I absolutely love your animation style and the way you narrate. This video should have a lot more views (even though there are some minor errors, but they don't lessen the super high quality.)
Timestamps: 0:00 Introduction 0:13 Star classification 0:52 Pressure 1:20 Nuclear fusion (scientific) 2:07 Nuclear energy 2:13 How stars stay alive 2:32 Catastrophic star explosion 2:58 Elements on Earth 3:09 Types of supernovas 3:12 Type IA supernova 3:24 Type II supernova 3:35 Planetary nebula 3:43 Black hole 3:48 Neutron star / pulsar 3:51 Supernova close to Earth 4:42 Self promotion 4:53 Interaction reminder 4:58 Outro animation
So... what happens at 2:40 exactly? The star runs out of Hydrogen, Helium, Oxygen and Carbon until it fuses it all to Iron which when fused does not create energy somehow, right? Then all the mass crushes together under its own gravity without a repelling nuclear force pushing it all back out. But then why does it go Supernova and not just become a big ol' block of iron or sumthn?
Due to some quantum physics the collapsing core produces a huge amount of energy in the form of neutrinos that spit out from it. This blasts away a lot of the falling matter.
Yes, in many cases, very large stars (tens of times more massive than our Sun) go through a wild core collapse, resulting in a swirling black hole left behind. And, these black holes, similar to neutron stars/pulsars can also emit powerful twin jets as they radiate material from their surrounding accretion disks. Sometimes, people even refer to these as "collapsars," instead!
When I see supernovas, I don't see the death of a star, I see it's beauty because it gives a colourful explosion I just wanted to say it because that is how I see it
@@yuvrajguglani821 The mechanics behind red dwarf deaths can not be directly observed, because no red dwarfs have died in our universe. They more than likely do not expand into planetary nebulae, or even red giants for that matter. They might even just compress down into a white dwarfs quietly and calmly.
@@ryerboi4196 Believe it or not, I did the same exact thing, I also looked for a FF7 comment here before I posted this comment, but I couldn't find one, so I made one myself! lol
1:52 ok at this time i wanna ask " how quantum tunneling help fusion in sun core ' what's its really mean because there is bare protorns to do atomic chemistry so how qt of electrons involved here ????
😃😄😁😊👋HEY.........WELL that's a really good question👍👍👌👌😍..................i had it in my mind too😄..........so if u don't mind ...........if U find the answer plz let me know🙏🙏...........THANK YOU VERY MUCH IN ADVANCE😅😅🙏
3:52 We do have a good idea about the ages and types of stars in our neighborhood. Stars that are already in the Red Giant phase, will be the first to go.
2:45 when he said it became a nuclear bomb I got confused how that happens after it runs of nuclear power? that causes the bomb in the first place? I know it's a little bit confusing. It's like you are saying that after you run of water we will have a water bottle from no where.
Great video! Minor errors: 1st: the progenitors of type 1a are polar white dwarfs. It has nothing to do with the chandrasekhar limit. 2nd: AN Ursae Majoris B is close enough to cause harm in the form of an EMP (electromagnetic pulse). It will wipe out any unprotected electronics on or above Earth. Prediction: before 2030 we will witness 2 nearby supernovae. The star Betelgeuse as a core collapse event and the aforementioned white dwarf as a type 1a. I just subscribed to this channel. Keep 'em coming!
A lot of people watched a long time waiting for a supernova to explode. They missed it because nobody the supernova they were watching was not being updated.
Finally understood a big part of! Thanks ! Still just don’t understand why there can be gravity in the middle of the planet and why it’s always located in the very middle
2 hydrogen atoms weigh more than the helium atom produced after fusion. This mass that seemingly disappeared turned into energy. Explained even more simply, atoms, specifically protons, don't like being close to each other. They repel each other, unless it is very hot. Once it gets hot enough, the atoms move fast enough so by chance, they get close enough to the point a *significantly* stronger force takes over and they violently snap together.
@Mohammad akram Uddin thanks for your question, it's a good one! While science has not completely revealed all the mysteries about galaxies, we have determined that most galaxies (including our Milky Way) contain a black hole at their center. Now, finding the answers to WHY galaxies and black holes seem to be intimately connected is still an ongoing search.
At 4:00 , the supernove should be moving as the moon and Sun are. Although it is much further away the earth's rotation would still change its position in our perspective sky.
I see a good amount of people attempting to correct the video in saying "most stars in the universe will not go supernova" by pointing out the majority of stars are blue and yellow main sequence stars and red dwarfs; all of which will not undergo supernovae when they die. While this is true, all of these stars will become white dwarfs at the end of their lifespans. It has also been determined that most stars either exist in binary pairs or small clusters. White dwarfs and binary pairs are breeding grounds for type Ia supernovae, and the fact that so many stars exist in clusters is why type Ia's are so much more common than their type II counterparts. Most stars will go supernova, but not within their main sequence lifespans.
I would assume general orbital decay and the significant loss of mass during star death would draw stars closer together over time. Even then, you'll find that stars don't typically follow circular paths, and rather partners will have various shaped elliptical paths with differing circumferences. This of course means during periods the pair would be at great distances from one another, and in others they'd be fairly close. Mass gathering for the white dwarf companion could occur within these periods. I also want to make clear that I don't believe 97% of stars will go supernova like the video says, and that I simply believe the majority will (I couldn't give you a fair estimate off the top of my head. Supergiants and hypergiants only make up about 1% of stars, and we can't rule out solitary main sequence stars and the partners of type Ia progenitors that don't collect enough mass from their partner's nebula to themselves go supernova.
Thank you, @LilpandaChild Cruz! Dark matter is some pretty fascinating stuff, isn't it?! We love it too! We will take this suggestion into consideration, thanks so much for the wonderful idea! In the meantime, we have written several articles about dark matter and dark energy, be sure to check them out! astronimate.com/article/dark-matter-simplified/
IN the video ( I shot the outro) I mentioned the channel name so that u know to show that you guys did it :)) and love the animation. I'm doing some thing like animation but a little different
That's awesome, and we're honored, thanks so much! When you can, please share the video, we'd LOVE to see your work and help support your videos, too! Thanks again.
I had a super Chevy Nova 396 513 possy duel 4 barrel 4 SPD duel exhaust 50 series rear tires 15 inch skinnys up front . Unstable as hell but crazy fun to drive .
Great video and narration, Most of the supernova goes kaboom at 100 millions degres, this is where the TRIPLE Alpha Process happen , and Element Carbon (6) is created. This is the only moment that carbon is born and matter travel is ejected into space. The remains of those stars and bits ,are found on the earth and many others planets. They are called Carbonados black diamond, pure allotrope of carbon isotope 12 and 13 , mixing with few elements and mineral, but solid and very hard remaining of the star . They travel like pollen in the space acting like seeds to fertilize planets . Most of the planets going through stages of cold and hot, and through the glacial age of the earth, Many carbonado came down, and acted like ram seeds going 100-200kms down the crust . Modern craters are round, dry and present ejecta in a arc of field, carbonado did act like if you dropping berries in a liquid yogurt , penetrating at a different angle vaporizing in a instant the snow, ice and create a different orogeny of the terrain and lanscape. they are underground those meteorites !!! they contains DNA and RNA... Carbonados diamond are the remain of those stars and does not belong to the inner solar system type of know meteorite . They are outer system and older than the sun. The red ring we see in a long exposure astrophotography are the remain of those explosion , The dust travelling in a round and arc shape. The rest of the dust are called nebula.
Sun: Haha I have no twin I cannot disappear and other stars will be gone hahaha Stars: We will merge and create a sun to destroy I Maharaja Sun: NASA!! HELP MEEEE
So in the supernovo. What happend during supernova the moment it switches from falling in to expensing. What energy can overcome gravity what first didnt? Why not a milli secons earlyer or later?
Its when a star many times the mass of our sun starts fusing lighter elements into IRON in its core that a star will go super nova.And that is because IRON absorbs energy when being created.In the core of all stars their is a battle between gravity trying to crush the star and the energy being released by fusion in the core of the star that allows the core to push out against the crushing force of gravity with an equal amount of force.But when lighter elements begin to be fused into IRON,the core will collapse in on itself because IRON absorbs energy and the core has lost its battle with gravity.As the core collapses the electrons are squeezed into the protons turning them into neutrons as the core goes from 8000 miles in diameter down to a 10 mile in diameter neutron star.But because neutrons repel each other the core now rebounds ever so slightly but so violently that the resulting outwardly moving shockwave creates the fusion of IRON and all of the other heavier elements along with lighter elements as the star explodes as a Supernova.What is left after all of this is a NEUTRON STAR.
Awesome comment, thank you for sharing! The history of how stellar evolution, degeneracy, black holes, Pauli Exclusion, etc. and how we, as people, came to discover and progress our understanding from those discoveries is one of my favorite reading topics! If only cramming all the finer quantum aspects into a five minute video that everyone could enjoy were much more easily done! Thank you again.
Thankyou for your kind words.I wanted to help people get a better understanding of what happens during a supernova.Why do people go through all the time and expense to make a video and yet make no effort to get the basic facts straight.It would of taken maybe 30 seconds longer to better explain what causes a massive star to collapse and then explode as a supernova.I should add one more thing to my first post. An extreme amount of neutrinos are released by the crushing core and they provide most of the energy and thus outward pressure to blow the star apart, creating all of the heavier atoms from iron on up.
2:41 as result gravity should win , and whole star should collapse with its own gravity without explosion because at that time it's core can't generate energy greater than it consumed so balance between core explosion and in word pressure unbalanced so it should be collapse rather than collapse and explode at same time ???? Why this happened why it's also explode ????
Use a balloon for example.the air is the nuclear fusion and the pressure you put on it to make it pop is the gravity. When the balloon pops, it doesn’t just collapse. It make a explosion of air.
I have a question. If anyone who knows can answer just let me know. When the core and he composition of he sun’s core expands to iron and it Explodes, how does it turn back to hydrogen for the next star? Nuclear fission? If so, when and how does it happen
It does not turn back to hydrogen. The energy or material left over from a supernova travels through space and can interact with a nebula, causing it to contract and form stars. That nebula is the source of the hydrogen.
I think that we should teach stuffs like that from a very beginning ...so that people can have intrest in space and universe it's so cool but instead in India most of the people don't even know this🙄😑
My science teacher showed us this. Supernovas are so cool! The class spent like 20 minutes just talking about supernovas.
Awesome! Now you'll have some sweet new facts to discuss :-)
TBH Supernova really is cool but scary at the same time..
@@heartcruz1440 a tragic and scary beauty, exactly like the entire universe
I think supernovas cool too!just saying that their kinda scary 😅
I love space and stars but this is the problem I am only 11 so I have no idea what you are saying most of the time
I absolutely love your animation style and the way you narrate. This video should have a lot more views (even though there are some minor errors, but they don't lessen the super high quality.)
Thank you VERY much, what kind compliments! Thank you very much for your support.
Don’t u mean supernova quality
thank you for this video....learned a lot .......hope to see more in the future.....a video on blackhole would be nice though😊😊
Spinotaraptor make your own video then mate
Great job, loved it! Keep it up, bro, a like and a high five, man!
I like how at 3:30 the supermassive star is about to explode and the sun’s like “I’m outta here!” XD
Haha right? As badly as I would LOVE to witness a supernova, I must confess, I'd probably scram, like the Sun!
lmao
XD
ight imma hed out xD
Timestamps:
0:00 Introduction
0:13 Star classification
0:52 Pressure
1:20 Nuclear fusion (scientific)
2:07 Nuclear energy
2:13 How stars stay alive
2:32 Catastrophic star explosion
2:58 Elements on Earth
3:09 Types of supernovas
3:12 Type IA supernova
3:24 Type II supernova
3:35 Planetary nebula
3:43 Black hole
3:48 Neutron star / pulsar
3:51 Supernova close to Earth
4:42 Self promotion
4:53 Interaction reminder
4:58 Outro animation
Thank you!
What's the song for 2:13?
This explanation and animation is outstanding! I hope education like this becomes so accessible, schools become remote & diverse.
I think it's beyond beautiful that the iron in my blood was once in a star
I found it funny how some of the stars had a day and night side
Have shadow.
They throw shadeeeeeeeee
I didn't watch the whole vid so I did the random reply :P
@Harry Evett hi i know you
Fantastic video. The visuals are incredibly engaging!
But 'most of the stars it's supernova' ? Sir, most of the stars are red dwarfs. And they don't become supernova.
So... what happens at 2:40 exactly?
The star runs out of Hydrogen, Helium, Oxygen and Carbon until it fuses it all to Iron which when fused does not create energy somehow, right?
Then all the mass crushes together under its own gravity without a repelling nuclear force pushing it all back out. But then why does it go Supernova and not just become a big ol' block of iron or sumthn?
Due to some quantum physics the collapsing core produces a huge amount of energy in the form of neutrinos that spit out from it. This blasts away a lot of the falling matter.
Stars are literally the embodiment of the quote "Do not go gentle into that good night. Rage, rage against the dying of the light."
You forgot something, some huge stars go supernova when it generates iron in its core
He's also forgot about the best part Safer Sephiroth
3:44 is that a reference to hypernovas, when the star collapses directly into a black hole?
Yes, in many cases, very large stars (tens of times more massive than our Sun) go through a wild core collapse, resulting in a swirling black hole left behind. And, these black holes, similar to neutron stars/pulsars can also emit powerful twin jets as they radiate material from their surrounding accretion disks. Sometimes, people even refer to these as "collapsars," instead!
Im pretty sure its a "nova" that makes white dwarfs like the death that will ocour to our sun. And "Supernova" gives birth to Black Holes.
When I see supernovas, I don't see the death of a star, I see it's beauty because it gives a colourful explosion
I just wanted to say it because that is how I see it
I love the way u narrate your videos
Almost always? The overwhelming majority of stars are red dwarfs. Those dont produce a super nova
Yea
they create a planetary nebula
@@yuvrajguglani821 The mechanics behind red dwarf deaths can not be directly observed, because no red dwarfs have died in our universe. They more than likely do not expand into planetary nebulae, or even red giants for that matter. They might even just compress down into a white dwarfs quietly and calmly.
man this was an awesome video and the narration was on another level ....... I'll try to tell all the people I can and try to increase the viewership
Hey, I'm here guys, nice to meet you
I was hoping to know how powerful these explosions are but that was awesome ✨
what animation tool did you use
3:00 but you didn't explain main point ' the cause of explosion or supernovae or it still a mystery ?
Actually, less than 3% of all stars will end their existence as supernovas
This video was amazing, it went into detail and improved my understanding of a supernova. I learnt a lot. :)
The word you were looking for is *learned* :).
Also, I like your profile pic.
:)
Very good animation and very easy to understand.
Unfortunately, they (and dozens of programs like Nova) never actually explain what causes a supernova. It just explodes (for some UNEXPLAINED reason).
Who came here æducate themselves after aespa supernova
Illiterates
Came here after aespa
same 😭😭😭
Su Su Su SuperNova!!!
😂 me toooooo❤✨
Aespa who 🙂?
Su su su superniva😂😂😂 yes that's me
I will start calling my beloved ones supernovas coz its really beautiful
FF7 Player: _A Supernova is a move that Sephiroth uses that takes extremely long to end._
Astronimate:
ur the first ff7 comment i saw here and thats what im looking for lol
@@ryerboi4196 Believe it or not, I did the same exact thing, I also looked for a FF7 comment here before I posted this comment, but I couldn't find one, so I made one myself! lol
@@dylanblue9201 lmaoooo
you said that stars almost always die in supernovae. that however is incorrect.
no he didn't
Great vid 👍
the narrator was superb, as a suggestion, please add subtitle. thanks
Excellent video
1:52 ok at this time i wanna ask " how quantum tunneling help fusion in sun core ' what's its really mean because there is bare protorns to do atomic chemistry so how qt of electrons involved here ????
😃😄😁😊👋HEY.........WELL that's a really good question👍👍👌👌😍..................i had it in my mind too😄..........so if u don't mind ...........if U find the answer plz let me know🙏🙏...........THANK YOU VERY MUCH IN ADVANCE😅😅🙏
@@Anonymous-wz6or and same expectations from you 😄
@@omsingharjit Ofcourse, why not.....for sure😃😊👍👍😉
this video is very helpful
3:52 We do have a good idea about the ages and types of stars in our neighborhood. Stars that are already in the Red Giant phase, will be the first to go.
Your animation is really amazing...
Wow this helped a lot with all the science I missed during covid thanks !
Superb....
how did u make the animations in this video?
2:45 when he said it became a nuclear bomb I got confused how that happens after it runs of nuclear power? that causes the bomb in the first place?
I know it's a little bit confusing. It's like you are saying that after you run of water we will have a water bottle from no where.
That's a good question👏 if you knew the answer plz let me know♥️
quality video in a short time!!
Cool edition bro
Amazing info!!! 😍😍😍💯💯💜
Excellent information
Great video
Great video!
Minor errors: 1st: the progenitors of type 1a are polar white dwarfs. It has nothing to do with the chandrasekhar limit.
2nd: AN Ursae Majoris B is close enough to cause harm in the form of an EMP (electromagnetic pulse). It will wipe out any unprotected electronics on or above Earth.
Prediction: before 2030 we will witness 2 nearby supernovae. The star Betelgeuse as a core collapse event and the aforementioned white dwarf as a type 1a.
I just subscribed to this channel.
Keep 'em coming!
Really appreciate the great quality and content of the videos!
Thanks for sharing....
Then goes my favorite: beetlegeuse
A lot of people watched a long time waiting for a supernova to explode. They missed it because nobody the supernova they were watching was not being updated.
Excellent, thanks !!!
am i the only one teaching my bearded dragon this and showing them this vid
xd
sorry beardie
Here to maybe learn about Sephiroth’s Supernova ability.
Finally understood a big part of! Thanks !
Still just don’t understand why there can be gravity in the middle of the planet and why it’s always located in the very middle
I don't think I'll ever truly understand the nuclear fusion part but I'll take your word for it
2 hydrogen atoms weigh more than the helium atom produced after fusion. This mass that seemingly disappeared turned into energy.
Explained even more simply, atoms, specifically protons, don't like being close to each other. They repel each other, unless it is very hot. Once it gets hot enough, the atoms move fast enough so by chance, they get close enough to the point a *significantly* stronger force takes over and they violently snap together.
Thanks for this video 💜💜💜💜
how does this video have just 150K this needs to have at least 15 mil nice man!
Best yt channel
amzingly explained
what is center of galaxy
?
@Mohammad akram Uddin thanks for your question, it's a good one! While science has not completely revealed all the mysteries about galaxies, we have determined that most galaxies (including our Milky Way) contain a black hole at their center. Now, finding the answers to WHY galaxies and black holes seem to be intimately connected is still an ongoing search.
In my opinion there is a massive black hole
That is why Galaxy rotate around it
A supermassive black hole
At 4:00 , the supernove should be moving as the moon and Sun are. Although it is much further away the earth's rotation would still change its position in our perspective sky.
I see a good amount of people attempting to correct the video in saying "most stars in the universe will not go supernova" by pointing out the majority of stars are blue and yellow main sequence stars and red dwarfs; all of which will not undergo supernovae when they die.
While this is true, all of these stars will become white dwarfs at the end of their lifespans. It has also been determined that most stars either exist in binary pairs or small clusters. White dwarfs and binary pairs are breeding grounds for type Ia supernovae, and the fact that so many stars exist in clusters is why type Ia's are so much more common than their type II counterparts.
Most stars will go supernova, but not within their main sequence lifespans.
www.atnf.csiro.au/outreach/education/senior/astrophysics/binary_intro.html
www.space.com/22509-binary-stars.html
news.berkeley.edu/2017/06/13/new-evidence-that-all-stars-are-born-in-pairs/
I would assume general orbital decay and the significant loss of mass during star death would draw stars closer together over time. Even then, you'll find that stars don't typically follow circular paths, and rather partners will have various shaped elliptical paths with differing circumferences. This of course means during periods the pair would be at great distances from one another, and in others they'd be fairly close.
Mass gathering for the white dwarf companion could occur within these periods.
I also want to make clear that I don't believe 97% of stars will go supernova like the video says, and that I simply believe the majority will (I couldn't give you a fair estimate off the top of my head.
Supergiants and hypergiants only make up about 1% of stars, and we can't rule out solitary main sequence stars and the partners of type Ia progenitors that don't collect enough mass from their partner's nebula to themselves go supernova.
How do you do this animation
Please do dark matter, I really like your videos and I understand them more then other videos, so please
Thank you, @LilpandaChild Cruz! Dark matter is some pretty fascinating stuff, isn't it?! We love it too! We will take this suggestion into consideration, thanks so much for the wonderful idea! In the meantime, we have written several articles about dark matter and dark energy, be sure to check them out!
astronimate.com/article/dark-matter-simplified/
@astronimate Thank you so much😃
As Homer Simpson once said.
It’s pronounced Nucular
does someone have the script? I need it to translate please send me
Tip: Don't use bright colours as background, I almost went bling @ 1:35
man gonna use this topic for breakthrough challenge
Nice, supernovae are ALWAYS an exciting topic, good idea. Let us know if you have any questions about them as you go along. Best of luck!
IN the video ( I shot the outro) I mentioned the channel name so that u know to show that you guys did it :)) and love the animation. I'm doing some thing like animation but a little different
That's awesome, and we're honored, thanks so much! When you can, please share the video, we'd LOVE to see your work and help support your videos, too! Thanks again.
wow. I will definitely send it to ur email or I don't know wut after I am done
btw I have finished shooting the data part of it (intro) not to only do the animation
Superb✨🎇🎀🎀🎀🎖
Awesome video man . you really should have millions of views cuz you deserve it
There's a TV programme on now in the UK on the Discovery Science channel plus an hour, about the next supernova.
Most quality content
I had a super Chevy Nova 396 513 possy duel 4 barrel 4 SPD duel exhaust 50 series rear tires 15 inch skinnys up front . Unstable as hell but crazy fun to drive .
Good video!!
0:05 Almost never. Most stars don't go supernova since they need to be very massive to go supernova; our sun will not go supernova.
id rather die freezing anyway
So stardust is all around us, that’s achingly beautiful.
Why this video doesn't have subtitles? My main language is not English so I can't catch some words...
Great video and narration,
Most of the supernova goes kaboom at 100 millions degres, this is where the TRIPLE Alpha Process happen , and Element Carbon (6) is created.
This is the only moment that carbon is born and matter travel is ejected into space. The remains of those stars and bits ,are found on the earth and many others planets.
They are called Carbonados black diamond, pure allotrope of carbon isotope 12 and 13 , mixing with few elements and mineral, but solid and very hard remaining of the star .
They travel like pollen in the space acting like seeds to fertilize planets .
Most of the planets going through stages of cold and hot, and through the glacial age of the earth, Many carbonado came down, and acted like ram seeds going 100-200kms down the crust .
Modern craters are round, dry and present ejecta in a arc of field, carbonado did act like if you dropping berries in a liquid yogurt , penetrating at a different angle vaporizing in a instant the snow, ice and create a different orogeny of the terrain and lanscape. they are underground those meteorites !!! they contains DNA and RNA...
Carbonados diamond are the remain of those stars and does not belong to the inner solar system type of know meteorite . They are outer system and older than the sun.
The red ring we see in a long exposure astrophotography are the remain of those explosion , The dust travelling in a round and arc shape. The rest of the dust are called nebula.
"You can never know for sure"
Me- "Alright listen here you little shit..."
Thank you brother for explaining 😊😀
Does a star die
or does a star explode
I don’t know
I don’t know
I have no idea what to say about the situation
1:50 Isn't that a deuterium nucleus?
Brilliant vid
It would be amazing to witness a supernova
Sun: Haha I have no twin I cannot disappear and other stars will be gone hahaha
Stars: We will merge and create a sun to destroy I Maharaja
Sun: NASA!! HELP MEEEE
One of the five mass extinctions in the past is believed to have been caused by a near Earth supernova
So in the supernovo. What happend during supernova the moment it switches from falling in to expensing. What energy can overcome gravity what first didnt? Why not a milli secons earlyer or later?
Tell me Tell me Tell me oh yehh~~~
Su Su Su supernova
Every time a new star is born, hydrogen content is lost and replaced with helium.
1:00 gravitational pull inward
Its when a star many times the mass of our sun starts fusing lighter elements into IRON in its core that a star will go super nova.And that is because IRON absorbs energy when being created.In the core of all stars their is a battle between gravity trying to crush the star and the energy being released by fusion in the core of the star that allows the core to push out against the crushing force of gravity with an equal amount of force.But when lighter elements begin to be fused into IRON,the core will collapse in on itself because IRON absorbs energy and the core has lost its battle with gravity.As the core collapses the electrons are squeezed into the protons turning them into neutrons as the core goes from 8000 miles in diameter down to a 10 mile in diameter neutron star.But because neutrons repel each other the core now rebounds ever so slightly but so violently that the resulting outwardly moving shockwave creates the fusion of IRON and all of the other heavier elements along with lighter elements as the star explodes as a Supernova.What is left after all of this is a NEUTRON STAR.
Awesome comment, thank you for sharing! The history of how stellar evolution, degeneracy, black holes, Pauli Exclusion, etc. and how we, as people, came to discover and progress our understanding from those discoveries is one of my favorite reading topics! If only cramming all the finer quantum aspects into a five minute video that everyone could enjoy were much more easily done! Thank you again.
Thankyou for your kind words.I wanted to help people get a better understanding of what happens during a supernova.Why do people go through all the time and expense to make a video and yet make no effort to get the basic facts straight.It would of taken maybe 30 seconds longer to better explain what causes a massive star to collapse and then explode as a supernova.I should add one more thing to my first post. An extreme amount of neutrinos are released by the crushing core and they provide most of the energy and thus outward pressure to blow the star apart, creating all of the heavier atoms from iron on up.
Does that hurt us or any kind of effect????
@@mubasherkhan1940 Supernovas are beneficial to humans as they provide elements needed to support life on earth.
2:41 as result gravity should win , and whole star should collapse with its own gravity without explosion because at that time it's core can't generate energy greater than it consumed so balance between core explosion and in word pressure unbalanced so it should be collapse rather than collapse and explode at same time ???? Why this happened why it's also explode ????
Use a balloon for example.the air is the nuclear fusion and the pressure you put on it to make it pop is the gravity. When the balloon pops, it doesn’t just collapse. It make a explosion of air.
@@qwertyuiop8242 I also heard that , that is nutrino that carry that shockwave from its core to surface during supernova !
Bro actually listened in school
Awesome video
You gotta new subscriber
I have a question. If anyone who knows can answer just let me know.
When the core and he composition of he sun’s core expands to iron and it Explodes, how does it turn back to hydrogen for the next star? Nuclear fission? If so, when and how does it happen
No idea
Good question
It does not turn back to hydrogen. The energy or material left over from a supernova travels through space and can interact with a nebula, causing it to contract and form stars. That nebula is the source of the hydrogen.
I detect quality content, just keep telling more about space and u'll rise :)
I think that we should teach stuffs like that from a very beginning ...so that people can have intrest in space and universe it's so cool but instead in India most of the people don't even know this🙄😑
what causes the most destruction in a supernova are its shock waves? are shock waves the most devastating effects of a supernova?
woahhh superNovas are so cool, like I am amazed knowing about them
Aespa????