Hey all, thanks for checking out this video! :) While reviewing the video just now, I realized I probably should have been more clear about covariance and contravariance. This affects the sign of the momentum terms (more generally, the space-like terms), and is a perennial source of dropped minus signs 😅 The plus signs at 13:20 are due to using the contravariant Dirac matrices, three of which which absorb the minus signs, see the Wikipedia article “gamma matrices” for more info. Anyway, the main idea I hope you’ll take away from this video is that the anticommutation relations for the Dirac matrices arise from taking the square root of the mass shell.
@piradian8367 Жыл бұрын
I guess it'd be better to pronounce that plus sign before mc at 12:44 is due to conjugation of an i at the denominator.
@helicalactual Жыл бұрын
ok, so are spinors, 720 degrees to return to its "start", due to, 360 degrees of spin in the electric and then 360 degrees of spin in the magnetic fields, which would then return to its start?
@BiswajitBhattacharjee-up8vv8 ай бұрын
The 1st order space-time variables as you pointed as breathing motion is non commutative of matrices makes space-time an illusion. And the spinors as real . Is it ?
@SpotterVideo8 ай бұрын
What do the Twistors of Roger Penrose and the Hopf Fibrations of Eric Weinstein and the "Belt Trick" of Paul Dirac have in common? It takes two complete turns to get down the "rabbit hole" (Alpha Funnel 3D--->4D) to produce one twist cycle (Quantum unit). Can both Matter and Energy be described as "Quanta" of Spatial Curvature? (A string is revealed to be a twisted cord when viewed up close.) Mass= 1/Length
@chriss.90605 ай бұрын
at 12:49 you got an index u which should be > greek mu
@SirTravelMuffin Жыл бұрын
The "I'm letting the squares breathe..." was genius for geometrically visualizing variables!
@bencrossley647 Жыл бұрын
I'm a maths teacher, I've hand waved this idea so many times. I wish I could make animations like this XD
@gaHuJIa_Macmep Жыл бұрын
Well, I find breathing squares neat but don't quite get what this breathing is intended to convey...
@RichBehiel Жыл бұрын
It’s just there so we’re not tempted to try to pick a specific arrangement of aspect ratios, then try to cancel two rectangles with one rectangle, for example. The breathing (variability) shows that each rectangle has to cancel out with its own symmetric counterpart, since that’s the only way the solution will hold in general.
@jim2376 Жыл бұрын
Dirac was known for both the brevity and precision of his speech. At a conference he was lecturing and writing at a blackboard. A member of the audience said at the conclusion of Dirac's presentation, "I don't understand your equation in the upper right." Dirac said nothing and returned to his seat at the table with other lecturers. After an uncomfortable silence, the conference moderator asked, "Mr. Dirac, are you going to answer the man's question?" Dirac: "It wasn't a question. It was a statement."
@RichBehiel Жыл бұрын
Classic Dirac 😂
@veronicanoordzee6440 Жыл бұрын
Yes, he was a special man. Meeting Werner Heisenberg for the first time, his first question was: "Do you have an equation too?"
@sleepycritical6950 Жыл бұрын
@@veronicanoordzee6440wasn’t that Feynman?
@veronicanoordzee6440 Жыл бұрын
@@sleepycritical6950 Yes, could well be.
@gaHuJIa_Macmep Жыл бұрын
@@sleepycritical6950 No-no, Dirac proper. Feynman wasn't so pedantic, he played drums, picked up girls... and all that...
@SafetySkull Жыл бұрын
A thousand jargon-filled wikipedia articles could not have given me the clarity I now posess thanks to this video. Thanks so much
@peterhall6656 Жыл бұрын
Fun fact. Back in 1972 I was taught some mathematical physics by the late Joe Moyal. Joe was invited by Dirac to Cambridge during the World War 2 to discuss Joe's work on statistical foundatiions of quantim mechanics (there is a 1947 paper with Bartlett and Kendall which also deals with the issues). Joe met Dirac and I can say that I have shaken hands with someone who has shaken hands with Dirac.
@RichBehiel Жыл бұрын
Very cool! I’m jealous!
@MichaelOrr19845 ай бұрын
Another great vid
@vyrsh05 ай бұрын
Now I'm shaking hands with you 🤝🏻
@Manuel_Bache2 ай бұрын
My hands are still shaking due to bi-spinors, I guess that's equivalent😅😅(🤭🤭)
@bastiaanvanhoorn63069 ай бұрын
The teacher I had for QFT was one of the best teachers i ever met, and yet, this is so much more insightful then what he ever managed on a blackboard. The visualisation is genius.
@eg5731 Жыл бұрын
Straight-up the best physics videos on youtube
@GregorShapiro Жыл бұрын
At least the best on Dirac and mentioning spinors!
@dialgapalkia Жыл бұрын
This sort of accessible education will prove to be revolutionary.
@RichBehiel Жыл бұрын
Let’s hope so! :)
@derickd6150 Жыл бұрын
Yeah I did physics and so I had seen the reasoning he describes in the video. However, watching it, I crave going back and reading those notes now. At the time they seemed so insane. Now I think it would be a joy to read and I think all people going into physics in the future are going to be so grateful for the existance of videos like this :)
@MrPoornakumar6 ай бұрын
@dialgapalkia Access is all ! I am grateful.
@FunkyDexter Жыл бұрын
The reason the coefficients don't commute (so the opposite breathing squares cancel out) and why the coefficient squared are negative numbers, is because a spinor is a unit quaternion! In fact, the nature of spin is a bit less mysterious if instead of using Dirac matrices we use quaternions, for rotations on a 4D hypersurface :)
@philipashmore Жыл бұрын
You beat me to it by 5 hours :)
@HA7DN Жыл бұрын
When I saw the constraints I just jumped up from my chair and shouted "quaternions!". My head is now spinning, trying to decide the difference between physicists and mathematicians...
@JerkoFlapdoodle Жыл бұрын
even better, a Real 3D Clifford Algebra, where the BiVectors e1e2 = i, e2e3 = -j, and e3e1 = k All spinors are rotors, and all rotors are double covers of their respective rotational range.
@Henriiyy Жыл бұрын
It's much less mysterious then, because quaternions are known for how easy they are to understand.
@FunkyDexter Жыл бұрын
@@Henriiyy the basics of quaternions are not hard. Their more advanced uses get a tad bit more complicated, but so do complex numbers. The important thing is that once you use quaternions you know you're dealing with a rotation.
@daber69485 ай бұрын
It's not much but I really wanted to thank you for work done, especially recent 3h video.
@RichBehiel5 ай бұрын
Thanks, I appreciate that, and I’m glad you’re enjoying the videos! :)
@daber69485 ай бұрын
@@RichBehiel Also, I'm wondering if it is possible to include some arbitrary potential V(x) into Dirac equation like we can in Schrodinger one. Like simple Harmonic oscilator
@pelegsap Жыл бұрын
Absolutely terrific :) btw, here's a tip for everyone who sees this: geometric (Clifford) algebra really helps understanding these spinors better (and also space-time in general).
@JerkoFlapdoodle Жыл бұрын
the spatial spinors are quaternions, or the 3d real geometric algebra where e1e2 = i, e2e3 = -j, and e3e1 = k. The time-spinor gamma_0 is more mysterious, as it is not the trivector e1e2e3, because that squares to -1 also, not +1.
@comradejesus302210 ай бұрын
I second this! In particular, the gamma matrices have a one to one correspondence with the basis vectors of spacetime algebra (signature Cl(1, 3)), which are also often written as γ0, γ1, γ2 and γ3, making the conversion even more convenient!
@natecoad2258 Жыл бұрын
Wow. I have devoted all of my time to getting into GR and have only had a basic rundown of QM but have wanted to get into the more interesting QM stuff for a while. You did a great job and I love hearing your excitement for introducing new ideas. That was perfect and felt so clean. Great stuff!!!!
@RichBehiel Жыл бұрын
Thanks for the kind comment, and I’m glad you enjoyed the video! :)
@Sol-En Жыл бұрын
Wow this lesson is much better than in Oxford or Harvard. Very interesting to see visualisation of solution of Dirac equation to compare with Klein-Gordon and Schrodinger equations. Also very interesting to see how do the wave functions in the bispinor responsible for spin up, spin down, and antimatter affect each other
@Phantores Жыл бұрын
I never heard of this way of deriving the equation and now the matrices seem so much more understandable... Congrats dude, you just did the impossible of explaining all of this stuff I tried to understand for months
@RichBehiel Жыл бұрын
That’s the best possible comment I could get on a video. Thank you! :)
@mayatrash Жыл бұрын
You should read “quantum field theory for the gifted amateur”, it’s a texture newish book, but it has a great way of teaching these concepts, they also start with first deriving the KG equation and then introducing “taking the square root of a differential operator”
@evilotis01 Жыл бұрын
eigenchris's "Spinors for Beginners" series is a really good introduction to, well, spinors for beginners!
@movax20h9 ай бұрын
So beautiful. You didn't even get to the half of the video and already all the mystery unveiled. Why nobody told me about this when I was studying theoretical physics is beyond me. It is both obvious and simple, and derivation is logical and could not be otherwise. To me the commutation relations were always introduced without any explanation or big reason other than this makes thing work, but not really. All the implications later are just simple logical conclusions (they might be hard to derive, but there is nothing mystical about them).
@thabomsiza2502 Жыл бұрын
I know the Dirac equation but never really saw it being derived before. Either I was incredibly blind in my education or my educators hand waved everything and I struggled from there. These videos are opening my eyes more than my entire journey through undergrad and honors.
@TheSandkastenverbot5 ай бұрын
You really have a gift for explaining abstract topics!
@mahapeyuw594611 ай бұрын
I was watching Alexander Fufaev video on the Schrodinger equation (He gave an excellent explanation), and he mentioned Diracs equation as the next thing for relativistic SE. I'm happy to have found this. It's been years since I finished. So here I am learning new things and brushing up the old, to enable drawing out something new if I persist just enough. This is excellent and widened my understanding but raised further questions too.
@michaeljin1018 ай бұрын
Thank you so much! I was reading the book “The strangest man” by Graham Farmelo, and your video gives an in depth looking into Dirac equation. This let me give the following parallel from a basic math concept to understand Dirac equation. While Cartesian coordinates, introduced by René Descartes, provide a structured way to map points in space using two or more axes, the Dirac matrices, part of the Dirac equation in quantum mechanics, offer a profound mathematical framework for describing the behavior of particles in spacetime. Just as Cartesian coordinates allow us to pinpoint locations in space with precision, the Dirac matrices enable us to describe fundamental properties of particles, such as spin and angular momentum, within the framework of quantum mechanics. Both systems provide a means to understand and navigate complex phenomena: Cartesian coordinates in the realm of classical mechanics and geometry, and Dirac matrices in the intricate domain of quantum mechanics. In essence, while Descartes paved the way for understanding space in terms of ordered pairs of numbers, Dirac expanded this notion to encompass the intricate fabric of spacetime at the quantum level, offering a beautifully intertwined perspective on the mathematical underpinnings of the universe.
@raywhitehead7308 ай бұрын
Good comment.
@renscience Жыл бұрын
This is fantastic. A secret closely guarded by academics has been simplified so that even I can understand it with only a BS in Engineering. Thank you I need to watch more on spin as it too is a kept secret usually presented and discussed in baloney classical ways. Just a glimpse here helped already. I would love for someone to simplify Hilbert space as it too is slung around a lot without explanation.
@AspartameBoy Жыл бұрын
So beautiful tears came to my eyes. Please update to a framework based on Clifford Algebra or Geometric Algebra rather than the most commonly used framework. Thanks for your service!
@gigaprofisi Жыл бұрын
I said out loud "Ooh!" excitedly when i saw this video as i was working on visualizing the Schrödinger equation for the Hydrogen atom!
@alepheia Жыл бұрын
I recently started my postgraduate physics studies and one of my modules (which is by far the hardest one for me) covers the Klein-Gordon equation and (now) Dirac equation. The reading material and textbooks for most of the part pretty much assumed the reader knows how to derive certain things and/or where it comes it or what it represents etc, which is why I'm finding them incredibly difficult. Your videos have literally saved my life by providing the much needed intuition for these topics. Keep up the amazing work!
@RichBehiel Жыл бұрын
I’m glad to hear that! :)
@aatrox5559 Жыл бұрын
I ve began studing physics for past 5 months from ground up, and this one got me for reall this time difficult bad boy
@jamesfkey7 ай бұрын
Ahhhh, this takes me back. Yes indeed, the Dirac equation is beautiful and most elegant. Thank you and well done, Richard!
@ThomasGutierrez Жыл бұрын
Brilliant content! Looking forward to the next installment on spinors!
@DrMcCrady9 ай бұрын
You do a really nice job explaining these difficult concepts both formally and casually. And your Manim skills are impressive!
@ChasSimpson Жыл бұрын
Fantastic explanation! Loved the visualization of the breathing matrix and the colour coding of the terms to make it immediately obvious that the coefficients don't commute and the need for Dirac matrices. And then adding the flag to illustrate the double rotation.. Fantastic! Thank you for your time effort on this video
@RichBehiel Жыл бұрын
Thanks for your kind comment! I’m glad you enjoyed the video :)
@monkerud2108 Жыл бұрын
was a very nice video btw :). and the quaternion modification, i just figured it is easier to call the non commutative root of plus 1 "u" u*u=1 , u*i=i i*u=-i ect.. then it works out, cleaner than special rules for minus one or one, where you have to basically write the same thing anyway.
@plexiglasscorn Жыл бұрын
I think this is the clearest picture of Dirac equation and I have minimal training in math and physics 😊
@CHp-up9tx Жыл бұрын
so true, im just at my first semester and i was able to understand most of the things, this man should be proud of himself
@brandonprescott5525 Жыл бұрын
You are a treasure! You just put so much into perspective for me wrt spin states, what the equations represent, how they come about. Great video! Thanks
@RichBehiel Жыл бұрын
Glad to hear that, thanks for watching! :)
@bantix9902 Жыл бұрын
I'm an undergrad physics student and you made this look incredibly easy. I'm sure I don't really understand the geometry of it but I have a way to imagine the dirac equation now, thank you.
@RichBehiel Жыл бұрын
Glad to hear that! :)
@nickrr5234 Жыл бұрын
Excellent presentation. I've seen other videos on the Dirac equation but this is the first one that makes me feel like I (just about) understand it!
@2pizen4 ай бұрын
The scared line - Dirac equation is the square root of Klien Gordon! Thanku sir for this clarity, onto spinnors now.
@gianmarcoiapoce65798 ай бұрын
At 12:46, I understand you divide both sides by ih and move mc to the left side of the equation but I don't get where Ψ comes from
@Raspberry_aim Жыл бұрын
Been waiting for this one since your last video! Awesome work!
@RichBehiel Жыл бұрын
Thanks Raspberry! :)
@0xTJ Жыл бұрын
This is an excellent video! It does a great job making the solution feel intuitive!
@GregorShapiro Жыл бұрын
Wow though I have just studied 1 year of math at the college level I understood the gist of this well narrated video. Good job!
@RichBehiel Жыл бұрын
Thanks, I’m glad you enjoyed the video! :)
@KipIngram8 ай бұрын
It's also worth noting that the matrix approach is entirely equivalent, mathematically, to the other ways. It's not just that matrices happen to solve this particular problem - matrices form a group, and that group is isomorphic with any group that obeys the same multiplication rules. So not only is this "a way to do it" - you also don't lose ANYTHING by doing it this way.
@RichBehiel8 ай бұрын
You’re right to point out the isomorphism between the various approaches, and I agree. I also use the matrix approach much, much more than the STA approach, because it lends itself so well to python codes, as well as just to the kind of math I’m familiar with. And it’s much easier to check your work when you’re using the same language as most of the textbooks on the subject. But in defense of STA, I do think it’s a slightly more direct and elegant way to visualize the math. It appeals more to the intuition, but IMO is harder to actually use (that’s probably my fault since I’m not great at geometric algebra). At the end of the day, it’s helpful to consider various perspectives, even if they’re isomorphic. Studying the different points of view can make a lot of things click, that otherwise wouldn’t have. Honestly I didn’t really understand what the Dirac matrices were, until learning STA. They seemed very mysterious to me, even though I understood the algebra. But the STA approach taught me not to over-mystify these, since they’re “just” the basis vectors for CL1,3(R). I missed out on that insight for many years, even though I had been taught the Dirac equation and had been using it in various simulations. en.m.wikipedia.org/wiki/Spacetime_algebra
@sanador2826 Жыл бұрын
Fantastic! Looking forward to spinors video :)
@____uncompetative Жыл бұрын
A spinor is best thought of as a Rank ½ Tensor.
@zemm9003 Жыл бұрын
This is completely ad-hoc reasoning that it is amazing that it works.
@RichBehiel Жыл бұрын
The physicist’s approach to mathematics! 😂
@zemm90035 ай бұрын
@@RichBehiel there is this romantic notion that a new theory of everything would have to be at least as beautiful as GR. But this is an enormously ambitious demand because GR is the ONLY theory in the history of Physics that is completely deductible from a small set of very simple Axioms (hence extremely beautiful). The vast majority of theories are ugly as f with a lot of extras and the Dirac Equation is no exception.
@xanterrx97415 ай бұрын
Beautiful video , thanks Richard for effort that you've put into this video
@RichBehiel5 ай бұрын
Thanks, I’m glad you enjoyed the video! :)
@tim40gabby25 Жыл бұрын
The requirement to complete 2 360 degree rotations in order to reset reminds me of mobius strips.. I'll need to watch this lovely video a few times. Subscribed.
@TenHangerАй бұрын
This is an EXCELLENT video, the only thing missing is that the Diraq coefficients are quaternionic, so quaternion coefficient quaternions- which I believe gets us thru Cayley-Dickson math as sedenions. Everyone in academic Physics is just using the wrong algebras- they should be embracing the Cayley-Dickson algebras and all this would practically explain itself. 2Pi operates like an instantaneous mobius strip, which is why the spinora “change flags”.
@YossiSirote Жыл бұрын
First, excellent video. Second, one technical point at 14:50 or so, Psi 3 actually corresponds to spin DOWN positron and Psi 4 to spin UP.
@RichBehiel Жыл бұрын
Thanks! :) I’m confused, but I definitely appreciate your feedback! In “Introduction to Elementary Particles” by Griffiths, equation 7.30 and the following sentence state that psi3 is spin up positron, and psi4 is spin down. But then later he converts the u3 and u4 spinors into v2 and v1, respectively, such that now u1 and u2 are spin up and down electrons respectively, while v1 and v2 are spin down and up positrons respectively. So the “up” and “down” are reversed when looking at the indices on the u’s and v’s, but when writing the bispinor as a column, it should still go up, down, up, down, right? Or am I missing something?
@18SV8 ай бұрын
Thanks for such a clear explanation. Can you also elaborate on why A,B,C,D matrices should be 4x4. Like what should be motivation behind that to choose 4x4 instead of any higher like 16x16 or so?
@rcglinski2 ай бұрын
You rock. Very nicely explained.
@RichBehiel2 ай бұрын
Thanks! :)
@sumairahmad9464 Жыл бұрын
Okay , so I thought Dirac already knew about spinors before combing SR and QM. Thanks to you , now I understand that he might have went for them after finding these relations of A , B , C and D. That's nice because sometimes I feel like I should go for a masters in mathematics rather than physics. I am gonna go and be happy with physics for sure now because of this video.
@edbuckser3569 Жыл бұрын
God tier explanation, can’t wait for more stuff
@MattHudsonAtx Жыл бұрын
I found the squares (and the whole derivation) breathtaking
@edwardperry50417 ай бұрын
Outstanding. Thank you so much. What a clever approach by Dirac, and what a great video you've made. Well done.
@WaluigiisthekingASmith Жыл бұрын
The way the commutation relations came out from x^2 = E^2-p^2 was so cute. Also the anticommutativity is very reminiscent of geometric algebra and specifically space time algebra.
@RichBehiel Жыл бұрын
If you haven’t read it yet, you might enjoy Hestenes’s papers on the Dirac equation in STA. In my opinion it’s the most elegant way of formulating the equation. Hasn’t totally caught on in the mainstream physics community, but it seems to be gaining popularity over time. Good ideas always win in the end.
@gaHuJIa_Macmep Жыл бұрын
@@RichBehiel could you give specific links to the papers?
@RichBehiel Жыл бұрын
@gaHuJIa_Macmep yes, let me look for those later this evening. I’m about to get on a boat for a day of scuba diving, but I’ll follow up when I get back. Please remind me if I forget!
@gaHuJIa_Macmep Жыл бұрын
@@RichBehiel Oh! Scuba diving! Where are you situated then? Somewhere in southern hemisphere? It's winter in the northern one now...
@RichBehiel Жыл бұрын
@gaHuJIa_Macmep well I live in Santa Barbara, but I’m currently on vacation in Hawaii! :) Went diving today near Honolulu, just east of Pearl Harbor. Saw a bunch of huge sea turtles. Good times.
@KaliFissure7 ай бұрын
Great introduction. Thank you. In playing with manifold I came across the form below. If you'll notice it is toroid like but it has only ONE surface. A single rotation covers the forever and then, after passage through zero/maxima it is reoriented, inverted. The one rotation on one side of temporal manifold, the other rotation on the other. Surface(cos(u/2)còs(v/2),cos(u/2)sin(v/2),sin(u)/2),u,0,2pi,v,0,4pi I have some videos exploring is topology. But it seems like the inversion version of spinor
@X-boomer Жыл бұрын
When the math is shouting “PARTICLES AREN’T FUNDAMENTAL, THEY’RE EMERGENT, YOU’RE JUST DOING EPICYCLES AGAIN”
@davidmurphy56311 ай бұрын
I have zero background in physics and was just listening out of curiosity. But I know linear algebra pretty well and when you said "non-commutative multiplication" I yelled, "they're matrices!" Ha!
@Joao456Zamper Жыл бұрын
Just thank you, as clear as it can be
@ArjenDijksman3 ай бұрын
Nice explanation. Also that flag diagram. I visualize each spinor as the resultant vector of the two 3D spinning vector state of an electron (or positron). Spin-up electron can be seen as an arrow spinning about its symmetry axis, while this symmetry axis precesses half as fast about the z-axis. When the angle between symmetry axis and precession axis is 45°, the arrow needs to spin exactly 720° before it points exactly in the same direction. For a spin down electron, the spinning direction is inverse. Interestingly, two of those spinning arrows can't approach each other (this can be simulated with collision detection algorithm), while a spin up and spin down arrow fit together. For positrons, spin-up positron can be seen as an arrow spinning about its symmetry axis, while this symmetry axis precesses twice as fast about the z-axis. There are no other spinning modes possible than these 4. so it is a realistic model for the spinors.
@junehuang105120 күн бұрын
Love this video so much!!!! Thanks!!!! It's really a decent job and explicit!
@RichBehiel20 күн бұрын
Thanks, I’m very glad to hear that! :)
@MeyouNus-lj5de7 ай бұрын
7. Dirac Equation - Negative Probabilities Contradictory: The Dirac equation is a relativistic quantum mechanical wave equation that describes the behavior of spin-1/2 particles like electrons. However, it predicts the existence of negative energy states, which would lead to negative probabilities and violations of causality if taken literally. Non-Contradictory: Using the monadological framework, the Dirac equation could be reformulated as a non-linear eigenvalue problem in a non-commutative monadic algebra. The negative energy states could then be understood as a consequence of the non-commutative geometry, rather than a literal physical prediction: (iγ^μ∂_μ - m)ψ = 0 → (i*γ^μ∇_μ - *m)*ψ_m = 0 Here, *γ^μ represents non-commutative monadic gamma matrices, *m is a monadic mass parameter, and *ψ_m is a monadic spinor field.
@mathnerd97 Жыл бұрын
Well, Diract went a different direction. When I saw those constraints, my brain immediately went "quaternion"
@stanleydodds9 Жыл бұрын
I'm not understanding how this system of equations could be solved with quaternions. Perhaps I'm missing something, but I don't think the topology or geometry of the quaternions is the same as that of the space needed to solve this system of equations. You need 4 numbers, all of which are pairwise anticommutative, where one of them squares to 1, and the other 3 square to -1. In the quaternions, we can certainly get 3 of these - for instance, i j and k are all pairwise anticommutative, and all square to -1. However, I can't figure out what the 4th one would be (the one with the opposite sign when squared). 1 and -1 both square to 1, as needed, but these both commute with all of i, j and k, and everything in the quaternions (because they are central elements of the quaternions, and really all number systems). These are the only square roots of 1 in the quaternions, because the factorisation x^2 - 1 = (x-1)(x+1) = 0 is true in the quaternions (it is a division ring, where -1 and 1 are central). So there is no square root of 1 which is anticommutative with anything, which it needs to be for this system of equations.
@FunkyDexter Жыл бұрын
@@stanleydodds9 The Dirac equation describes BISPINORS. These are isomorphic to biquaternions, also called complex quaternions. You can do Weyl decomposition to get spinors, which are isomorphic to quaternions. So yes, technically you can't use quaternions in the Dirac equation, because they only are "half" of the solution. If you look at the gamma matrices you will see that they contain the Pauli matrices, which are unit quaternions, and some of them are multiplied by i (=complex quaternions) :)
@stanleydodds9 Жыл бұрын
@@FunkyDexter of course, yes, some degree 2 extension of the quaternions is going to have enough freedom to get this extra number. And naturally it would turn out to be the octonians, given that it's the "nicest" (or at least most interesting/useful) 8 dimensional algebra, in some sense. Just saying that it's quite clear that purely in the quaternions themselves, it's not possible to satisfy this system of equations. And of course it's related to the fact that quaternions rotations don't form a double cover.
@FunkyDexter Жыл бұрын
@@stanleydodds9 unit quaternions do form a double cover to real rotations. It's the whole reason they are interesting in the context of spin, and why they can be used in computer graphics. The jump to octonions is useful in the context of a unified description of the wavefunction for both the electron and the positron, but it has more to do with the inherent chirality of spinors rather than extra rotational degrees of freedom.
@pacolibre5411 Жыл бұрын
Amazing video! I do have a question about the final form of the equation. Since you are multiplying bispinors by 4x4 matrices, does that mean that the “=0” in the dirac equation is the “zero bispinor” or is it literally the number 0?
@RichBehiel Жыл бұрын
Great question! Yes, it’s the zero bispinor. One way of thinking about the Dirac equation is that it’s four coupled differential equations, and the Dirac matrices intertwine the various components of the four-momentum across those equations, and each equation has a zero on the right side.
@ColeCoug Жыл бұрын
I love these videos! Great explanation and visualization!
@RichBehiel Жыл бұрын
Thanks, glad you enjoyed the video! :)
@DamianOHarris8 ай бұрын
Informative and concise, great video 🤍
@RichBehiel8 ай бұрын
Thanks, I’m glad you enjoyed the video! :)
@DiffractionLimited Жыл бұрын
Thank you for another great video :) Cant wait to learn more about the topic.
@RichBehiel Жыл бұрын
Thanks for watching! :)
@ashrafhossain90449 ай бұрын
Thanks for clearing everything up!❤
@anjikrish577411 ай бұрын
Wow!! Really amazing explanation! Thankyou very much
@RichBehiel11 ай бұрын
Thanks, I’m glad you enjoyed the video! :)
@fluo9576 Жыл бұрын
I'm astonished. This is beatiful
@HunsterMonter Жыл бұрын
This was awfully well timed, we just saw Dirac's equation last week in our quantum class 😅
@patb3845 Жыл бұрын
Great explanation of complex subject.
@robert.ehrlich89429 ай бұрын
The equation appearing at 1:45 equates a left hand side which is a matrix to a right hand side which is a scalar. Is that meaning that we are supposed to understand that this scalar is multiplying an implied unit matrix ? Same for all the following equations ?
@jacobyen9551 Жыл бұрын
Soooo superbly made😍😍
@RichBehiel Жыл бұрын
Thanks! :)
@Darthvanger2 ай бұрын
This is a very creative way to take a square root, I must say.
@matthewl660722 күн бұрын
this video was the best thing ever
@RichBehiel22 күн бұрын
Thanks, I’m glad to hear that! :)
@WonkaWastelander13 ай бұрын
Amazing presentation!
@RichBehiel3 ай бұрын
Thanks! :)
@UJ-nt5oo Жыл бұрын
Richard: 10:39 My physics prof: I'm gonna pretend i didn't hear that.
@RichBehiel Жыл бұрын
😂
@reinerwilhelms-tricarico3449 ай бұрын
Very nice. I almost understood this, but I don't get what the deal is with the minus sign of the momentum operator. It's usually in QM p_x = - i \hbar \partial_x . But you used initially p_x = i \hbar \partial_x with the plus sign, but write in the same line in the beginning at time stamp 1:35 \hat{p} = -i \hbar (\partial_x, \partial_y, \partial_z). Then, in the end, in the Dirac equation it's always p_u = i \hbar \partial_u . Is the trick somehow that the imaginary i should be explained from taking the square root of the metric tensor, or signature (+---) or (1,-1,-1,-1) which makes (1,i,i,i) ? I dunno. This is a bit confusing to me right now, I must have missed something.
@kristoferkrus9 ай бұрын
Great explanation, and helpful visualizations! However, I think a motivation for the third principle of the Dirac equation would have been nice. Now it was just stated, for no obvious reason. (I know the motivation if it myself since before, but other people may not know it.) A thing that I'm wondering-at 7:31 when you write out the equations for A, B, C and D, this strikes me as equivalent to the equations for the basis elements of the quaternions, so would it be possible to write the Dirac equation with the quaterion basis elements instead of the gamma matrices, and letting the wave function be quaterion-valued instead of a vector field?
@xelaxander Жыл бұрын
That was surprisingly quick. And you have indeed done a decent job ;).
@RichBehiel Жыл бұрын
Thanks, I’m glad to hear that! :)
@JesseHersch Жыл бұрын
great explanation and diagrams!
@RichBehiel Жыл бұрын
Thanks! :)
@godinhos7797 Жыл бұрын
man,this equation is a kind of awesome awesome art! paul dirac is a genius and one math artist! awesome!
@RichBehiel Жыл бұрын
Dirac was enamored by the beauty of math and physics. You can see why!
@tayranates82799 ай бұрын
At the time 12:13 , this equation can only hold as an operator because left side is a matrix and right side is a constant. This means that actually what we are find is only can be satisfied in quantum mechanics and does not any analog representation in classical mechanics.
@maxsamarin9002 Жыл бұрын
Amazing explanation and easy to follow, something that I was not expecting when considering how to derive the great Dirac equation. Question (I'm not familiar with Klein-Gordon equation): what is the motivation to get a first-order equation? A second-order equation incidentally does not predict spin?
@RichBehiel Жыл бұрын
Good question! :) I talk about this in the second half of my KG video. Long story short, the second-order makes probability densities and currents weird, such that sometimes you have negative probability density. This has been contextualized over time, as QFT has developed, but back in the day it was one of Dirac’s main motivations to look for a first-order equation.
@maxsamarin9002 Жыл бұрын
@@RichBehiel Thanks! I'll check that video as well!
@GeoffryGifari Жыл бұрын
The constraint of 1st order space and time dependence eventually lead to the Dirac field/"wavefunction" being bispinors, signifying spin-1/2 (fermion). Is it possible to come up with an equation 1st order in space and time, for integer spin fields (bosons)? Is the Klein-Gordon equation the most "elementary" equation for bosons?
@realdarthplagueis9 ай бұрын
Once again, THANK YOU!
@RichBehiel9 ай бұрын
Thanks for watching! :)
@alexistzou74475 ай бұрын
But how did you add up the gamma matrices multiplied by the momentum components to get the real number mc?
@hyperdimensionallight49317 ай бұрын
This is the best thing ever.
@RichBehiel7 ай бұрын
Thanks, I’m glad you enjoyed the video! :)
@SafetySkull Жыл бұрын
Is it possible to "Dirac-ify" other differential equations in physics? The wave equation is to the second power; are there any mathematical objects we can use to make the wave equation first-order in time?
@tavomama3289 Жыл бұрын
Keep up the good work.
@francescopiazza4882 Жыл бұрын
Simply a great video !
@RichBehiel Жыл бұрын
Thanks, I’m glad you enjoyed it! :)
@antoniocotarodriguez5732 Жыл бұрын
Amazing video! Thanks!
@RichBehiel Жыл бұрын
Thanks for watching! :)
@dng882 ай бұрын
3:38 is crazy. How can you want first order and just state it … and that is the genius
@RichBehiel2 ай бұрын
Serious, the audacity of Dirac! 😂 Sees a second-order equation, decides to make it first-order, even if it means breaking through the foundations of math itself and unleashing spinors unto the world.
@felipenathan59362 ай бұрын
Easy learning, very nice !
@person1082 Жыл бұрын
7:37 what would happen if quaternions were used here? their multiplication isn’t quite the same as rotors but would it still be a valid solution? edit: nevermind the equations with a aren’t satisfied so you would just get the spacetime algebra if done correctly that way
@adamtaylor2142 Жыл бұрын
VERY cool. Thanks for this!
@RichBehiel Жыл бұрын
Thanks, I’m glad you enjoyed the video! :)
@patmichel4724 Жыл бұрын
I have one thing to say : "thank you"!!!!
@RichBehiel Жыл бұрын
You’re welcome, and thanks for watching! :)
@reverend11-dmeow896 ай бұрын
Thank you foer extending the visuals into Tesseract terrortory. (not a typo, as this maths scares most)
@tomyamartino Жыл бұрын
Perfect, thanks!
@agentdarkboote5 ай бұрын
Quick question: it was mentioned that the Dirac matrices are just one way to solve the set of constraints and other mathematical objects would do the same... Do we reach the same conclusions with those other objects (eg spin, antimatter)? Do we get any nonphysical predictions? Or do they turn out to be mathematically identical to matrices?
@ethanostwald8765 Жыл бұрын
This is beautiful.
@manipulativer Жыл бұрын
So i been reading up on Weber electrodynamics paper. And in that paper he also mentions that momentum is stored outside the body - in the field - which agrees with feynman disc paradox. But this would mean that electrons are the 1/2 spin since they are responsible for inertia/momentum interaction of the nucleus against the ether. Electricity seems to be structured inertia/momentum where a magnet is structured inertia (angular momentum of electrons?) and electro statics seem to be structured field, which is primed for inertia/momentum against opposite charges But electricity itself moving structured momentum/inertia. Do electrons experience inertia?
@manipulativer Жыл бұрын
CHARGE is momentum/inertia which acts on electrons!!!! electricity is charges moving from + to - on the outside of the wire which causes the electrons to move in the opposite way as in action-reaction -> 0