An amazingly clear explanation! I remember learning how to do calculations in quantum field theory without having any idea what it all means. I wish you'd been around then, it'd have been much easier to make sense of the maths.
@tourdeforce2881 Жыл бұрын
As a non-physicist I always enjoy Arvins' explanations because they are clear and they keep me interested in the field.
@bsanders1 Жыл бұрын
Hello Sabine! I appreciate your clarity as well ❤
@Kelnx Жыл бұрын
Hey it's Sabine! You and Arvin are great, thanks for what you guys do.
@Hossak Жыл бұрын
Sabine has entered the chat! I want to sincerely thank you and Arvin for your fantastic efforts to explain such deep physics to us. You guys are making a difference!
@sweebos Жыл бұрын
I found this video and channel thanks to your shout-out... Thank you for helping me find more avenues to increase my knowledge and understanding. ✌️
@johnmckown1267 Жыл бұрын
It was wonderful to hear you say that the universe is inherintly lazy. I fit into this model of existance.
@addajjalsonofallah6217 Жыл бұрын
It's true and you even see in humans as well
@chrismuratore4451 Жыл бұрын
I tell everyone all the time, through the principle of least action, I am a hero of the universe by extending its functional lifespan.
@ericsonhazeltine5064 Жыл бұрын
Me too
@TheNameOfJesus Жыл бұрын
I once used this phrase to explain physics to my nephew, who studies philosophy, and he replied, "Stop anthropomorphizing the universe." He has a point. I cringed when Arvin used that phrase. I don't think it's an intelligent phrase to use.
@ryanw1433 Жыл бұрын
My hydrogeology professor always told us “Mother Nature is lazy” :)
@J2thaPTV Жыл бұрын
I wish I had a teacher like this growing up. Enthusiastic, to the point and very matter of fact about these complex topics. In the same breath he acknowledges common doubts and questions with a positive and non confrontational ease. I'm just some regular dude pushing 40 with a wife and family but these videos make my brain tingle in a way that just feels great and brings me back to a time where I was excited to learn but never was afforded during my time in the educational system.
@ArvinAsh Жыл бұрын
Thanks for the kind words. Glad you enjoyed it!
@friedrichjunzt Жыл бұрын
well, the question is whether you would have been interested in topics and math like this while growing up 😁
@SolveEtCoagula93 Жыл бұрын
One of THE best videos on particle physics I have ever seen. Like many others, when I struggled through my Physics degree we had a backboard and, usually, very badly hand written OHP's (don't worry if you don't know what these are - dreadful things!) to deal with. Not only does AA explain things extremely well, the animations add a new dimension which helps the text tremendously. I envy the new generations of students and hope they appreciate just how valuable these productions are. Thanks Alvin!
@1ifemare Жыл бұрын
The animations are crucial to visually connect abstract concepts and add layers of meaning that help crystalize those ideas into deep solid notions... But the script is just an absolute jewel - a pure perfectly polished multi-faceted transparent diamond, forged into existence from the slag of every-day language. Seems almost impossible a feat. A legend of literary alchemy. And it makes the rest of us writing our little clumsy comments here seem like toddlers playing with sticks. #GiveArvinAshTheWebby
@steviejd5803 Жыл бұрын
Arvin, you are simply brilliant, thank you so much for giving us your time and enthusiasm.
@KnightmareFrame92 Жыл бұрын
Really loved the Feynman Diagram explanation and animation at the end, good stuff!
@higherresolution4490 Жыл бұрын
I had never run across these particular Feynman diagrams before. They were a huge help! I've never run across such an excellent educator in physics.
@alfadog67 Жыл бұрын
Outstanding animations as usual, Professor Ash. After watching your videos, I feel like Neo when he learned jiu jitsu.
@dipling.pitzler7650 Жыл бұрын
I like this analogy, Professor Ash is indeed very enlightening! LOL
@dongshengdi773 Жыл бұрын
@@dipling.pitzler7650Yep. So now you know that science is a religion. Get over it
@softwarerevolutions Жыл бұрын
dawg!
@samhiatt Жыл бұрын
Well said!
@theultimatereductionist7592 Жыл бұрын
So now you know that guns are a religion. Now you know that capitalism is a religion. Now you know that anti-wokeness is a religion. Now you know that conservatism is a religion. Now you know that eating meat is a religion. Now you know that fossil fuel addiction is a religion. Now you know that the WAR AGAINST CYCLISTS & PUBLIC TRANSPORTATION is a religion. See? I can make stuff up too. But at least MINE, unlike yours, is correct, AND original.@@dongshengdi773
@SamWitney Жыл бұрын
Arvin, this is amazing. Thank you for doing this video as I think a lot of people forget that we don't necessarily have to see something directly to know it's there. This is becoming so much more important as there is so much now in physics we can't directly see, but need to find a way to indeed conclude something is there. I hope the science community keeps going with ways to find things that we can't directly see and each of these discoveries is huge. We will always question things and that's good, but we have to learn to make sure we follow the science that's already been concluded. If something is 5 or 6 sigma we can't dismiss it and say it doesn't exist and do some totally different stuff. The only way we make progress is by following what we have found and building on that. As hard as it is. You can find a billion ways to not find something, but the hardest part is finding the one way to find something. This is where I don't agree with experimentalist that all tests are good as they say the result is progress regardless. But it is not now a days as science has become very difficult and very expensive. A.k.a.......... ITER
@RacerRich1 Жыл бұрын
Great explanation. I was fortunate to tour CERN prior to the official announcement and could read between lines to see that they had made the discovery and were in the process of collecting the statistically significant quantity before making it official. Data processing was impressive in terms of the quantity and that it was processed overnight.
@HLZ90 Жыл бұрын
Great vid! A bit off topic but can you list all the songs you use in the descriptions of your videos? I would also like to know what song is playing at 9:57, love this style of music.
@ArvinAsh Жыл бұрын
Thanks so much!
@jason0joon Жыл бұрын
I love your videos. I have learnt so much from you. I have honestly contemplated quitting my comfortable job to pursue particle physics just because of your videos.
@kajeralocse Жыл бұрын
How you simplified this very complex concept is amazing. Thank you.
@JasonPF Жыл бұрын
I genuinely look forward to these videos every week, thanks Arvin :)
@ArvinAsh Жыл бұрын
Happy to hear that!
@prolixescalation1932 Жыл бұрын
I have no idea how I bumped onto this channel, but it is a blessing
@FATHERbBernard7779 ай бұрын
Seriously...u r BRILLIANT and ur graphics r 2 !!!
@MWTGoldenGun Жыл бұрын
I appreciate how you are honest about what we don't know about physics. Many people teach these subjects as immutable fact, when in actuality there is still so much unknown that could upend everything we currently know. It makes you more relatable as a regular person seeking knowledge rather than just another know it all scientist. (Still acknowledging that you are in fact very informed and knowledgeable and a great teacher)
@emergentform1188 Жыл бұрын
Great stuff! Yea we always need to remember that we aren't seeing reality directly but rather our interpretation of reality through the lens of our senses and our own mind. Could be that there are alien civilizations out there that have a while differently model, every bit as valid as our own, completely depending on how they are measuring and interpreting the results of their inquires. The mental map is not the territory, but rather only a representation of it with varying/unknown degrees of accuracy.
@smlanka4u Жыл бұрын
The Higgs boson would decay into matter and antimatter higgs objects first before they become Bottom quarks with a photon. Therefore, the Higgs boson can be the symmetry of those matter and antimatter objects, and they would share a virtual photon to be symmetric.
@zwigoma2 Жыл бұрын
What would it take to have assurance that aliens existed ? [ to make a possibility ] a craft unlike anything we have ?
@emergentform1188 Жыл бұрын
@@zwigoma2 While there's abundant evidence suggesting aliens are already here, I guess we'd need hard evidence independently verified by multiple agencies, but even then, they could be lying. A living breathing alien see in person would do it I guess.
@pokemonitishere202 Жыл бұрын
అన్నయ్య మీ వీడియోలకు నేను పెద్ద ఆదటిని. ఈ విశ్వం పై మీకు ఆసక్తికరమైన కనురోకు ఉంది. చాలా వీడియోలు చూసాను మీవి. ముఖ్యంగా సాపేక్ష సిద్ధాంతం పై చేసిన వీడియో అయితే చాలా బాగుంది.
@DSC800 Жыл бұрын
The more I learn about the Higgs "discovery" back in 2012 and how it dictates the mass of particles within it's field, the more I think it was a discovery of justification. It justified the huge cost of the LHC and then managed to justifiy further billions for upgrades.
@FATHERbBernard7779 ай бұрын
yep!!!
@NicholsonNeisler-fz3gi23 күн бұрын
You are not the only person who believes that….
@GregTateHome8 ай бұрын
Great format and presentation style on a pretty complex topic, good job Arvin!
@DaRios_Tristan Жыл бұрын
Physics is does not guarantee the truth, but only the most reasonable explanation for the observations we make .
@FATHERbBernard7779 ай бұрын
yep!!!
@gdeamonlord Жыл бұрын
the channel that keeps on giving, great video, keep it up!
@romanieo Жыл бұрын
I was at CERN in 2017 in a masterclass setting and learned this first hand. Blew my mind, as the discovery of the Higgs is both mathematically sound while being 100% unsatisfying. I too had to quiet the "bullshit" bandit that kept making its presence known. Luckily my host is one of the greatest at ATLAS so I was ultimately able to take in the science. The key is..., No, particles. Only excitations. @ArvinAshn, you are Brilliant as always. @SabineHossenfelder is correct..., Where were you back then?!?! Well, thankfully we have you now. Liked and Subscribed!
@IndranilBiswas_ Жыл бұрын
Arvin, this one's great pretty, like all others. Keep 'em coming please!! Can you also make a video about how the 173 GeV particle was discovered?
@LQhristian Жыл бұрын
Finally, a detailed explanation of the 'actual' discovery!
@VikingTeddy Жыл бұрын
The media back then caused a lot of facepalms when they went with the "God" particle. Every scientist I know *hated* it with a passion 😁 Famed physicist Leon Lederman wrote a book about the Higgs, and titled the book "The goddamn particle" referencing how expensive, frustrating and difficult it was to find. His publicists however didn't like the idea and at the last minute changed it to "The God Particle", before Lederman had a chance to say anything about it.
@echelonrank3927 Жыл бұрын
@@VikingTeddy no, i like it . they discovered god. all thats left for us to do is believe they did. money well spent
@SmogandBlack Жыл бұрын
This channel is getting better and better... my compliments 😊.
@shmigelsky Жыл бұрын
That's super interesting - I love these detailed explanations. To put the numbers into perspective (like you did for the ratio from Higgs to electron), I suggest adding a human-relatable reference. For example, for the 10^-22 lifespan of a Higgs particle, the age of the universe is 10^17 in seconds, so the Higgs would experience 10^5 universe lifetimes (in seconds) compared to 1 human second - it degrades that fast, which is still mind-boggling 10^22 times more than the plank time. It would also be interesting to know the frequency of the emitted photons from the Higgs decay vs the frequency of the gamma rays from supernova or antimatter/matter collusion. It would also be interesting to understand the energy multiples between the various particle flavours (ie electrons) and how they are manifested in the quantum fields; or why we think specific fields interact with only other fields - and how.
@quitchiboo Жыл бұрын
Frequency of one of those decay photons (about 1.5*10^25Hz) is higher than the most energetic gamma ray photon ever recorded (GRB 970508) which had roughly a frequency of 10^24 Hz. So you wouldn't expect to see a lot of those around. What you describe in your last sentence is a very hard problem in particle physics, namely how to explain the mass-ratios of the fundmental particles. Afaik, these masses are free parameters in the standard model, which means they cannot be derived from theory but must be measured.
@95rav Жыл бұрын
Could also add, even if the created Higgs boson wasn't stationary, but was actually travelling at light speed, in 10^-22 sec it would only travel 10^-14m - ie, way less than a nanometer- and could never hope to reach a detector directly. Its existence NEEDS to be inferred from its decay products.
@tonywells6990 Жыл бұрын
@@95ravHiggs bosons do actually have momentum (they gain momentum from the collision which is moving at near light speed after all) and measuring it (the transverse, or perpendicular, momentum of its decay products) helps physicists determine its properties.
@z08840 Жыл бұрын
I guess this is the best channel on youtube with simplest-but-not-simpler-than-necessary explanation of complex stuff...
@JohnW118 Жыл бұрын
It was the first I heard the Higgs remains essentially stationary and never moves toward the detector with ~0 momentum. That was interesting. I had always heard the usual that near-instant decay was the process why Higgs wasn't detected directly, but the lack of momentum was indeed interesting to me.
@tonywells6990 Жыл бұрын
The Higgs boson does have momentum, it is produced by particles moving very quickly. It doesn't move very far before it decays but it still has quite a large momentum.
@PowerScissor10 ай бұрын
Another great video! The number one confusing thing for people in my experience that I get asked the most when they watch videos like this is the heavy use of phrases like "10 times 3 to the power of negative 6". People that don't deal with numbers written like that, have no idea if that's a big number, a small number, and everything said after that is lost because they can't follow along anymore. Just a quick explanation of that, even though it might seem silly, would go a long way of helping even more people follow along in these videos.
@mandelbraught2728 Жыл бұрын
Yeah after I learned more about physics, and science in general, I realized what does "seeing" something even mean. But, of course, we're human and it's natural. Like the JWST, we can't "see" anything it's seeing, although I wish we could 😃 Another excellent one Arvin, thanks!
@KindlingEffect Жыл бұрын
Well, both eyes and LHC are kinda doing the "same" thing. Let me explain... When animals (including us) see an object, what's happening is that the quantum particles of light (i.e. photons) coming from the object hit the quantum particles that make up our eyes. The energy transfer from these collisions kicks off a chemical chain-reaction, starting from the retina, through the optic nerves, and to the brain. We experience this chemical process as sight i.e. we see the object from which the photons came. In other words, sight of an object is caused by the interaction/detection of photons coming from that object. The LHC discovered the Higgs-Boson by the interaction/detection of photons coming from Higgs-Boson. So, in a way, the LHC did see the Higgs-Boson.
@colder5465 Жыл бұрын
With "seeing" we have a big problem when we go to microsizes. In order to see we have to light the object. But light is also a particle - photon. In other words, we make the object interact with another particle and "see" the result of this interaction and not the initial object. Another big problem: the huge difference in sizes of visible light photons and, for instance, an electron. The electron is much much smaller. So in no way we can't see the electron.
@ArmanAlam-by9muАй бұрын
for everyone scrolling and listening to the video, go read forbidden manifestation by zara blackthorn. then come back to thank me
@fuffoon12 күн бұрын
I only got to the $49.95 part of the video.
@raajnivas2550 Жыл бұрын
Wonderful information, Mr Arvin Ash. I am much indebted to you.
@KatjaTgirl Жыл бұрын
Thank you for another great video Arvin! Is it fair to say that the only field that we can actually measure is the electromagnetic field?
@davidbeare730 Жыл бұрын
You showed me something I thought I'd never understand. Brilliant!
@freespark2751 Жыл бұрын
The graphics and the explanation on this video was truly amazing. Thank you for the video. I have one question, is there a reason that particles exist at just specific amounts of energy ( like 125, and etc) and if we call these amounts of energy, particles, then the energy in-between these numbers should be particles as well even though they might not last long and are there infinite particle fields that we can only detect some of them because of the available particles (like photon) we are using to detect them? And how do they shoot particles like protons and make sure they will collide?
@quitchiboo Жыл бұрын
The reason for those specific numbers is that those are the fundamental excitation energies of the underlying quantum fields. If you hit the electron field with 511 keV it will resonate and "spit out" an electron. If you give it more than that, the resulting electron will just be faster until you hit the field with 2 * 511keV, at which point it will "spit out" 2 electrons. One of the biggest problems in particlephysics is why the ratios between the masses of the fundamental particles are the way they are, which cannot be derived from theory but must be measured.
@freespark2751 Жыл бұрын
@@quitchibooInteresting, thank you for the reply.
@robbierobinson8819 Жыл бұрын
Absolutely fantastic description - so clear and with brilliant graphics. Now to watch it again for things I missed. hank you for your programme.
@fredcrayon Жыл бұрын
I’ll never be able to wrap my head around the concept of photons having energy because of the fact they are massless. 🤯
@ArvinAsh Жыл бұрын
Yes, massless objects can exist. They just have energy. All forms of electromagnetic radiation is composed of this, heat, radio waves, light, etc.
@hogg422910 ай бұрын
@@ArvinAshphotons, in the right state and circumstance, can become a particle with mass, correct?
@ArvinAsh10 ай бұрын
@@hogg4229 yes, into a matter/antimatter pair.
@Wilky9717 ай бұрын
When they become matter do they have temporary mass ?
@TalLeMel-bu7wx7 ай бұрын
I'm with you on that, except neutrinos are also massless, but the electron neutrino also has energy. I'm a novice, so please correct me if I'm mistaken. If light is a particle, does that help explain the photon's energetic property?
@stephenzhao5809 Жыл бұрын
1:43 Quantum Field Theory: According to this theory, a particle is nothing but an excitation, or a kind of wave in a quantum field that permeates all of the spacetime. Each particle is an excitation or a quanta of energy in its own field. 4:28 ... now the issue is that since there are many particles of the standard model that are lighter than the Higgs particle, there are many energy paths that lead to more stable particles if you start out with the Higgs particle. Consider for example the electron. ... 13:20 This Higgs particle of course, as I stated earlier, almost instantly decays. So, what does it decay into? A very interesting fact about the Higgs decay that led to its initial discovery is that it came from the detection of photons. Now this might seem really confusing to you, because I said earlier that the Higgs doesn't 13:38 interact directly with massless particles like photons. The key word there is "direclty." The Higgs decays to form very heavy botton /anti-bottom quarks, 13:52 which are strongly coupled with the Higgs. And these quarks do interact with photons because they are electrically charged. So what you get as a result, is a Bottom/anti-Bottom loop which annihilates into two high energy photons. And the energy of these photons adds up to the mass of the Higgs. The photon is what we actaully detect, not the Higgs. 14:15 ... Today, it has been found bia many decay processes precisely as the standard model predicts. Now, you might say, wait a minute, this is all bullshit, we need to see a particle to conclude that it actually exists. ❤To this I can't completely disagree with you. But I think you should keep in mind that physics is does not guarantee the truth, but only the most reasonable explanation for the observations we make. The hard truth is that evidence for the nature of reality is really nothing more than a statistically significant result. 👍💛 Thank you Arvin a lot!!! 💙
@thegodfather4959 Жыл бұрын
The details of the decay process at the end was quite awesome... I was still having just a little nagging doubt about the 5,6 sigma results ( a little part of me was still saying this could be a fluke), but the ending explanation tells quite clearly how it happens and thus how awesome the discovery really is and it cleared all the doubts as well. Thank you sir for this great video💪. Hope you keep adding such technical details in more videos in the future
@colder5465 Жыл бұрын
What literally blows your mind in the decay process: we can predict with what rate the substance decays and with a really huge precision. But absolutely in no way we can predict when decays one chosen particle. It can decay now or at the end of the universe! No way of predicting. And at the same time there is no such notion as "age" for a particle. Every particle of a chosen type is absolutely the same as any other particle of this type.
@abrienel6558 Жыл бұрын
Very pleasant and easy to follow explanation.
@_abdul Жыл бұрын
This man gives the best and digestible explanation of theses complicated subjects, And I can say that with a gazzillion sigma of statistical significance.
@Aalok1991 Жыл бұрын
This is the definition of profound..great video👍🏼
@rJaune Жыл бұрын
Great video, as usual! But, I am a little confused. How did we find the heavier Top quark before the Higgs? I thought the reason for not finding the Higgs previously was that previous colliders weren't powerful enough. But, the already known Top quark decays into it.
@ArvinAsh Жыл бұрын
Good question! The top quark is charged, ie, it has a color charge via QCD, and an electromagnetic charge, so it is much easier to detect. It has something called the leptonic decay mode where it decays into a bottom quark, a muon or electron and a neutrino. This is relatively very easy to detect. The Higgs on the other hand has no charge, so its creation is much more rare.
@higherresolution4490 Жыл бұрын
Great question and an equally great response!
@studiocordesvocalles Жыл бұрын
"Evidence for the nature of reality is really nothing more than a statistically significant result" :) Subscribed !
@adultingwithchris8690 Жыл бұрын
"Wait a minute, this is all bullshit!" Made me laugh out loud! Wonder video, thank you!
@ciaraconover22904 ай бұрын
I really appreciate your content and the way your able to explain things
@anunusualnick8340 Жыл бұрын
Imagine if gravity somehow worked like this: Big masses like sun and Earth would repel/stretch the Higgs Field. And by doing that, it would make the particles moving toward the big object, lose mass, and move faster. You know, without the Higgs Field, particles do not have mass, and move to speed of light.
@thedeemon Жыл бұрын
Photons and other massless particles don't interact with Higgs field, but still follow curvature of spacetime which is gravity in GR (see "gravitational lensing"). So spacetime curvature must be a different thing than Higgs field.
@causaestmalleus4605 Жыл бұрын
@@thedeemon not having mass and not interacting with spacetime are two different things. Photons still have to follow the curvature of spacetime, which is caused by mass. So, yes, spacetime curvature isnt the higgs field
@echelonrank3927 Жыл бұрын
what i can imagine is the higgs field gives mass to particles the same way as a scale gives you 100kg when u stand on it. if the scale was suddenly removed u would lose mass. which would make u speed up and hit the ground.
@Thomas-gk42 Жыл бұрын
Sabine sent me to this channel, happy to have one more source now, to become smarter and smarter. Nothing is more fascinating like the foundation of science.Very good layperson explanation 😊
@ProducerX216 ай бұрын
I’ve seen countless other videos with some of the smartest people in the world attempting to explain what the Higgs is, how it gives particles mass, and how we used the LHC to find it. I think these people have gotten used to dumbing down their answers for documentaries and interviews. I feel kind of disrespected. This video does such a better job of explaining this subject why still being easy to understand and entertaining I know this barely scratches the surface of the complexity of what is taking place, but it’s better than 99% of other physicists watered down explanations to suit the masses
@dworkin7110 Жыл бұрын
Brilliant Video, thanks Arvin :)
@markpmar0356 Жыл бұрын
Nice one. "Physics does not guarantee the truth, only the most reasonable explanation...". And when a more reasonable explanation is found, the truth follows suit.
@Yurivlc Жыл бұрын
Excellent content about quantum science. I read a couple of books about this amazing subject and I found this video very illustrative. Thank u
@surajvkothari Жыл бұрын
The experiment couldn't have been done without the theory being solid. Great work by the theorists.
@TheNameOfJesus Жыл бұрын
The experiment could have been done without knowing the theory at all. Probably 99% of all science progresses by conducting experiments and observing new and unexpected results, rather than having theories and then building experiments to test the theories. Not every scientist is an Einstein, who came up with correct theories before any test existed. But even Einstein sometimes came up with theories after experiments, such as when he uncovered the photoelectric effect when he was expecting a completely different result.
@surajvkothari Жыл бұрын
@@TheNameOfJesus That is the case when the theory is incomplete (e.g. quantum gravity), however, for this experiment, the rest mass of the Higgs had to be known theoretically to know where the spike in data should be. I guess sometimes theory comes first and sometimes experiments reveal new ideas to help complete a theory.
@TheNameOfJesus Жыл бұрын
@@surajvkothari I don't consider "quantum gravity" to be a theory, because there are no formulas for it, or data suggesting it... it's just two words: "quantum gravity." For something to be a theory it needs more than a title. The "multiverse theory" should also not be called a theory, because there's neither data supporting it nor a formula describing it. I suppose you could call "alien life" a theory because at least there are some unidentified aerial phenomena. It's still a weak theory, but there is a small amount of data pointing in its direction. Even if they didn't have the Higgs theory, they still would have noticed the spike and then probably would have come up with the theory. They didn't need the theory to observe the spike. But sure, they had to have the theory in advance to "know where the spike should be." The theory predicting the spike was great, and adds credibility to the theory, but they didn't need the theory to observe the data that now supports it.
@nmarbletoe821025 күн бұрын
@@TheNameOfJesus It could have been done, but not practically. In reality we often need a theory to guide the search for something. My professor said "You can count all the rocks in a quarry and not learn anything"
@christianfaust5141 Жыл бұрын
Thanks
@abody499 Жыл бұрын
Anyway, we don't need hard unequivocal Humean "evidence for reality", which is flawed as a standard, but rather we can all agree we exist from the weight of subjective evidence similarly aligning with the experience of others. We exist, people. Get over that skepticism that ye only have because of the incredible evolution of our thinking power.
@dongshengdi773 Жыл бұрын
Cogito ergo sum Get over it
@abody499 Жыл бұрын
isn't there something ye think _about_@@dongshengdi773
@abody499 Жыл бұрын
what do ye think _about_ ?@augustodelerme7233
@abody499 Жыл бұрын
n o n s e n s e@@dongshengdi773
@CaptainPeterRMiller Жыл бұрын
Gosh, the amazing facts of scientific study keep coming. Thanks Arvin Ash.
@ChitChat Жыл бұрын
All dislikes are flat earthers who only trust their eyes for answers.
@KKHSPHYSCI Жыл бұрын
This entire framework/paradigm is retarded. Flat earthers are traumatized by the stupidity so they assume everything is wrong. If you understand this stuff, you can’t blame Flat earthers for jumping ship
@duggydo Жыл бұрын
Very good explanation Arvin. If awards were given for best presenter at clearly explaining complex physics topics on KZbin, you would win hands down! 👍🏻👍🏻🏆
@rproyecto Жыл бұрын
Would you do a simulation, not with diagrams, but as it we think it happens, adjusting of course the speed of animation conveniently. I would love to see two protons smashing, then see the Higgs particle living for a while, then decaying, etc. Thanks!! Fan of your work, always wonderful
@vandanakarad1881 Жыл бұрын
I just love your videos, the way you explain stuff.... tomorrow is my exam still watching your videos.... 😊
@Prof.Girisha Жыл бұрын
Thank you for your effort to make us to understand completely from bottom of subject . God bless you
@KF-bj3ce Жыл бұрын
That was a very clear explanation thank you.
@grayaj23 Жыл бұрын
This video made a whole lot of sense to me, and think I understand it a bit better. Not like I doubted the discovery, but now I have a better sense of how it works.
@surendrakverma555 Жыл бұрын
Excellent explanation Sir. Thanks 🙏🙏🙏🙏🙏🙏
@terrylloyd9824 Жыл бұрын
Seem to have given me some answers to questions I've wondered But we'll have to watch It again too help me understand whats ment by the Higgs interaction
@78tag8 ай бұрын
Thank you for this video and thank you for being a person instead of AI to do the narration - unless you have me fooled and this is the best AI I have heard. If the trend to use AI for TY videos gets much worse I am going to find it hard to watch anything.
@ArvinAsh8 ай бұрын
I agree with you. All my videos are my own, NOT AI. Old school...because I'm old.
@williamshadix632 Жыл бұрын
Love the visuals brother.
@IncompleteTheory Жыл бұрын
I learned something, and pressed Like. But pressing Subscribe would annihilate my previous subscription, so I didn't press that button. Thank you Arvin + all people behind you!
@alwaysdisputin9930 Жыл бұрын
i liked this vdeo so much that i pressed like 2 times,
@danij5055 Жыл бұрын
"We smash things together and get a result." Proof that we're all just big kids at heart. 😊
@ArtemisShanks Жыл бұрын
Thank you for your amazing content! My confidence in yt always goes up when I come across videos like this.
@ProducerX21 Жыл бұрын
I've been following all of this for years. I watched CERNs announcement in 2012 about the Higgs. I watch Arvin, Sabine, PBS Spacetime, etc. weekly. And yet I just realized I never really understood how we used particle colliders and the equivalency principle to do these collisions and get these results Arvin has SUCH a way of explaining difficult ideas so people can understand them better. You are the GOAT
@pyropulseIXXI Жыл бұрын
You cannot possibly understand this unless you understand the mass; everything else is just superficial understanding via you just blindly believing what the presenter is telling you. It is literally impossible to understand anything this way, just as if I remember 5*7=35 doesn't mean I understand what the operation of multiplication actually is.
@higherresolution4490 Жыл бұрын
@@pyropulseIXXI Interesting that 19th century physics mostly dismissed the intrinsic nature of mass. The Maxwell equations do not include mass. Einstein admired Maxwell tremendously, and originally sought to produce his equations without mass as a fundamental entity, which later resulted in an equation that equated mass to energy.
@aragorn0006 Жыл бұрын
This was so clearly explained. Love to learn physics this way.
@billbowie87729 ай бұрын
Sir, you are producing some incredible content. It reeks of sincerity. Thank you.
@higherresolution4490 Жыл бұрын
This channel is amazing. Should have discovered it a long time ago! I always was skeptical about using the word "discovery" when it came to the Higgs boson, but finally, I understand what was going on to produce the experimental evidence. Without the excellent illustrations, I would still be confused.
@alisaifi5260 Жыл бұрын
I just wanted to express my excitement and anticipation for your upcoming video on attophysics, especially considering the recent Nobel Prize-winning breakthroughs in the field, particularly the fascinating topic of attosecond pulses of light (Electrons in pulses of light). Your insights are always insightful and engaging, and I can't wait to learn more about these cutting-edge developments.
@SpotterVideo Жыл бұрын
Conservation of Spatial Curvature (Both Matter and Energy described as "Quanta" of Spatial Curvature. A string is revealed to be a twisted cord when viewed up close.) Is there an alternative interpretation of "Asymptotic Freedom"? What if Quarks are actually made up of twisted tubes which become physically entangled with two other twisted tubes to produce a proton? Instead of the Strong Force being mediated by the constant exchange of gluons, it would be mediated by the physical entanglement of these twisted tubes. When only two twisted tubules are entangled, a meson is produced which is unstable and rapidly unwinds (decays) into something else. A proton would be analogous to three twisted rubber bands becoming entangled and the "Quarks" would be the places where the tubes are tangled together. The behavior would be the same as rubber balls (representing the Quarks) connected with twisted rubber bands being separated from each other or placed closer together producing the exact same phenomenon as "Asymptotic Freedom" in protons and neutrons. The force would become greater as the balls are separated, but the force would become less if the balls were placed closer together. Therefore, the gluon is a synthetic particle (zero mass, zero charge) invented to explain the Strong Force. An artificial Christmas tree can hold the ornaments in place, but it is not a real tree. String Theory was not a waste of time, because Geometry is the key to Math and Physics. However, can we describe Standard Model interactions using only one extra spatial dimension? What did some of the old clockmakers use to store the energy to power the clock? Was it a string or was it a spring? What if we describe subatomic particles as spatial curvature, instead of trying to describe General Relativity as being mediated by particles? Fixing the Standard Model with more particles is like trying to mend a torn fishing net with small rubber balls, instead of a piece of twisted twine. Quantum Entangled Twisted Tubules: “We are all agreed that your theory is crazy. The question which divides us is whether it is crazy enough to have a chance of being correct.” Neils Bohr (lecture on a theory of elementary particles given by Wolfgang Pauli in New York, c. 1957-8, in Scientific American vol. 199, no. 3, 1958) The following is meant to be a generalized framework for an extension of Kaluza-Klein Theory. Does it agree with some aspects of the “Twistor Theory” of Roger Penrose, and the work of Eric Weinstein on “Geometric Unity”, and the work of Dr. Lisa Randall on the possibility of one extra spatial dimension? During the early history of mankind, the twisting of fibers was used to produce thread, and this thread was used to produce fabrics. The twist of the thread is locked up within these fabrics. Is matter made up of twisted 3D-4D structures which store spatial curvature that we describe as “particles"? Are the twist cycles the "quanta" of Quantum Mechanics? When we draw a sine wave on a blackboard, we are representing spatial curvature. Does a photon transfer spatial curvature from one location to another? Wrap a piece of wire around a pencil and it can produce a 3D coil of wire, much like a spring. When viewed from the side it can look like a two-dimensional sine wave. You could coil the wire with either a right-hand twist, or with a left-hand twist. Could Planck's Constant be proportional to the twist cycles. A photon with a higher frequency has more energy. ( E=hf, More spatial curvature as the frequency increases = more Energy ). What if Quark/Gluons are actually made up of these twisted tubes which become entangled with other tubes to produce quarks where the tubes are entangled? (In the same way twisted electrical extension cords can become entangled.) Therefore, the gluons are a part of the quarks. Quarks cannot exist without gluons, and vice-versa. Mesons are made up of two entangled tubes (Quarks/Gluons), while protons and neutrons would be made up of three entangled tubes. (Quarks/Gluons) The "Color Charge" would be related to the XYZ coordinates (orientation) of entanglement. "Asymptotic Freedom", and "flux tubes" are logically based on this concept. The Dirac “belt trick” also reveals the concept of twist in the ½ spin of subatomic particles. If each twist cycle is proportional to h, we have identified the source of Quantum Mechanics as a consequence twist cycle geometry. Modern physicists say the Strong Force is mediated by a constant exchange of Gluons. The diagrams produced by some modern physicists actually represent the Strong Force like a spring connecting the two quarks. Asymptotic Freedom acts like real springs. Their drawing is actually more correct than their theory and matches perfectly to what I am saying in this model. You cannot separate the Gluons from the Quarks because they are a part of the same thing. The Quarks are the places where the Gluons are entangled with each other. Neutrinos would be made up of a twisted torus (like a twisted donut) within this model. The twist in the torus can either be Right-Hand or Left-Hand. Some twisted donuts can be larger than others, which can produce three different types of neutrinos. If a twisted tube winds up on one end and unwinds on the other end as it moves through space, this would help explain the “spin” of normal particles, and perhaps also the “Higgs Field”. However, if the end of the twisted tube joins to the other end of the twisted tube forming a twisted torus (neutrino), would this help explain “Parity Symmetry” violation in Beta Decay? Could the conversion of twist cycles to writhe cycles through the process of supercoiling help explain “neutrino oscillations”? Spatial curvature (mass) would be conserved, but the structure could change. ===================== Gravity is a result of a very small curvature imbalance within atoms. (This is why the force of gravity is so small.) Instead of attempting to explain matter as "particles", this concept attempts to explain matter more in the manner of our current understanding of the space-time curvature of gravity. If an electron has qualities of both a particle and a wave, it cannot be either one. It must be something else. Therefore, a "particle" is actually a structure which stores spatial curvature. Can an electron-positron pair (which are made up of opposite directions of twist) annihilate each other by unwinding into each other producing Gamma Ray photons? Does an electron travel through space like a threaded nut traveling down a threaded rod, with each twist cycle proportional to Planck’s Constant? Does it wind up on one end, while unwinding on the other end? Is this related to the Higgs field? Does this help explain the strange ½ spin of many subatomic particles? Does the 720 degree rotation of a 1/2 spin particle require at least one extra dimension? Alpha decay occurs when the two protons and two neutrons (which are bound together by entangled tubes), become un-entangled from the rest of the nucleons . Beta decay occurs when the tube of a down quark/gluon in a neutron becomes overtwisted and breaks producing a twisted torus (neutrino) and an up quark, and the ejected electron. The production of the torus may help explain the “Symmetry Violation” in Beta Decay, because one end of the broken tube section is connected to the other end of the tube produced, like a snake eating its tail. The phenomenon of Supercoiling involving twist and writhe cycles may reveal how overtwisted quarks can produce these new particles. The conversion of twists into writhes, and vice-versa, is an interesting process, which is also found in DNA molecules. Could the production of multiple writhe cycles help explain the three generations of quarks and neutrinos? If the twist cycles increase, the writhe cycles would also have a tendency to increase. Gamma photons are produced when a tube unwinds producing electromagnetic waves. ( Mass=1/Length ) The “Electric Charge” of electrons or positrons would be the result of one twist cycle being displayed at the 3D-4D surface interface of the particle. The physical entanglement of twisted tubes in quarks within protons and neutrons and mesons displays an overall external surface charge of an integer number. Because the neutrinos do not have open tube ends, (They are a twisted torus.) they have no overall electric charge. Within this model a black hole could represent a quantum of gravity, because it is one cycle of spatial gravitational curvature. Therefore, instead of a graviton being a subatomic particle it could be considered to be a black hole. The overall gravitational attraction would be caused by a very tiny curvature imbalance within atoms. In this model Alpha equals the compactification ratio within the twistor cone, which is approximately 1/137. 1= Hypertubule diameter at 4D interface 137= Cone’s larger end diameter at 3D interface where the photons are absorbed or emitted. The 4D twisted Hypertubule gets longer or shorter as twisting or untwisting occurs. (720 degrees per twist cycle.) How many neutrinos are left over from the Big Bang? They have a small mass, but they could be very large in number. Could this help explain Dark Matter? Why did Paul Dirac use the twist in a belt to help explain particle spin? Is Dirac’s belt trick related to this model? Is the “Quantum” unit based on twist cycles? I started out imagining a subatomic Einstein-Rosen Bridge whose internal surface is twisted with either a Right-Hand twist, or a Left-Hand twist producing a twisted 3D/4D membrane. This topological Soliton model grew out of that simple idea. I was also trying to imagine a way to stuff the curvature of a 3 D sine wave into subatomic particles. .
@chrismattekАй бұрын
Not even wrong
@SpotterVideoАй бұрын
@@chrismattek The idea above is not "String Theory". Instead, it consists of a twisted soliton which uses only one extra spatial dimension.
@anubhavtiwari6429 Жыл бұрын
Last line is really the core of how fundamental science works ....we should not really bother about the absolute truth or an absolute theory for anything. We observe something, we create a model to explain that phenomenon, try to make predictions ,sometime we find outliers, then we correct the model to be more accurate. And that's the summary of whole science.
@BC-kl9pr Жыл бұрын
Keep up the great work 😼
@luudest Жыл бұрын
What is the difference between the Higgs Boson and the Higgs Field? The photon is the gauge boson of the electromagnetic force. In what process does the photon do the gauging?
@thedeemon Жыл бұрын
Higgs boson is a particle of Higgs field, just like photon is a particle of photon field (electro-magnetic). In EM interactions between charged particles, virtual photons are involved. When you see light, it's real photons. In interactions between two parts of a fermion field virtual Higgs bosons are involved, effectively giving mass to that fermion. The Higgs boson of mass 125 GeV produced in CERN is a real boson (as opposed to virtual). Higgs is not a gauge boson though, there is no gauge symmetry producing it.
@luudest Жыл бұрын
@@thedeemon what are typical interactions of parts in a fermion field? Is a planet orbiting around a star also such a interaction?
@thedeemon Жыл бұрын
@@luudest No, those are local interactions happening at every particular point. In QFT interaction between fields means there is a term in equations describing a combination of particle annihilation operator of one field with particle creation operator of another field, usually there is a 3rd field involved, such terms can be seen on Feynman's diagrams as nodes where 3 lines meet. They mean an excitation in 1-2 fields can cause excitation in the other 1-2. Fermions (like electrons, quarks etc.) are described by Dirac spinor fields, essentially having 4 components in their wave functions, or you can say a fermion field is composed of 4 simpler fields, 4 wave functions. These can be represented as left-handed and right-handed parts (see "chirality"). In the equations describing their behaviour there is a part, Yukawa coupling with Higgs field, that involves 3 parts together: left-handed one, Higgs field, and right-handed one. This allows transferring excitation from left-handed part to right-handed part of the fermion field via the Higgs field, essentially allowing waves in fermion fields travel through space slower than light, so they act like they have mass.
@Shadow_B4nned Жыл бұрын
Thanks, the video led me to learn of a fascinating phenomena call Dynamical mass generation. Basically, the periodic table alone cannot be used to infer the mass of large objects due to the Binding Energy of the larger object. So, when calculating the mass and weight of a large object, like a mountain, it’s important to take into account not just the masses of the individual particles, but also the binding energy that holds them together. You have to weight the object to be able to infer it's Binding Energy. You can't just take the atomic weight sum of the individual particles.
@quitchiboo Жыл бұрын
The overwhelming majoriyt of an object's binding energy is between the quarks and some residual nucleon interactions. Chemical bonds are millions or billions of times smaller, they can be safely ignored. But the atomic weight of elements in the periodic table is that of all protons, neutrons and elecrons of that type of atom combined. In other words, a scale already takes all of the significant binding energy into account when it measures the weight of the mountain, so you don't need to worry about the small scale interactions at all.
@Shadow_B4nned Жыл бұрын
@@quitchiboo And at what point can they "be safely ignored?" Even the smallest things can make a big difference in large enough proportions. What if I want to per say,.. make nuclear energy generator that splits molecules and harvests binding energy?
@tomphillips32537 ай бұрын
Somehow, I always come away from your videos a bit smarter, which tells me I have so much more to learn.
@ArvinAsh7 ай бұрын
When you feel like you don't know much and have so much more to learn, that is a sign of exceptionally high intelligence!
@arnoldgg Жыл бұрын
@1:33 The math seems to be a piece of cake.
@Krzysztof_z_Bagien Жыл бұрын
8:00 I guess that what you marked here is actually spin not charge - I mean it's still 0, but third number eg. for electron is 1/2, and second is -1 - so it's (from top down) mass, charge, spin.
@markzambelli Жыл бұрын
Wonderful explanation😄. Perhaps someone here could help clarify a question I have... 13:46 when the electrically neutral Higgs decays into a Bottom / anti-Bottom quark pair that have electric charge, where does the charge come from (same with all charged particles)🤔. These charged particles are excitations of their own field but I don't grasp how the charge appears (my level of physics is that of a keenly-interested layperson I'm afraid so this mechanism is deeper than my knowledge in this area).
@ArvinAsh Жыл бұрын
Charge is conserved so when a neutral Higgs Boson decays, it can create a negatively charged bottom and positively charged anti-bottom quark. The charges are inherent properties of the bottom and antibottom quarks.
@markzambelli Жыл бұрын
@@ArvinAsh Thankyou for clarifying that Sir
@ausgoogtube016 ай бұрын
Perfectly explained to me. Thankyou so much. Now I know what all the fuss was about at Cern and why it was built. It is amazing to think of the shape of these 'things' being detectable like the way dinosaur species are detectable thru dinosaur bones, yet that is what makes sense to the layman. The thing I need to understand now is how the detectable values were arrived at; i.e. 125Gev for the Higgs and so on.
Жыл бұрын
Thanks! I didn't know much about Higgs and would love to learn even more.
@Earthstorm84 Жыл бұрын
Excellent video as usual! I have been wondering about this ☺️
@Wxy6276 ай бұрын
“Evidence for the nature of reality is really nothing more than a statistically significant result”-Arvin Good video, I find this quote very interesting. I’ve heard intriguing stats around the probabilities of protein formations purely by chance from a soup of amino acids akin to the hypothetical infant state of the earth being astronomically minuscule. Maybe it’s a topic you might think about covering at some point?
@LakeMountD6 ай бұрын
Probably the best description I’ve seen on the topic.
@jackieow Жыл бұрын
What is going on inside an electron that makes the stuff we call negative electric charge? And what is the mirror image of the same thing (presumably) interacting amongst quarks that makes what we call positive electric charge? How does antimatter do it backward so an antimatter electron is a positive positron? Is electric charge the clockwise or counterclockwise motion of gluons? A photon's plane of electricity we can call sine-wave down half at a certain part of space, and the accompanying magnetic half of a sine-wave is to the right. For the next 180 degrees, the electric sine wave is up and the magnetic field is perpendicularly to the left (if you follow along in the direction the photon is going). This is an asymmetry that could instead be with the magnetic bulge first to the left and then to the right making just as much sense. Why the way it is and not the alternative? Since light is asymmetric with this bias, is that perhaps (light interacting with the early universe right after the Big Bang) the reason why there is so much matter surviving, but so little antimatter because the bias of light dissected the early antimatter apart? Or maybe there is such a thing as anti-light, where the perpendicular magnetic field of a photon is 180 degrees out of phase with what we are used to.
@Phizuol Жыл бұрын
Being able to say it out loud, "Is this bullshit?" That is so refreshing to hear. I know that we must accept what the evidence is telling us but with statistics any odds leave room to be wrong. I really appreciate the candid descriptions of the state of our scientific discoveries.
@mosquitobight Жыл бұрын
The hardest thing for me to grasp about the Higgs mechanism is that it exists in a tachyonic field, a field with "imaginary mass" that is unstable and spontaneously decays. Then there is a part of my mind that says the crazier an explanation sounds, the closer it probably is to the truth.
@saraw8104 Жыл бұрын
Avinash, you are amazing. Tell us about the animations you are using, how are they generated.
@SigatrevАй бұрын
Great Video. At 6:36 you say that the LHC uses protons because it requires less kinetic energy because the proton is heavier. That is not entirely correct. The reason for using protons is synchrotron radiation, which scales with gamma to the fourth power. When the total energy of the particle is dominated by kinetic energy (E = gamma * m * c^2), gamma ends up being inversely proportional to the mass. For a proton vs an electron at 1TeV, the electron's gamma will be 2000x higher because of the smaller mass, and thus lose 16 trillion times more energy to synchrotron radiation. That places an effective limit on the energy of electron syncrhotrons. While using protons allows higher energy in a synchrotron, it has the disadvantage that the collisions are 3 quarks vs 3 quarks, with the energy split unevenly/unpredictably between them, giving the collisions a much larger energy spread. That is why the ILC was designed as an electron/positron collider. Being linear, it doesn't have to deal with synchrotron radiation and thus can use electrons to get a might narrower energy spread.
@ArvinAshАй бұрын
Thanks for the detailed explanation. Well done!
@nmarbletoe821024 күн бұрын
very interesting!
@bmjw18 Жыл бұрын
Arvin saying, "Bullshit" just saved my life. ❤
@mgarar Жыл бұрын
As usual Arvin, brilliant video and the visuals are amazing to condense all this heavy physics knowledge down to a level where people like me who aren't in the field can understand. I am struggling with something though, if we've never seen the higgs particle and we've never measured it, how do we know that the particle decay we see is exactly the higgs particle instead of some other particle we don't know of yet ? Couldn't we argue that this could be a particle with very close similarities to the higgs that we don't yet understand ?
@zorrothomas8641 Жыл бұрын
We predicted this particle, only named it after it was finally discovered, the person who predicted it was none other then Higs himself
@jarr40 Жыл бұрын
Nice and clear explanation, like the guy frenchs use to say "Nickel"... thank you!
@V-BatFPV Жыл бұрын
I've watched a tun of other videos on quantum physics over the years and this was one of the most explanatory.
@Unavalivle Жыл бұрын
Carry on putting out the great work and sharing knowledge
@djayjp Жыл бұрын
Conclusion is very well said 👍
@michaelgonzalez9058 Жыл бұрын
Higgs boson is also a knowlege of the noah built measurement of how he built the ark that traveled at a resustance of a rubber band