Space is the place.

2:15 you say that every shuttle that has made it to space achieved escape velocity, but that's not true: they achieved orbital velocity which allows them to not fall back down while still being gravitationally bound. Also, no shuttle or manned vehicle has ever reached escape velocity yet (but the appolo missions came very close)

Great video. One minor error. You said the rockets and shuttles we send up have reached escape velocity. They haven't. If they had, they wouldn't orbit; they would leave.

*Schwarzschild
You’re missing an S throughout the entire video.

Your videos are best. Thanks for uploading this

I love the way you say 'how to make black holes ' as how to make pancakes. Explained in very understandable way, thank you so much!

This channel is a one stop shop for everything I'm looking for! Great content.

Love the way you explain this. Thank you!

Thanks for this channel Professor Dave

Great stuff as usual Dave. Thank you.

I just wanted to thank you for making these wonderful videos! I wish, more people would watch them and maybe then stop thinking about stuff like pseudo-science and start asking the right questions and most importantly look for answers in the right places. I am shocked at the loss of trust in science itself all around the world

Hi Dave,
it is called "Schwarzschild" not "Schwarzchild" and you pronounce the second part similar to "shield".
Literally "Schwarzschild" means black shield, a typically German Jewish name.

Wow! So many answered questions!!!

2:38
No, because you cannot divide by zero.
The escape velocity would *approach* infinity, but it would not *be* infinity, as the answer of dividing any number by 0 only tends towards infinity. It *is* not infinity.

Great explanation, and very good graphics.

Addendum, re 2:07
It's wrong to say "To make it into space, you need to reach [insert escape velocity or any other velocity here]" You don't need to reach escape velocity to make it into space. As long as your velocity is not zero and you have the energy to continue your motion, you can make it to space at ANY velocity. You can make it into space with a high altitude weather balloon and a velocity of 1 Km/ h. Escape velocity is instead, the velocity- unassisted by acceleration- needed to escape the gravity well of a body, such that the gravity of the body can no longer bring you back to its surface. Or to put it another way, escape velocity is when the curve described by your vector becomes flatter than the curvature of space around the planetary body in question. You need to reach escape velocity if you want to no longer be gravitationally bound to the body in question. However, you can both 'make it into space' AND be 'gravitationally bound to a planetary body' at the same time. That's why the moon is still with us in orbit.
Anyway, no disrespect to Prof. Dave. I'm certain he's already well aware of this and either made a simple mistake or was trying to explain it in simplistic/ layman's terms. There's quite a bit of technical stuff that goes into this (constant acceleration, or constant velocity and 0 acceleration? Hohmann transfer, or direct [which is currently impossible, due to the energy requirements] vector, etc...), so I can understand if Prof. Dave wanted to simplify things to avoid a lengthy tangent...

finally found somebody with actual knowledge with whom I can talk to about space stuff. thnx for providing me the email address, but I would prefer to comment so that other people can see and make it useful for themselves and maybe to start a conversation and spread knowledge.... cheers...

Are you going to update this video with the recent imagery from M87?
Just found your channel and LOVE it!

Just a little correction: Karl Schwarzschild was german so his name should be pronounced “svartzshield”
W is a v in german , i is ee and ch is sj and lastly v is an f
So Volkswagen is folks vagen wich means “Peoples wagon”0

Wow 😮...that's what how I can learn more about it! Thanks so much! #1 Chanel for this subject I'm much more fascinated to get another one of those explanation! I love it! 👌 Very impressive and great work 👍 to this man! Seriously, you can also, put another's one channels followers face member...but my question is, are you doing professor or some other things like teachings ? Sure..got talent to 👍👌You makes better me result

"....particles appear from quantum foam"
Me: w-wait, what?

0:46 Evidence For Black Holes
1:01 "Why are black holes black?"
Escape Velocity
3:05 Schwarzchild Radius 4:39 The Event Horizon
5:22 How do we know Black Holes Exist?
6:30 Supermassive Black Holes at the Center of every Galaxy?
7:15 Orbits Remain unperturbed.
Black Holes eventually Die in 10^61 years

That's a great explainer.

Are you saying escape velocity is the same as orbital velocity? I always figured escape velocity to be the speed needed to escape the Earths gravity well and for example, orbit the Sun, or head to an outer planet.

You rock Dave!

I'd love to see you and Anton Petrov collaborate and talk about black holes

great video, buen video

Hey Dave, great video. Could you explain why the virtual particle that falls into the Black Hole doesn't increase it's mass. Seems like the Black hole should be get bigger and bigger over time.

Professor Dave, I have a doubt. I can't find any consistent article on this.
We just discovered the HR 6819 and, as you probably know, it was spotted by the two stars orbiting a heavier object. It was also reported that "there was an extra wobble in the periodic light shifts of one of the stars that indicated something else was asserting its presence."
Question: Why stars don't get their light strongly "dimmer" when they are at their "perihelion" to the massive object? I don't get that impression when I read "wobbling light observation" in the reports and articles.
Thanks in advance.

I always have trouble picturing what a black hole looks like: I see it represented as a literal "hole" in space, but it is actually an infinitesimal sphere that deforms spacetime so much that light can't escape. The picture he showed of the progressively smaller spheres which created what looked like spacetime wells helped me visualize it better. So is a black hole a point or a sphere with a ridiculously small radius, or are these essentially the same? Stars die and leave behind much smaller spheres, like a white dwarf; is a black hole kind of like a black dwarf/sphere (a physical "object") or is it nothingness, for the lack of a better word? Anyone?

SchwarzSchild radius

Thanks for the wonderful video! Why don't the north pole of any heavier object have space time curvature? Is space time curvature applicable only on south pole?

Thanks!

you have the greatest intro

I came here looking to make one, like a 5 minute craft for a black hole. What a scam!
Lol, I love you Dave! Keep it up.

I enjoyed this video as I do all your videos. I do have one question/comment. You said in the escape velocity equation that since the radius of a black home is zero that it would have an infinite escape velocity because the other terms would be divided by zero. But a number divided by zero isn't equal to infinity. It isn't equal to anything since division by zero is undefined. Perhaps a black hole's radius is something greater than zero or perhaps just as our physics breaks down in a black hole so does our math.

Amazing. Absolutely amazing!

Sir when regular black holes do one of the two things, they become supermassive ones:
i. When they swallow/eat enough material from their surrounding in their lifetime to form supermassive ones.
ii. When they merge with another
So I have a doubt regarding the point i: does this not violate hawking radiation, hawking radiation suggests that more a black hole eats more it evaporates even faster. And so every black hole should evaporate and there should be only one way to form supermassive ones, as defined by us humans. Or am I getting/understanding the i or Hawking Radiation wrong?
Professor Dave Please Explain!!
And Professor Dave, one humble request: Please make a video on Hawking Radiation, because I'm pretty confused when I asked that question to (myself about i)

7:44 coloring the name "Heisenberg" blue is very appropriate. I approve.

How does hawking radiation escape from the schwarzchild radius? Can you please explain in a video thanks

Is the visual diagram shown in the video accurate? The one with the regular star, neutron star, and black hole.

With regard to Hawking radiation, how does the positive partical escape the "pull" of the black hole?

Dave: Light travel at speed of light.
Me: Don't you say.

I have a question about the event horizon that has been bugging me for years.
Back in college (actually very close to when this video came out), my physics TA was teaching escape velocities using a photon orbiting black hole as one of the examples. During the example, the TA drew several possible orbits the photon might take. One path had the photon traveling in an elliptic orbit with the periapsis falling within the event horizon, while most of the orbit was still outside the event horizon (I hope that description makes sense).
The reason this has bugged me is that I've always heard that nothing can escape the event horizon, not even light. But this orbit still made sense to me; the TA explained that an escape velocity greater than c technically just means that nothing can escape the black hole's orbit, but it could still go outside Schwarzschild radius without reaching escape velocity. Therefore, while the photon could never escape, it was possible that it could still pass in and out of the event horizon while it orbits.
I thought this explanation made perfect sense; however, I've never once heard someone use an example of a similar orbit that only partially travels within the event horizon. Instead, I still always hear the event horizon described in the usual "point of no return" fashion, where nothing can ever leave.
So, is it literally impossible for light to exit outside the event horizon in any capacity, or is this just said as a simplification of light being unable to escape orbit? Do we actually know? They both would probably look pretty much the same to us since we could still never actually see anything (from Earth that is) that traveled inside the event horizon since the light couldn't escape orbit to reach us either way, so do we even have any way of finding out?

and about things like hot air balloons they don't have a velocity of 11.2 km/s right and yet they go up very high almost out of the atmosphere where people feel no weight, I think with constant velocity which need not be 11.2 Km/s anybody can reach outer space, it is only when one is throwing something into the sky it needs 11.2 km/s to escape the gravity, otherwise if u have a rocket or something it can reach outer space slowly too.

Hello, what do you mean by "black holes eventually die just like everything else in the universe"? What makes you think everything is dying? Aren't there some materials in stable forms which will remain unchanged til the end of time?

"How to make a black hole"
*Hey Ferb, I know what we are going to do today*

realy nice

Thanks Professor Dave! This video breaks it down so even a plumber can understand it. Your area in science may not encompass the search for Earth-like planets but I pose a question to you, theoretically. If we are looking for Earth-like planets, shouldn't we concentrate on Milky Way type Galaxies in order for the physics to be equivalent?

Wonder what would have you took an entangled pair of particles and sent one down a black hole... What would happen to the other in the pair? Just thinking...

I don't know if my question even CAN be answered, but would it be theoretically possible to build a device that forces particle-antiparticle pairs to form? If so, surely we could find a way to send the antiparticles toward a black hole at rate much faster than occurs naturally.

This video proves to any doubters that Albert Einstein proved nealy evrything we know about the universe is right neay a century before we could confirm that his calculations are right. And just like myself, as some may be stunned to hear, Albert Einstein was Autistic. Us Aspies (and only us who have Autism can use that term) can be mind bendingly intelligent.

What is the observable universe's swarszchild radius?

If you have a star with initial mass at 50 Solar masses for example, it will lose a great amount of its mass in the form of stellar winds during its evolution. After core collapse and during the explosion most of the remaining mass will form the supernova remnant. Thus, the mass that is left as a black hole is just a fraction of the initial mass. Finally, there is a specific class of stars with initial mass 140-250 Solar mass, that will explode without living a compact remnant behind them.

You need more subscribers!

Professor dave please reply
If a thermodynamic system has more internal energy U then other does this means that the system with more U (internal energy). Will have more temperature T

Great video. The physicist is called Schwarzschild not Schwarzchild, and in german it sound like "shield" not "child".

you said that black holes eventualy die. but what happens when a bh die? it simply vanquishes or explodes? and if it explodes what becomes of all matter it swallowed?

Do any cloud of h. And he is so big that his gravity pulls straight down to a blackhole or it need to be a star firs and follow the sequence

So would black holes even emit light if it wasnt for the event horizon? If they are infinitely small, we still wouldn't be able to see them, right?

This is so cool

Why are there 34 thumbs down? Who is going around RUclips that is so petty that they would leave a dislike on a video like this? I can't imagine being so miserable that I would ever do that. It's strange

Visualising the warp of spacetime of a black in a 2D plane is easy, but I'm having trouble imagining it in a 3D grid. Where would the event horizon be in a warped 3D grid?

Small note- Space shuttles don't reach escape velocity because you don't need to to reach orbit. The Saturn V rockets reached escape velocity though.

It is SCHWARZSCHILD not SCHWARZCHILD as you described, please take a brief moment to read it here: en.wikipedia.org/wiki/Schwarzschild_radius
Thank you Professor

Professor Dave, I have a stupid question. Hypothetically speaking, if the escape velocity of an object is >c, can it escape the blackhole?

Love your vids, drives me crazy that you mispronounced schwarzschild radius.

7:55 but why wouldn't the particle be affected by the gravity?

Slight correction, at 7:19 you said the earth's orbit would be identical if the sun became a black hole of equal mass, not exactly true, firstly you have the sun's gravity going from almost circular to perfectly circular, also mercury might be in the ergosphere, we know the heat from the sun (the YORP effect in particular) is a major component in changing the orbits of asteroids, there is almost certainly more examples that I can't remember right now...

Prof. A powered missile doesn't need to reach escape velocity to escape Earth's gravitational pull. Imagine something moving up at 1 metre per second (or 1 mph if you're American). Eventually it will leave Earth's influence. Escape velocity is only required for objects without their own thrust, i.e. projectiles.

i'll keep it in mind

Hi I thank you for your information, but you did say if the if the Earth is orbiting a black hold will the people on Earth be dead or will they still be living? You did not say!!

i just understood interstellar with crystal clarity thanks to this vid. fuck it man u really are amazing

repeat after me: "ssh-varts-shield" - Schwartzchild

How could two things infinitesimally small (quantum singularities) ever collide? ....or in other words, how could 2 things that have 0 volume manage to be in the same place at the same time?
I guess we know black holes collide, but Im struggling to visualize this. In my mind I can see that they are attracted to each other, moving towards each other but never quite reaching the same place in space given that their both infinitesimally small.
Ive been a science enthusiasts my whole life and was happy to randomly find your channel. Keep up the good work. John

2:08 most of them do not escape the earths gravity

I never understood : why does that compressed mass not extend back again?, some sort of a barriere?

Crank Lucas did a song about this stuff

Question: When a star goes nova, does it always produce a black hole? Second, when a black hole is formed, how come the energy released is not pulled back into the black hole thereby negating the outward push of energy? I hope that question made sense. I'm fascinated with this stuff but not completely in tune with the science behind it. Thank you in advance.

If we were to compress a person into a black hole and compare it to the black hole of a star, what would be the difference between the depth of each of their space-time warp? If the person only contains a little mass, and we were compressed into a singularity, I would imagine if we were to hypothetically travel through that black hole, our space-time warp wouldn't be as much as the singularity of a large star. So does this explain the big bang at all? Perhaps the largest star had so much mass that it collapsed into a singularity and its particles would fall through the space-time warp to "puncture" or "penetrate" out of space and create a big bang? Didn't the big bang come from a singularity as well?

I lived in the planet Martok for several years. One service they offered, was to compress your favorite asteroid into a black hole. If memory serves, on earth you had “pet rocks”. Think of these as our equivalent. The first thing I did when I arrived on earth was to buy a Pet Rock off EBay. Of course it is only a facsimile, but call me nostalgic!❤

Great video, but you need to work on your pronunciation of SchwarzSchild (you forgot the second S)- "Shvahts-shilt"

Around 4:30, I'm not trying to contradict the Big Bang Theory but I have an idea I want clarified.
Near the beginning of the big bang everything was very dense. How did the entire universe (at the time) overcome gravity? Wouldn't it be near the density of blackholes? Am I wrong to suggest it might have been that dense? How does science answer this?
Thanks for reading and possibly replying. I'll search this up too.

Cool! Now how to make a naked singularity?

I just learned more about black holes in 9 minutes than in my 59 years of existence.

Hi Professor Dave. I'm still pondering for some time the nature of black holes from all the knowledge that I've been gaining from viewing these astronomy RUclips videos on black holes and from applying principles of logic. I've been thinking that this statement "Nothing can escape a black hole, matter or light, because it needs to travel faster than light speed, and nothing travels faster than light speed" is not true for the following reason. When a black hole is in quasar mode it shoots a beam of electromagnetic radiation, which IS something that leaves the black hole, so it must be traveling faster than light speed. What do you think?