It's always so fun to hear guests light up when you ask them very specific questions that are within their expertise. They get so excited to be able to discuss things on a lower level than they may get to with other podcasters and interviewers.
Thanks John. Great episode as always. Glad you've got long style content like this for when I'm stuck in hospital for a few days. Thanks for keeping me entertained all these years!
15:35 *David Attenborough* voice “In the cosmic ballet of the universe, the neutron star performs a pirouette, its surface fiercely alight with the face of a goblin-a creature as mythical as it is mysterious, staring back through the abyss with eyes that twinkle like the very stars themselves.”
john and matt are like kids in a candy store... so excited, just cracking up and what-iffing to beat the band... so much fun in their back and forth...
I'm sorry but you are mistaken in this video. The strongest material in the universe is the plastic packaging that is used in stores to hold small electronic devices. I can't prove it, but I suspect that they could survive a supernova.
I had thought about that. Neutrons that had overcome the strong force keeping them separated, and basically turns the star into a giant solid atom. Man! These kind of topics are incredibly cool.😊 Thank you kind sir.
Dear Futurist & Author John Michael Goddier, Make a video on your other channel about how we might apply this to material science in the future. Make it so.
I wish you had talked about the source of the magnetic field in a neutron star. I was tought that electrical currents produce a magnetic field, but there are few if any electrons in a neutron star.
Excellent presentation. So, can a asymmetrical placement of nucleus of the atom to its electron shell, cause the corkscrew or wave behavior of matter in its unbalanced spin?
That was a great interview! You guys were talking about finding primordial black hole impacts on the Moon. But if PBHs are impacting the Moon, it stands to reason they're also impacting the Earth. So wouldn't we be finding strange columns of shocked rock in the Earth as well?
You can't take material from a degenerative star like a white dwarf or a neutron star. It would immediately explode like a hydrogen bomb. When you remove the gravitational force holding it degenerative, it would immediately resume a normal matter state (perhaps mostly neutrons but even some of these would transform into protons, electrons and anti-neutrinos ie. explosion).
If a singularity is a divide by zero error, what it would create would be the input quanta divided by the singularity. It would create a space that would exclude the values of the input quanta to zero, yet include all the ranges beyond that to infinity. It would expand in a hyperspace as an independent universe within the event horizon. That would also explain the time dialation effects.
18:39 Possible islands. Plank scale also time distortion factors. Virtual infinity from the time distortion factor being able to grow. The universe one of the limits. Quark packing along with gluons and neutrinos and photons. Anything on fluidic neutrinos in neutron stars? Or double Shockwave super nova? Or in tidal events around black holes. Or preferred quantum state and particle generation? Loved the video and topic. Thank you for sharing. Keep up the good work. 33:55 size and hawking radiation and lifetime. I.E. that size it would glow red hot and get hotter as it evaporates. Or that's my take.
Do all degenerate stars have the same charge? What if I could draw off all the electrons with a black hole? Would You get a proton star or would it explode without enough electrons? It couldn’t happen right? I still don’t know why thermal neutrons have different decay rates.
I wonder if at any point the ability for electrons to act like spin 1 Bosons in superconductors is relevant to how star corpses collapse. I only learned that was part of how superconductors work a couple days ago and it is mind-blowing to me.
@EventHorizonShow hey did I overhear it or did you miss the golden chance to ask what it would be like if a primordial black hole that's zipping somewhere in our solar system (meaning also outer layers) hits some matter like a bunch of space rock. As was stated, a black hole with an accretion disk is the brightest thing in the universe. You know like... Hey why do we see these bright objects in old photographic plates that are gone in the next plate and are not moving.
Is there a measured ratio of heavy elements as a result of neutron star collisions? EA: average 5% uranium vs 3% gold and so on? I would expect it to either be very consistent (statistically) or very random (chaos theory) due to the nature of the neutron soup being a basic building block for all matter.
You have to just love how contradicting these scientists are, on one hand if you removed nuclear pasta from a nuetron star it reverts to the matter we know but yet you can have a black hole below the minimum mass limit even though not one has been ever detected.
It would undergo spontaneous fission to such an extreme degree that a teaspoon full would generate more energy of the world's nuclear arsenal by several times over. 😮
@@christopherleubner6633 fission? Like how? You are doing the opposite of a nuclear bomb function and the atom structure has already broken down. The only thing that would occur would the protons would return since the electrons are only forced into them by gravity alone, you would have various hydrogen and helium ions in all likelihood if any clumps of material were removed.
15:40 I was looking at it and I was like hey is that a ferengi? Then I realized oh it's Quark, got it. So that might possibly be the nerdiest visual pun I've ever seen. Well played
Strongest materials I get to deal with are Titanium, Cobalt, and iridium. They happen to be much colder and less radioactive than what we’re talking about here.
A DCC (Degenerate Crystalline Core") 'might' just explain some of the features of Stellar Core Remnants. the oscillations, spin and emissions (for pulsars): are all things that crystals do well. My bet is that the Chand. Limit is not a 'hard limit', owing to the exotic nature of the unverse and what can occur in it. The notions of Iron being the key 'poison' to determine how the star's fate plays out doesn't necessarily add up. Too many unknowns.
We see how Lanthanides isotopes are happy to form BECs at supercooled temps. Yet, our research into high-energy physics doesn't have great understanding of Lanthanides/Actinides. At least under collider conditions, or atmos pressures we see short half-lives; but we have a poor understanding of what causes Radioactive Decay: and thus under the extreme environment (inside of a star, let alone stellar remnant) it would be wrong to 'assume' that Iron acts as seen here on Earth. There is argument itself that there really shouldn't be elements higher than Lithium or Carbon in stars. When you're talking temps so high that its 1000s to millions of times temp/pressure needed to melt transition/actinides/lanthanides, there aren't great solutions to HOW the elements don't undergo spontaneous fission...and yet we do detect 'superheavy' elements in stars, indicating fusion> fission. Basically, there would need to be phases beyond plasma (or perhaps plasma is a 'composite' of several phases, poorly understood) that would explain this. Granted we have only iota understanding of gravity; but even so, the fact we see that stars have either runaway fission OR fusion reactions ultimately; hints that there is another unobserved force at play inside stars, that doesn't occur outside the high temp/pressures (sustained) inside it. Depending on what exactly time is mediated by (GR seems bad solution), it could also only arise inside the exotic location (the 'gravity well' that is compressed spacetime which a star resides in. Based on how we see even quantum effects break down on the very upper and lower bounds (IE high-energy, and BEC experiments, universe right after BB), it wouldn't seem too fringe to argue that phenomenon or even additional forces only exist in such locations...ones that are more complex that degeneracy.
in the pc game elite dangerous, I jumped into a system with a certain type of neutron star, and it had 2 laser beams spinning around and out of it and the beam hit my ship and almost destroyed it
3:10, what the hell is this? A graph, no reference between tha X axis vs what Y axis even is. Why show a graph....if you wont include WTF it means? No frame of reference.....
Matt Caplan was a fantastic guest and these questions were perfect for his expertise.
It's always so fun to hear guests light up when you ask them very specific questions that are within their expertise. They get so excited to be able to discuss things on a lower level than they may get to with other podcasters and interviewers.
Guest: "do you know what the word degeneracy means"
Me whilst erasing my browser history: "N-no?"
Yes. The squids doing dank nooners on their liter bikes through the clibbins.
Lol - funny enough for me
💎 🙌 💎
😂
Your feelings betray you young Jedi. 😔
Well, I know what I will be falling asleep to tonight! Thanks for all the amazing content!
Thanks John. Great episode as always. Glad you've got long style content like this for when I'm stuck in hospital for a few days. Thanks for keeping me entertained all these years!
Fantastic interview, John! Thanks a bunch!!! 😃
Stay safe there with your family! 🖖😊
15:35
*David Attenborough* voice
“In the cosmic ballet of the universe, the neutron star performs a pirouette, its surface fiercely alight with the face of a goblin-a creature as mythical as it is mysterious, staring back through the abyss with eyes that twinkle like the very stars themselves.”
This is the kind of comment we love.
@@EventHorizonShowExactly. We don't know what it means, but we love it!
@@AndrewBlucher have another look at the star in the timestamp
@@AndrewBlucherTheres a familiar ferengi face in the star
john and matt are like kids in a candy store... so excited, just cracking up and what-iffing to beat the band... so much fun in their back and forth...
Thank you John for enabling us to access this information from the greatest guests.
I love that you just jumped into the technical talk right away with this podcast.
Im liking this notion of tossing Podcasters onto Stars…
I’d pay a dollar to see that…
Neil deGrasse Tyson is gonna have to change the format of Startalk
What about tossing tiktokers beforehand ?
Thanks for the content cheers from Toronto
Thanks for watching!
This has to be one of my favorite episodes
so far so good so refreshing to have a podcast worth spending my precious minutes on...I'll try one more....
What a fantastic guest and interview. Thanks for the outstanding content.
Glad you enjoyed it!
Writing for Kurzgesacht and PBS Spacetime is impressive on it's own
I'm sorry but you are mistaken in this video. The strongest material in the universe is the plastic packaging that is used in stores to hold small electronic devices. I can't prove it, but I suspect that they could survive a supernova.
I love how the guests always thank JMG for asking great questions. Thanks for another great episode!
🤌 I'll have my Nuclear Pasta Al-Dente like my Nonna used to make. 🇮🇹 Grazie
Very informative, and John, the homework you did really shines through !
I'm always amazed by gravity, I constantly learn about how weak gravity is and then discover gravity crushes suns into black holes. Awesome.
It's about space-time.
Under rated comment
Awesome video. This is some of the most interesting stuff that our sciences are teaching us about the way our universe works. Just amazing
Glad you enjoyed it!
What a great interview this guy needs to come on more often 👍
Completely agree!
Quark star, very funny John!
The great Eryn Knight.
Rules of Acquisition 78: never let them use your name for profit...unless it's you using your name.
Brilliant, love your channel and your obvious excitement for the matters explored! Thank you
Was saving this one ... by the looks of the comments this is going to be a treat 🎉
I had thought about that. Neutrons that had overcome the strong force keeping them separated, and basically turns the star into a giant solid atom. Man! These kind of topics are incredibly cool.😊 Thank you kind sir.
Thank you for making this
Greetings from the BIG SKY. You guys have a good subject that many should know.
Dear Futurist & Author John Michael Goddier,
Make a video on your other channel about how we might apply this to material science in the future.
Make it so.
Excellent episode! Nuclear Pasta...band name!
Omg yes! been waiting for this one!
I wish you had talked about the source of the magnetic field in a neutron star. I was tought that electrical currents produce a magnetic field, but there are few if any electrons in a neutron star.
Excellent presentation. So, can a asymmetrical placement of nucleus of the atom to its electron shell, cause the corkscrew or wave behavior of matter in its unbalanced spin?
This episode utterly failed to put me to sleep ! So interesting!
John is pushing he new fast food chain Neutron Pasta a lot:)
A scientific definition in 2024 "Nuclear Pasta Layer with a Nuclear Crust". Now I'm getting Hungry....
Nice Quark star
That was a great interview!
You guys were talking about finding primordial black hole impacts on the Moon. But if PBHs are impacting the Moon, it stands to reason they're also impacting the Earth. So wouldn't we be finding strange columns of shocked rock in the Earth as well?
❤, it was a great interview with well explained theorys.
You can't take material from a degenerative star like a white dwarf or a neutron star. It would immediately explode like a hydrogen bomb. When you remove the gravitational force holding it degenerative, it would immediately resume a normal matter state (perhaps mostly neutrons but even some of these would transform into protons, electrons and anti-neutrinos ie. explosion).
They talked about this in the interview.
If a singularity is a divide by zero error, what it would create would be the input quanta divided by the singularity. It would create a space that would exclude the values of the input quanta to zero, yet include all the ranges beyond that to infinity. It would expand in a hyperspace as an independent universe within the event horizon. That would also explain the time dialation effects.
This was so enjoyable
I’ve been asking for a video on the applications of cold black dwarf matter for years!
18:39 Possible islands. Plank scale also time distortion factors. Virtual infinity from the time distortion factor being able to grow. The universe one of the limits. Quark packing along with gluons and neutrinos and photons.
Anything on fluidic neutrinos in neutron stars? Or double Shockwave super nova? Or in tidal events around black holes. Or preferred quantum state and particle generation?
Loved the video and topic. Thank you for sharing. Keep up the good work.
33:55 size and hawking radiation and lifetime. I.E. that size it would glow red hot and get hotter as it evaporates. Or that's my take.
Fucking love this channel
@15:28 - Quark star - briulliant 👍👍
Great interview!
Great video and information !
Whoa.....a crystalline core! White dwarves are amazing.....Chandrasekharadelic baby!
If there is quark matter, would there be several versions of it that use heavier and heavier quark combinations?
Loved the intro animation ❤
Waiting for tech to enable the finding of black dwarf stars and make Penrose smile.
Do all degenerate stars have the same charge?
What if I could draw off all the electrons with a black hole? Would You get a proton star or would it explode without enough electrons?
It couldn’t happen right?
I still don’t know why thermal neutrons have different decay rates.
I wonder if at any point the ability for electrons to act like spin 1 Bosons in superconductors is relevant to how star corpses collapse. I only learned that was part of how superconductors work a couple days ago and it is mind-blowing to me.
Really enjoyed it 😊
dis here one is eminently re-listenable!
nice one!
Thank you! Cheers!
@EventHorizonShow hey did I overhear it or did you miss the golden chance to ask what it would be like if a primordial black hole that's zipping somewhere in our solar system (meaning also outer layers) hits some matter like a bunch of space rock.
As was stated, a black hole with an accretion disk is the brightest thing in the universe.
You know like... Hey why do we see these bright objects in old photographic plates that are gone in the next plate and are not moving.
Is there a Deep Space Nine alien head sitting in one of the Neutron Stars at the 15 min mark? LOL
And the security chief of that same station is probably close by...in the form of a opossum....
@@edwardbell4928 watching it a little late when was saying to myself is that a ferengi and then I realized yeah it is, it's Quark.
Is there a measured ratio of heavy elements as a result of neutron star collisions? EA: average 5% uranium vs 3% gold and so on? I would expect it to either be very consistent (statistically) or very random (chaos theory) due to the nature of the neutron soup being a basic building block for all matter.
Great
Would one these stars be able to harvested for its elects after it loses it heat ?
You have to just love how contradicting these scientists are, on one hand if you removed nuclear pasta from a nuetron star it reverts to the matter we know but yet you can have a black hole below the minimum mass limit even though not one has been ever detected.
Uh… where’s the contradiction?
@@oberonpanopticon i spelled it out, reread the comment i posted, if you still can not see it then that is on you.
It would undergo spontaneous fission to such an extreme degree that a teaspoon full would generate more energy of the world's nuclear arsenal by several times over. 😮
@@christopherleubner6633 fission? Like how? You are doing the opposite of a nuclear bomb function and the atom structure has already broken down. The only thing that would occur would the protons would return since the electrons are only forced into them by gravity alone, you would have various hydrogen and helium ions in all likelihood if any clumps of material were removed.
15:40 I was looking at it and I was like hey is that a ferengi? Then I realized oh it's Quark, got it. So that might possibly be the nerdiest visual pun I've ever seen. Well played
Not even an hour breakdown of how the best material in the multiverse is the old Nokia phone
God I love science…
Chuck Norris's muscle fibers
Also his beard hair.
Oooooh pasta phases, how delicious!
Strongest materials I get to deal with are Titanium, Cobalt, and iridium. They happen to be much colder and less radioactive than what we’re talking about here.
Do these hyper dense atoms have fissuon?
At what point in the video do they actually start discussing the strongest materials in the universe?
A DCC (Degenerate Crystalline Core") 'might' just explain some of the features of Stellar Core Remnants. the oscillations, spin and emissions (for pulsars): are all things that crystals do well.
My bet is that the Chand. Limit is not a 'hard limit', owing to the exotic nature of the unverse and what can occur in it. The notions of Iron being the key 'poison' to determine how the star's fate plays out doesn't necessarily add up. Too many unknowns.
We see how Lanthanides isotopes are happy to form BECs at supercooled temps. Yet, our research into high-energy physics doesn't have great understanding of Lanthanides/Actinides. At least under collider conditions, or atmos pressures we see short half-lives; but we have a poor understanding of what causes Radioactive Decay: and thus under the extreme environment (inside of a star, let alone stellar remnant) it would be wrong to 'assume' that Iron acts as seen here on Earth.
There is argument itself that there really shouldn't be elements higher than Lithium or Carbon in stars. When you're talking temps so high that its 1000s to millions of times temp/pressure needed to melt transition/actinides/lanthanides, there aren't great solutions to HOW the elements don't undergo spontaneous fission...and yet we do detect 'superheavy' elements in stars, indicating fusion> fission.
Basically, there would need to be phases beyond plasma (or perhaps plasma is a 'composite' of several phases, poorly understood) that would explain this.
Granted we have only iota understanding of gravity; but even so, the fact we see that stars have either runaway fission OR fusion reactions ultimately; hints that there is another unobserved force at play inside stars, that doesn't occur outside the high temp/pressures (sustained) inside it.
Depending on what exactly time is mediated by (GR seems bad solution), it could also only arise inside the exotic location (the 'gravity well' that is compressed spacetime which a star resides in. Based on how we see even quantum effects break down on the very upper and lower bounds (IE high-energy, and BEC experiments, universe right after BB), it wouldn't seem too fringe to argue that phenomenon or even additional forces only exist in such locations...ones that are more complex that degeneracy.
What is "thleek hith thi theketh ih thi hethleethik"?
'Strongest' vs 'strongest in all conditions'
God I love this channel!
Y’all don’t forget to hit like on this, yeah? Help Event Horizon and JMG!
I’m doing my part! 👍
Hardest material in the universe: Pre-frontal cortex of flat Earthers.
JMG… MASSIVE LEGEND. HONORABLE SCHOLAR.
Is there a problem with this show's RSS feed? Last episode I see on there is from 25 days ago, with Garry Nolan and Peter Skafish
Throw another podcaster on the neutron star!
🔥According to the holy books🔥
There are 7 earths😒
These materials are so strong, even a stubborn jar of pickles wouldn't stand a chance!
Doesnt matter how stong it is if you cant use it .
Matt has an obsession of throwing podcasters into stars.
I think you surprised Matt Caplan with your level of knowledge.
Sacraficing a podcaster to create a neutron star is now canon.
incredible, i fell asleep within moments
in the pc game elite dangerous, I jumped into a system with a certain type of neutron star, and it had 2 laser beams spinning around and out of it and the beam hit my ship and almost destroyed it
So we know about nuclear pasta but we don't know why there's a severe lack of antipasta in the universe.
What if all solar systems actually condense from premordial black holes
What is the "shtrong force"?
it's shtronger than the whheak force and a lot shtronger than grabbity
Lumps of Neutron star explode..Damn Niven's "There is a Tide" can't happen
15:24....Romulan star...??
Ferengi, that character's name is Quark
Our whole universe was in a hot dense state...
Nuclear Pasta Phase is my new favorite band name.
3:10, what the hell is this? A graph, no reference between tha X axis vs what Y axis even is. Why show a graph....if you wont include WTF it means? No frame of reference.....
if John was English he’d be Sir John…
Sir John Sir Michael Sir Godier.
7:43 ummm, what?
The universe in which that poor podcaster no longer liiiiiiiiiiiives.