In the early 1970s I was working, as a student, at the High Energy Physics department at a large research university. One of the experiments we worked on was at Fermi Lab. This was when we were using optical methods (film). There were images of 250K interactions. About 10K were usable. From these we found about 10 lambda resonance particles, which was the main purpose of the experiment. This is the kind of result that many of these experiments. So, the low number of X particles is not unusual.
Are there any such forms of matter such as gold and/or rare Earth elements crystals meteorites anything of that nature that we could Smash together that would give us more exotic data?
@@austinjohnson4626 Not sure. I don't understand the mention of gold. Rare earth elements are not actually that rare and can be found everywhere. We stopped mining them in the US for environmental reasons. Let the Chinese screw up their environment, they really don't care. The short answer to your question is no. The "exotic" nature of the materials has nothing to do with it.
Seeker is the only guy that actually speaks so well and easy to understand language in this complex stuff. Never seen such simple talking guy. I like this guy.
@@ChimneyCrab737 it’s a joke. 65 million years with rotating galaxies = dinosaurs on the earth on the other side of the galaxy… the galaxy is just spinning
X is more like a category than a name. It is usually accompanied by a number, like "X(3872)" (I think it's the energy in MeV?), so which "X" are we talking about?
Sugar, spice, and everything nice These were the ingredients chosen To create the perfect little girls But Professor Utonium accidentally added an extra ingredient to the concotion -- Chemical X Thus, The Powerpuff Girls were born Using their ultra-super powers Blossom, Bubbles, and Buttercup Have dedicated their lives to fighting crime And the forces of evil
The perplexing question here is how the heat of this experimental fusion, which is thousands of times greater than the sun’s heat, does not affect the device or the laboratory and simply melts it.
the more they dig they will realize the closer they get, is the further away they are. one day they will realize that the building blocks of our universe actually has building blocks for the blocks.
Realising there are no strings, no m theory, no quantum, no special relativity, no Newton's laws, no dark matter, no dark energy, no space-time, light is not a particle-wave duality, electricity is not an independent field modality and it's not the only combination of capacitive and inductive induced perturbation, no single magnetic flux curves of magnets etc This is when we will start to discover and understand. Until then we regurgitate our deliciously decadent egocentric scientism which serves to prevent discovery unless there is peer supported funding or concensus on the subject. Science lets us down in our modern capitalistic approach to humanity's journey. You can't reify space as it is nothing, you can't measure time because it's a construct we create. To combine nothing with nothing and use that to warp the imaginary mesh fabric that let's bouncy object stretch it is absurd. Science chooses to forget the discoveries of long ago at our peril. If you want to understand basic physics go back to the godfather of mathematical genius, Charles Proteus Steinmetz and read what he says because GE and Wabtec relied on his fundamental facts to compete with Tesla. Much is lost 😢
I can't understand how those particles that are made of quark and anti-quark can exist, I thought that such particles, like quark and antiquark, will annihilate each other...
Usually yes, and some are unstable. But, the strong force is keeping them apart from each other, although the distance between them is insanely small, they still aren't in physical contact, so no annihilation.
@@optimuseprime7887 I see... so, those are matter-antimatter particles, I thought that was what I don't understand, that both are matter particles, but for some reason, it is called antiquark... So they can't get in touch... but, the strong force is a force of attraction? Or it can act as a deflection force too? Sorry if I make mistakes English is not my native language...
@@optimuseprime7887 And, if you can explain to me, I mean if you know, I don't understand why pulsars, neutron stars are made just of neutrons? Electrons are pushed in protons and they react somehow and the product is a neutron?
@@miguelcp236 Color force? I am just an amateur, I don't know what color force is, but I understand that if they can't get in touch there is no annihilation.
@@yuvanraj2271 yes time travel just 150 years ago and fly a plane there people will say you are doing some satanic magic any sufficiently advanced technology is indistinguishable from magic it's a popular quote
"Does it even matter at that point?" Yes, it does. 2 trillion degrees Celsius is 3.6 trillion degrees Fahrenheit. There's always a big difference between the two, so units do matter there. Now, between Celsius and Kelvin, it doesn't matter at that point because 2,000,000,000,000 degrees Celsius is 2,000,000,000,273.15 degrees Kelvin.
When you take into account how much energy and matter was condensed in that quark-gluon-plasma at the beginning of the universe, I dare say that it took a bit longer than a tiny fraction of a second. After all, time dilation is a thing..
Locally to the plasma, wouldn't time seem to move normally? Or conversely, did time exist before matter? I thought the energetic plasma at the beginning of the universe wasn't technically matter yet.
@@bdorocks2 It would still have mass. If you consider that you can focus enough light into a set area of space to create a "Kugelblitz" black hole because of E=mc²..
The four particles arrangement is something like this. One in the center and the rest three branching out from the center, at equal distance. Some of them have Quarks as center , while some have Anti-quarks as center. Such that those with Anti-quark as center are equal to number of those having Quarks as Center.
A thought...the collisions are occurring between particles travelling at an appreciable fraction of c (although not quite the 0.99999999999999999999c that they got protons up to)...so the collision fragments must presumable be also...does relativistic time dilation increase the "lifetimes" of these before they decay, & thus make them easier to detect...?
hi how quark and anti quark make stable pairs? 1:11 what force is changing the direction of the split particles once they split? spin? magnetic field? statistics? 1:31 and every particle slide ever ... I assume you can watch such phenomena in the dialed enough
Matter and antimatter annihilate only with their own particles. Like a positron will annihilate only with an electron and not with any quarks. Similarly, an up quark will not annihilate with an anti down quark and so on. So they form stable particles in the same way all other particles form, via strong interactions.
sometimes i think, we have to study our tiniest particle and we will understand the universe much better then by study stars or black holes! maybe we will find even tinier particle
Quark - plasma (if they exist) in neutron stars reach a temperature of 1 trillion degrees. The LHC experiment produced a temp of 2 trillion ( twice the amount). It’s possible that tetraquarks exist but as always, more data from neutron stars and LHC will be required.
Not necessarily but it DOES mean that we all should remember to donate quark gluon plasma to save lives! Also No, not x particle but x chromosectionals! I mean common people, woke up!
That is great and all but we need to starting these partials and or see if we can move them like electronics we could have high energy sources if we ued different partials.
Probably yes, it would be extremely hard to detect them though, as square waves are formed by specific wave interactions, and gravitational waves are hard to detect as they are, much less so in uncommon cases
Those square waves would occur due to the superposition of various waves. So it would be possible to have that form of gravitational waves, but they would be far too rare for us to currently detect.
They should smash some gold particles together and see what happens may not take a lot Although it could take a lot more than I think but I'm sure even 1 or 2 collisions would be very beneficial
Even accidents like that in case of penicillin always moves science ahead whatever that particle is its exciting lhc still giving nice results after the Higgs boson discovery
I think it'll be a proton rich, positively charged electron, double-double muon bond, quickly decaying into a Tau neutrino and quicker still, decaying a second time into a single-triple bonded negatively charged proton (an anti-ton?) Neutral electron neutrino quasi particle.
Quarks can't be compressed any closer than getting next to each other, the Pauli Exclusion Principal (no two parts of matter can occupy the same space at the same time) does not allow them to be compressed into each other. Additionally, while gluons hold quarks together, they also strongly repel quarks that approach each other.
You can't separate quarks, it takes as much energy to separate them as it takes to create two, therefore 'separating them' just generates two mesons from the original one (a pair of bound quarks becomes two bound pairs).
@@gamingcreatesworlddd2425 impossible to keep them separate. maybe. it makes sense. because it's happening at a level where perhaps quantized spacetime comes into effect on the experiment. normally, I suppose you could say when you look at things this close, it get's fuzzy, because statistically, it could go in several ways. we are basically looking as close to a horizon to the future as we can, we can't look into the future. so you cna't separate them, too close to the horizon.
So why did all of these particles come together to form sentient chemical reactions that question where it all came from. Carbon trying to explain to protons and subatomic protons it’s made of
Matter and antimatter annihilate only with their own counterparts. For example, a positron will not annihilate with a quark. Similarly, up quarks don't/can't annihilate with anti strange quarks. They just appear as normal particles to each other and combine stably like any other. I have a video on my channel about this, that I animated myself and I think you could check it out, if you want to.
lol, no. x rays are energetic photons, or "rays" of light. the X particle, as its name suggests is a particle (which scientists at the LHC think consist of either a compact tetraquark, made of 4 valence quarks, or an entirely new kind of molecule made from two loosely bound mesons, which have a mass in b/w an electron and a proton).
X rays were called X rays, becuase the scientists didn't know which rays they were and hence called them X rays. These X particles are named so again, cause scientists don't know what these particles are for sure. They ain't related in any way
Now get out there and build ultra modern ultra high tech aquatics/ multi sport recreational centers globally so every single human being can enjoy an active, healthy, fun filled, happy lifestyle. 😉
Temperature and heat are different things. Even though the temperature reaches that high, because it is ONLY a very very few particles with very low mass, it has a very low amount of heat, relatively. Heat is what's actually causing the damage and that is why no actual damage is caused. I have a video that I animated myself from scratch on my channel and I think you would benefit from that video and could check it out, if you want to.
How Science and Philosophy works. You think = you're wrong = you think again = you're wrong again x infinity. Mind simply can't understand matter. When mind tries to understand Life, it always thinks it found everything, and then ends up with nothing, and then instead of stopping there, it tries again, thinking something might be it instead of nothing. It's manic, there's no end to it, and it's unhealthy. Freedom is what matter/Life/Reality is, and trying to encompass that goes against being free. Live your life, or waste it thinking/in your mind, that's also your freedom.
With less information than the people who are doing this experiment, then why would anyone have an opinion about what is being found? Why do you even ask?
Sugar, spice, and everything nice These were the ingredients chosen To create the perfect little girls But Professor Utonium accidentally added an extra ingredient to the concotion -- Chemical X Thus, The Powerpuff Girls were born Using their ultra-super powers Blossom, Bubbles, and Buttercup Have dedicated their lives to fighting crime And the forces of evil
Most Physicist’s have expectations that fail…I wouldn’t say that gravity is not just one of them…. Maybe you don’t want people saying gravity either???
In the early 1970s I was working, as a student, at the High Energy Physics department at a large research university. One of the experiments we worked on was at Fermi Lab. This was when we were using optical methods (film). There were images of 250K interactions. About 10K were usable. From these we found about 10 lambda resonance particles, which was the main purpose of the experiment. This is the kind of result that many of these experiments. So, the low number of X particles is not unusual.
Are there any such forms of matter such as gold and/or rare Earth elements crystals meteorites anything of that nature that we could Smash together that would give us more exotic data?
@@austinjohnson4626 Not sure. I don't understand the mention of gold. Rare earth elements are not actually that rare and can be found everywhere. We stopped mining them in the US for environmental reasons. Let the Chinese screw up their environment, they really don't care.
The short answer to your question is no. The "exotic" nature of the materials has nothing to do with it.
Ahh, the X particle and whatever the Webb Telescope sees when it’s calibrated, two things to look forward to this year!
and metaverse
@@deadpianist7494 metaverse will take 50 years to commercialize it's future
@@gamingcreatesworlddd2425 not 50 years in 13 years
@@user-Void-Star or are you already in the metaverse. Could've been placed into an augmented reality years ago.
Seeker is the only guy that actually speaks so well and easy to understand language in this complex stuff. Never seen such simple talking guy. I like this guy.
That’s Julian, not seeker.
@@jlehm Seeker is his channel though so I call him by that
wait till you hear some lectures from feynmann
what about vertasium?
Try Richard Feynman wish he was around still. Best teacher of all time
Time to get off this planet. Life was discovered on the other side of the galaxy. Let’s go.
What when?
You're not even from this universe
Ok bye!
@@ChimneyCrab737 it’s a joke. 65 million years with rotating galaxies = dinosaurs on the earth on the other side of the galaxy… the galaxy is just spinning
@@g1n059 facts.
this is insane. most people i know will live their entire life having no clue how smart humans can be and how much we can figure out
Haha true
Thank Pythagoras 👌
It has a political goal.
"Now What?" You make the Powerpuff Girls of course. Wait, that was _chemical_ X. Sonuva...
X is more like a category than a name. It is usually accompanied by a number, like "X(3872)" (I think it's the energy in MeV?), so which "X" are we talking about?
X-17?
Sugar, spice, and everything nice
These were the ingredients chosen
To create the perfect little girls
But Professor Utonium accidentally added an extra ingredient
to the concotion -- Chemical X
Thus, The Powerpuff Girls were born
Using their ultra-super powers
Blossom, Bubbles, and Buttercup
Have dedicated their lives to fighting crime
And the forces of evil
the title is very confusing
it's the X(3872), i believe
X men
The perplexing question here is how the heat of this experimental fusion, which is thousands of times greater than the sun’s heat, does not affect the device or the laboratory and simply melts it.
simple answer: the lhc is build for this! also the time this heat is at such high temp is very short.
Also the mass of the particle is so low that the heat is easily absorbed my the MUCH more massive colider
@@Crunk_Cat exactly
I want to know how they measured the internal temperature of the sun.
@@asandax6 Mass, surface temperature, radius, and most importantly perhaps: the quantity of light the sun emits at specific wavelengths
the more they dig they will realize the closer they get, is the further away they are. one day they will realize that the building blocks of our universe actually has building blocks for the blocks.
Saying everything is made of strings will one day make sense
Realising there are no strings, no m theory, no quantum, no special relativity, no Newton's laws, no dark matter, no dark energy, no space-time, light is not a particle-wave duality, electricity is not an independent field modality and it's not the only combination of capacitive and inductive induced perturbation, no single magnetic flux curves of magnets etc
This is when we will start to discover and understand.
Until then we regurgitate our deliciously decadent egocentric scientism which serves to prevent discovery unless there is peer supported funding or concensus on the subject.
Science lets us down in our modern capitalistic approach to humanity's journey.
You can't reify space as it is nothing, you can't measure time because it's a construct we create. To combine nothing with nothing and use that to warp the imaginary mesh fabric that let's bouncy object stretch it is absurd.
Science chooses to forget the discoveries of long ago at our peril.
If you want to understand basic physics go back to the godfather of mathematical genius, Charles Proteus Steinmetz and read what he says because GE and Wabtec relied on his fundamental facts to compete with Tesla.
Much is lost 😢
*_Well.. I think they now have to find particle 'y'_*
:P
Knowing how thing normally play out, it's going to be somthing unexpected and raise another 100 years of questions.
The next logical step is to find the professor and make chemical X. The Powerpuff girls aren't gonna make themselves 😂
😂
Cool vid! So well explained! GREAT host!
So nobody ever says where the original elements came from to explode in the first place. And if there was nothing where was this going on?
Nice! Learning more about our fundamentals is always amazing.
¡
If I take my clothes off and bend over with my head between my knees, then I can see my fundamentals.
Now I just have more questions than answers
That's the beauty of science. :D
@@onbored9627 questioning everything how can just human be this intelligent in trying to learn what's universe is made of
probably nothing will happen with this in next 20 years
What do you think will happen on the 5th?
I can't understand how those particles that are made of quark and anti-quark can exist, I thought that such particles, like quark and antiquark, will annihilate each other...
Usually yes, and some are unstable. But, the strong force is keeping them apart from each other, although the distance between them is insanely small, they still aren't in physical contact, so no annihilation.
@@optimuseprime7887 I see... so, those are matter-antimatter particles, I thought that was what I don't understand, that both are matter particles, but for some reason, it is called antiquark... So they can't get in touch... but, the strong force is a force of attraction? Or it can act as a deflection force too?
Sorry if I make mistakes English is not my native language...
@@optimuseprime7887 And, if you can explain to me, I mean if you know, I don't understand why pulsars, neutron stars are made just of neutrons? Electrons are pushed in protons and they react somehow and the product is a neutron?
@@ozymandiasnullifidian5590 they can’t get in touch because of the color force, which prevents them from separating but also from touching
@@miguelcp236 Color force? I am just an amateur, I don't know what color force is, but I understand that if they can't get in touch there is no annihilation.
Can't wait till science finds 🔍 Magic ✨
Haha me and my closest friend believe that this Universe is really magic
Magic with logic won't be magic anymore.
@@yuvanraj2271 true
@@yuvanraj2271 yes time travel just 150 years ago and fly a plane there people will say you are doing some satanic magic any sufficiently advanced technology is indistinguishable from magic it's a popular quote
@@yuvanraj2271 What if I tell you magic is the most logical system that there is. It even perpetuates on itself, logically and systematically.
"Does it even matter at that point?" Yes, it does. 2 trillion degrees Celsius is 3.6 trillion degrees Fahrenheit. There's always a big difference between the two, so units do matter there. Now, between Celsius and Kelvin, it doesn't matter at that point because 2,000,000,000,000 degrees Celsius is 2,000,000,000,273.15 degrees Kelvin.
Exactly.
Gratz on nearly 5 million subscriptions!!
When you take into account how much energy and matter was condensed in that quark-gluon-plasma at the beginning of the universe, I dare say that it took a bit longer than a tiny fraction of a second. After all, time dilation is a thing..
Locally to the plasma, wouldn't time seem to move normally? Or conversely, did time exist before matter? I thought the energetic plasma at the beginning of the universe wasn't technically matter yet.
@@bdorocks2 It would still have mass. If you consider that you can focus enough light into a set area of space to create a "Kugelblitz" black hole because of E=mc²..
@@kataseiko Thanks for the reply! Learned another new mind blowing thing.
i peed by reading the title
The four particles arrangement is something like this. One in the center and the rest three branching out from the center, at equal distance. Some of them have Quarks as center , while some have Anti-quarks as center. Such that those with Anti-quark as center are equal to number of those having Quarks as Center.
I can't believe. They finally found X!
That's nothing......I found XXX
They found a PARTical of X
powerpuff girls
And to think, it kept attempting to give itself to us all this time
Now, where do we look for Y?
I am no expert… but I suggest scientists should now look for particles Y & Z
They maybe called it x paricle as one of the scientist watched x men
The hadron collider baffles me. It's the biggest science equipment we have but it's made for experiments on smallest things in the universe..
A thought...the collisions are occurring between particles travelling at an appreciable fraction of c (although not quite the 0.99999999999999999999c that they got protons up to)...so the collision fragments must presumable be also...does relativistic time dilation increase the "lifetimes" of these before they decay, & thus make them easier to detect...?
this channel teach me more then my school........
Apparently, not enough. Its "than" when comparing. While "then" is for sequence of events.
Julian, how much energy to cause vacuum decay? Can we reach it?
If we will we will be dead as vaccum decay will expand at speed of light eliminating everything
Very informative and interesting
Nice video.
Could we be living in a particle collider? Maybe a 3D one? Interesting topic for debate
no its not
thats stupid
Interesting but there's quite a difference between 2 trillion and 3.6 trillion degrees fahrenheit.
Oh I thought it broke up with physicist!!
That made me laugh too 😂😂
Now name it satan particle
hi
how quark and anti quark make stable pairs? 1:11
what force is changing the direction of the split particles once they split? spin? magnetic field? statistics? 1:31 and every particle slide ever ... I assume you can watch such phenomena in the dialed enough
Matter and antimatter annihilate only with their own particles. Like a positron will annihilate only with an electron and not with any quarks. Similarly, an up quark will not annihilate with an anti down quark and so on. So they form stable particles in the same way all other particles form, via strong interactions.
@@physifacts thanks!
and the "odd" trajectory?
@@physifacts air pressure? spin (not Qspin, like a football)? Qspin? magnetic or other field? statistics?
aether? ;)
Chaos for now. I'm sure these ai machines can do the math and possibly find patterns but I doubt it. Moreso to predict what direction they won't go.
Leave it alone or you'll be sorry
Great now we need to try to stabilize them for longer observations & possible production.
sometimes i think, we have to study our tiniest particle and we will understand the universe much better then by study stars or black holes! maybe we will find even tinier particle
YUP! That's what they do at the COLLIDER, looks like we could go to infinity in either direction
@@danielscarbrough4363 cool black holes maybe are made of Bose Einstein condensate it's properties are similar to what black holes have
As quark gluon plasma also exist in neutron stars , does that mean they also have x particles?
Maybe probably
Quark - plasma (if they exist) in neutron stars reach a temperature of 1 trillion degrees. The LHC experiment produced a temp of 2 trillion ( twice the amount). It’s possible that tetraquarks exist but as always, more data from neutron stars and LHC will be required.
Not necessarily but it DOES mean that we all should remember to donate quark gluon plasma to save lives!
Also No, not x particle but x chromosectionals! I mean common people, woke up!
Mayhem Discord & Chaos, Oh my! : I’m officially discombobulated
Sure
That is great and all but we need to starting these partials and or see if we can move them like electronics we could have high energy sources if we ued different partials.
That X particle could be the Dark matter that higs particle decayed so fast & turned into invisible undetected Dark particles.
Pentaquarks have also been observed
With _tiny_ significance, according to the 2018 PDG booklet
I think for sure a qg plasma due to our knowledge of solid state physics
Q: Now what?
A: Search for particle Y.
It's probably 4x -1/3 quarks with one ghosting from a prior moment imho
*Quark* .... "Wasn't me, honest. I've been on Ds9 the whole time!!"
Lovely, comprehensible explanation, thank you!
Hi , there are square waves on ocean surface, my question is , are there gravitational square waves in space
Probably yes, it would be extremely hard to detect them though, as square waves are formed by specific wave interactions, and gravitational waves are hard to detect as they are, much less so in uncommon cases
Those square waves would occur due to the superposition of various waves. So it would be possible to have that form of gravitational waves, but they would be far too rare for us to currently detect.
When will they find Y particle?
Yeaharrr. The are getting creative with the collider:)
Is smashing protons together at a very high speed the same as smashing protons together at a very intense pressure such as inside a black hole?
No, this is because a black hole is at an infinite density, and these protons are being smashed together at a measurable speed. Hope this helps.
that x particle is probably like electron but can only exist in extreme temperature.....
Thank you doctor. Hopefully this finding of yours gets published soon.
@@onbored9627 playing a guessing game.........what do you think " like electron" means here
@@wasifulalam1393 No idea, you’re the doctor.
LETS GOO, NEW PATCH NOTES 📝
5:48 - ROCK AND STONE! 😅
They should smash some gold particles together and see what happens may not take a lot Although it could take a lot more than I think but I'm sure even 1 or 2 collisions would be very beneficial
didn’t they find the pentaquark some time ago and it turned up to be nothing
I am hoping that it is neither but something new and different that will lead to a new physics.
Even accidents like that in case of penicillin always moves science ahead whatever that particle is its exciting lhc still giving nice results after the Higgs boson discovery
I think it'll be a proton rich, positively charged electron, double-double muon bond, quickly decaying into a Tau neutrino and quicker still, decaying a second time into a single-triple bonded negatively charged proton (an anti-ton?) Neutral electron neutrino quasi particle.
5:40 Can we call if "Joulian" if ever? You know, because of the energy that's in there?
Loved this video
Is it possible that quarks are compressed under normal conditions, and that this is a single quark without those pressures?
Quarks can't be compressed any closer than getting next to each other, the Pauli Exclusion Principal (no two parts of matter can occupy the same space at the same time) does not allow them to be compressed into each other. Additionally, while gluons hold quarks together, they also strongly repel quarks that approach each other.
You can't separate quarks, it takes as much energy to separate them as it takes to create two, therefore 'separating them' just generates two mesons from the original one (a pair of bound quarks becomes two bound pairs).
@@xxportalxx. meaning pretty much impossible to separate them
@@gamingcreatesworlddd2425 impossible to keep them separate. maybe. it makes sense. because it's happening at a level where perhaps quantized spacetime comes into effect on the experiment. normally, I suppose you could say when you look at things this close, it get's fuzzy, because statistically, it could go in several ways. we are basically looking as close to a horizon to the future as we can, we can't look into the future. so you cna't separate them, too close to the horizon.
Looks like they’re not far from creating a mini-verse like the one in Rick n Morty
So why did all of these particles come together to form sentient chemical reactions that question where it all came from. Carbon trying to explain to protons and subatomic protons it’s made of
Nobody knows it's possible that consciousness is something created just in brain but we can't get proper answer unless aliens will show up
Sounds like mesons consist of a quark and anti-quark pair. What keeps the matter and anti-matter combination from annihilating?
Mesons are unstable and decay in the order of nanoseconds.
@@XEinstein How do they last so long?
Matter and antimatter annihilate only with their own counterparts. For example, a positron will not annihilate with a quark. Similarly, up quarks don't/can't annihilate with anti strange quarks. They just appear as normal particles to each other and combine stably like any other. I have a video on my channel about this, that I animated myself and I think you could check it out, if you want to.
@@physifacts THANKS! Watching now!
The ex-particle is to "ex-gravity" what gravity is to magnetism
Creating a bubble in space time
Now what? Well, create the Powerpuff Girls, of course!
Wouldn't it be crazy if they made a mini universe
it wouldn't?
Dark energy was just the X particles vs. Cigarette Smoking particles this whole time.
tetraquark.
It is clear, the X-particle seems somehow related to X-rays :-)
lol, no. x rays are energetic photons, or "rays" of light. the X particle, as its name suggests is a particle (which scientists at the LHC think consist of either a compact tetraquark, made of 4 valence quarks, or an entirely new kind of molecule made from two loosely bound mesons, which have a mass in b/w an electron and a proton).
X rays were called X rays, becuase the scientists didn't know which rays they were and hence called them X rays. These X particles are named so again, cause scientists don't know what these particles are for sure. They ain't related in any way
@@physifacts - Absolutely correct!
They've found _Particle X,_ huh? Obviously, it's time to create....
.
.
.
.
.
*THE POWERPUFF GIRLS!*
now what? particle y and z of course
we are one step closer to powerpuff girls
Now we just need to find planet X
It’s prolly around the x o planet 😂
I knew the power puff girls were real.
Now get out there and build ultra modern ultra high tech aquatics/ multi sport recreational centers globally so every single human being can enjoy an active, healthy, fun filled, happy lifestyle. 😉
I think that we are the DNA of the creature call universe.
Think about it
Facts indeed
But dna of what what organism can be alive enough to be infinite
My guess is their next goal is to discover particle y
Then particle z then maybe we’ll get a pokeball
Mojo Jojo doesn't want the Powerpuff girls to know about this.
Music is a little distracting
Time to make chemical x and then The Powerpuff Girls!
Secondish?
Nope, first
Why is temperature that high and how could LHC handle that extreme temperatures?
Temperature and heat are different things. Even though the temperature reaches that high, because it is ONLY a very very few particles with very low mass, it has a very low amount of heat, relatively. Heat is what's actually causing the damage and that is why no actual damage is caused. I have a video that I animated myself from scratch on my channel and I think you would benefit from that video and could check it out, if you want to.
How Science and Philosophy works. You think = you're wrong = you think again = you're wrong again x infinity. Mind simply can't understand matter. When mind tries to understand Life, it always thinks it found everything, and then ends up with nothing, and then instead of stopping there, it tries again, thinking something might be it instead of nothing. It's manic, there's no end to it, and it's unhealthy. Freedom is what matter/Life/Reality is, and trying to encompass that goes against being free. Live your life, or waste it thinking/in your mind, that's also your freedom.
With less information than the people who are doing this experiment, then why would anyone have an opinion about what is being found? Why do you even ask?
E8 lattice theory just got that much stronger
How so?
Uh, no actually it didn’t.
Uhh not really. Quite the opposite if anything.
Sugar, spice, and everything nice
These were the ingredients chosen
To create the perfect little girls
But Professor Utonium accidentally added an extra ingredient
to the concotion -- Chemical X
Thus, The Powerpuff Girls were born
Using their ultra-super powers
Blossom, Bubbles, and Buttercup
Have dedicated their lives to fighting crime
And the forces of evil
Yes powerpuff girls 🙂
But Who designed the laws that govern how particles behave in the first place?
Physical laws don’t need to be designed.
@@daryldixon5587 why not ?
@@chrisevans4070 Because that’s how reality works? That’s like asking why is a tree called a tree.
"X gonna give it to ya!"
- DMX, recognized and distinguished theoretically physicists & researcher
Most Physicist’s have expectations that fail…I wouldn’t say that gravity is not just one of them….
Maybe you don’t want people saying gravity either???
Sooo Higgs Boson was described to hold space time within it.. is that true?
If so that means we can create a warp drive!
Since CERN is the one ring that rules them all, can we honor it by calling the X particle, "My precious"?
That'd get quickly outvoted by "Isildur's Bane".
Very informative video but the music is so offputting.
I heard particle physicists have a really quarky sense of humor.
How is the radius defined for protons?
By scattering smaller particles like electrons.
Drink every time you hear "we think"
I dont really support colliders. I think they can be used to make a weapon far more powerful than any nuke.
Stupid they tried creating black holes but nothing happened as higher dimensions don't exist nothing will happen