Kudos to you for wrapping up multiple Nobel Prize concepts into 15 minutes. That is badass!

This series keeps getting better. Finally, a lecture that isn't afraid to put up equations, but also doesn't use them exclusively for describing real interactions (like my Physics professors did).

Your guys work to make this type of information available to anyone willing to follow your videos is outstanding. I'm sure these lessons will go on to change lives of countless people. Thank you for all of your work and dedication.

Matt : “But if you try calculate the self energy correction to an electrons mass using QED, you get that the electron has infinite extra mass. Ammm...This sounds like a problem” Haha I don’t know why this amuses me so much. Just picturing the physicists working on this calculation then getting infinity as the answer. Then all of them just sitting there , staring at each other like “ahh.. crud”

This is pretty amazing. To think you're actually making QFT videos for laymen. I didn't think it was possible. It's by far the toughest topic I have ever studied.

Matt, you have the best tone, mood, wording,and rhythm for explaining these things I have heard up until now, Thank you (~8

Oh, I'm glad I caught this series now, rather than from its beginning. Quantum mechanics are absolutely FASCINATING. Bear in mind that this statement is coming from a non-physicist, non-mathematician, non-scientist, non-engineer person. I stumbled upon PBS spacetime while trying to dig into Einstein's "E=mc²". It has been a year and I'm still determined to absorb every bit of the discipline, from Classical mechanics through to Cosmology. Simply put, this channel is brilliant at popularising core concepts, while providing relevant links to explore the subject in detail. I have to say, Feynman's path integral is giving me the hardest time because it is both extremely logical and complex yet extremely unassuming and abstract. It's hard to believe that someone could manage to tidy up the QM mess in such elegant ways. Essentially, I've got more exploration to do...while waiting for the next episode of the QM series on PBS Spacetime! :)

I’ve subscribed to this channel for years. This video is still my favorite one.

Man, I'm glad these weird quantum mechanics rules don't govern regular physics. Imagine just going to a friend's house: "Hey, sorry I'm late. The Interstate was closed so I had to take a shortcut." "That's okay. Did you take Vine Street, Route 44 or the old dirt road?" "Yes."

Now that you're covering the Standard Model, and you've already gone over a lot about General Relativity, will you do a video about some of the details of the problems that come from combining the two?

Matt, I love what you and the folks at Space Time are doing and have watched all of the videos dealing with QM, QED, and Special Relativity. I've watched them over and over, since I am a middle aged man with no background in higher maths or physics. I wouldn't want the episodes dumbed-down; I just with I could understand the maths and the very weird QM concepts more.

These videos are just right for me. Not too dumbed down to make them fail describing complicated phenomena but still not too technical that a non physicist like myself cant understand anything. Fantastic!

You guys are doing a fantastic job in particular with these QFT videos, in my opinion. I do hope that at some point in the future you will address the Feynman "antiparticles traveling backward in time" interpretation, and what came of that, historically speaking.

Could you go more in depth about how fields couple someday? This stuff is fascinating, never stop!

Hey, Space Time, loving this recent series on the quantum realm. I really appreciate the deeper looks than you normally get with pop-science, while keeping it firmly within layperson's land.

Never has there been a faster video click time than when I saw the new Space Time video. I love your work mate, I wish I could have a personal conversation with you face to face matt, keep up the good work you bloody tank Cx

BEST PHYSICS CHANNEL ON KZbin!

This is really excellent, even if I don't understand everything. For years and years I've seen Feynman diagrams and heard how good they are, without anyone actually bothering to explain what they mean.

If anyone's wandering where the '1%' came from, it's to do with the value of the electric charge of the electron in natural units, as that is related to the 'coupling constant' that determines how strong the interaction is.

Hey Matt, just became a Patreon from France . You're the only channel worth disabling my adblock. PLEASE keep making videos! Please don't stop, and please don't change host again ;-p I still have troubles getting a grip on that diagram, but man.... I'll watch you again and again until I get a grasp. Love you Matt ! See ya !

Quantum Physics: If it makes sense, you're doing it wrong. Gotta love it! :)

I feel like Feynman represents a big gap in a more complete understanding of spacetime for most people. I am really excited you guys made these two videos. Spacetime 4 ever! -coolascats

Can we please all agree to call Feynman Diagramms Feynman-Doodles from now on? :)

These videos are some of my favourite to watch, yet I understand so little of anything posted on this channel. I suppose the coolness of it all is the main reason it's so entertaining :P

best episode, by far!!! I love how you are posing questions to try and find a physicist who is the diamond in the rough. looking through the comments for the similar effect that a three year physicist student has toward current physics theories! you have a great platform for theoretical physicists to take new ideas and theories and run with

I finally understand what perturbation theory actually is (or rather, how it's actually applied to physics). I love that you present these episodes at a perfect level of complexity for enthusiasts like me who never had a chance to formally study physics but have always been in love with the subject.

The whole "self-energy" problem (maybe relating to quantum gravity) had my head spinning. I can never get enough of theoretical physics, but I'm just going to go to bed.

Excellent video. Very informative introduction and a must see for all science and mathematics students.

Every time I see QED I think, "Done."

Thank you for explaining Feynman diagram. I am in business field and customer service. But physics and science fascinated me and really stretch my imagination. Thank you again and keep on discovery and invention.

"You are a hack!" "Oh my, thank you very much."

Best vid yet in terms of elucidating some complex concepts. I knew that renormalization was critical to eliminating those pesky theoretical infinities from the math, but I didn't really know how until now. Thanks, ST.

I would love if you could do a video on the Einstein Feild Equations

I was reading up on re-normalization and these "infinities" last week, and although I have some physics education background, it was still difficult for me to grasp. This was a very effective breakdown of these complicated subjects!

Seriously, if we were living in a simulation, someone would have figured out a physics that's easier to compute.

The quantum mechanics series has been my favorite topic so far! 👍👍

Feynman's sum over histories is among the most underrated discoveries in physics. I used it in my philosophy thesis in college to show how even if you believe that only the present exists now, you can still take thw past as real because every past that COULD lead to the present actually DID happen. Though for macroscopic events, there aren't really important distinctions between one history and another.

You guys are honestly incredible, and you have my eternal gratitude for all you've taught me over the years. Great episode, as usual. That's said, if I can make one single request: please, Please, PLEASE make an episode on Loop Quantum Gravity!!! It's often heralded as one of the most promising alternatives to String Theory as a theory of Quantum Gravity, and yet there's little to no accessible material out there explaining it for non-physicists! Sounds to me like a job for you beautiful people at SpaceTime XD

What now? "Virtual" electrons???? Physics, you again..!!

Thanks for all your efforts Dr. Matt , yourself and your whole team . The dept of knowledge can never be payed back . Thanks for eternity ❤️

I understood about 25% of this video, what I did understand amazed me.

Im a programmer, but i love physics! and this channel makes me love it even more!

12am: Ill watch one more video, this QFT video series looks cool. 3am: I AM WAVES OF ENERGY ON INFINITE PLANES OF EXISTENCE. NOTHING IS REAL, THE FUTURE IS THE PAST AND THE PRESENT IS FOREVER

I have liked almost all his videos. Does a good job in telling a short and effective description. Details can be found in other videos or text books.

ADS/CFT so lit though

I got addicted to your videos. They and you are great. Thanks Professor

Peter Dinklage's taller , physcist brother!

I really appreciate these videos. This is amazing! Being able to see the diagrams and associated math would also be really cool.

You mentioned that with Feynman's equation, you can explain antimatter as matter travelling back in time (or something like that). Does it have anything to do with the fact that how a charge moves when attracted to an object of opposite charge in a video played backwards looks the same as if that charge had the opposite charge (and thus, the same as the charge of the object) and the video played normally? (Disclosure: I said video but that fact isn't important to the hipothetical example)

My favorite channel. Please don't stop

Redneck version - Physics: Impossible Physicists: Hold my beer

kudos for wrapping up noble prize winning concepts in such a short time. never could explain such with an infinite amount of time. Thanks! very easy to understand as well, being i am not a native english speaker.

Wait a second. At 7:50, does the virtual positron in Feynman's diagram go back in time?!

Great!! Thanks for giving me such deep knowledge in just 15 minutes instead of 1 semester lecture..

Can you make a video explaining the particle anti particle pairs. Such as the virtual electron and positron pairs. Im not fully understanding what they truly are or how they even exist

I've stopped to understand what are we talking about few episodes ago, but just can't stop watching. O.o

The sum of infinite terms in the electron mass making a finite number reminds me of how "the sum of all integers is -1/12"

These are always as fascinating!

Is there always a finite number of Feynman Diagrams at each group of Feynman Diagrams of a certain vertex count?

you dont need electricity to activate a Crystal, Use frequency, Frequency Creates light, light creates life Your so Smart.

Feynman once scored 125 on an iq test. Basically the test didn't realize this was a trick subject and it failed.

These are brilliant videos. So well thought out and explained. It's still tough going but bit by bit through more viewing of related topics I am getting a clearer mental map of the terrain. The internet has a lot to answer for in term of allowing dumbing down of issues and sensationalisation and bias. This is an example，and there are many others，where it is a force to open up minds to a greater and more humble appreciation of our place in the Universe. From the presenters knowledge perhaps this is a relatively simplistic explanation but I suspect he has had to think long and hard about how to formulate these ideas and that the process has increased his own understanding. We can't all get up to speed on the Maths as that is a high level career calling for a select few that some how can quickly understand complex maths. But to begin to understand this conceptually is not at all easy. It requires a great deal of consideration over time. I have great admiration for communicators like this. They want us to know and learn. That is a very compassionate thing to do.

When he says "reality" at the beginning it looked like it hurt.

Great episode! I love when there is more math in your explanations!

-sigh- you make me regret going into literature and philosophy rather than maths and theoretical physics lol

If you see this, I love this guys keep it up! Really nice videos for an interested non-academic =)

Quantum mechanics is so unsettling. No wonder Einstein didn't like it. Also, when will we get a video about the Kaluza-Klein theory that light is vibrations in the 5th dimension? That'd be really interesting to watch.

"Schroedinger's equation is a special case of a more general formulation of QM. In Schroedinger's equation, all the particles are tracked according to one universal master clock. In Feynman's approach, each particle is tracked according to its own proper time clock, which can vary its tick speed depending on how fast the particle is traveling. Derivation of Schroedinger from Feynman requires approximating all of the separate proper time coordinates to give a single time coordinate. That approximation is OK at low speeds, but breaks when things get close to the speed of light." ~Matt @13:35 Carry that thought over to the derivation of Bell's Inequality, where (instead of the wavefunction) we have the presumptive hidden variable, λ(x,t). One member of the twin particles has a position +x at time t, while the twin has a position -x at time t. But note that Bell adopts a common clock, so that λ(x,t) can be algebraically canceled out by λ(-x,t), regardless of the function λ(•). If you appreciate that a gravitational gradient perturbs timekeeping so that the particles speeding off in opposite directions age at their own idiosyncratic rates, then one can no longer algebraically cancel out λ. The derivation of Bell's Inequality breaks down; the presumptive hidden variable λ(x,t) remains present. Indeed one can say the hidden variable is time itself. In Aspect's experiment, λ(x,t) could be Maxwell's Equation for the photon, or (equivalently) Feynman's rotating vectors. But recall that photons traversing a gravitational gradient gain or lose energy and thus change their wavelength (or color) accordingly. The two photons are thus represented by sinusoids which are not perfect mirrors of each other and thus cannot be algebraically canceled out. They will have a residual nonzero "beat frequency" which remains present, thus spoiling Bell's convenient cancellation of λ(x,t) midway through his derivation. That's why Bell's Inequality doesn't hold in the real cosmos where there is no universal master clock that keeps identical time everywhere and everywhen.

As every particle is an oscillation of their own field like electron, proton and other fundamental particles then everything is a combination of vibration as atoms are made up of electron proton and other fundamental particles and atoms are made up of them ? means what we see and feel all are vibration at a large scale ?

Thanks, this is one of the better episodes.

Correction: every vertex reduces the probability of the interaction with about 10%, or the square root of the fine structure constant, if i'm not mistaken. The reason about every extra interaction reduces the probability to about 1% is that these vertices always come in pairs.

Have some questions (I'm not a physicist but an engineer): - Why is so important to calculate up to the most improbable outcome of the interaction? - How was ruled out that the probability distribution of the outcome interaction were the effect of a chaotic phenomena? (sorry for my english, it's not my native language)

So, if the electron's fundamental mass is unknown, and there is no limit to how much self energy it can have. Is it possible that electrons have no fundamental mass, and are made up entirely of self energy?

Superb exposition. Thank you very much!

I have a question. How can I calculate my own (approximate) mass in electron-volts? Assume I'm at-rest, because that's the truth -- I'm sitting on my ass watching KZbin.

Wow, good effort on the visuals. Excellent video.

i know photons carry momentum, but what would happen if you pointed a trillion trillion trillion trillion watt laser at a black hole? would it push the black hole away? or would it stay in the same place? or would the black hole be pulled towards the laser (since photons also have gravity)?

This, gentleman, has been the best layman's description of renormalization I've ever encountered.

who was a subscriber before they started advertising?

I love the cold correctness of the part where he says "obviously electrons do not have infinite mass and we know that because we've measured that mass"...like, just to make sure that they aren't infinitely massive, we went ahead and confirmed our suspicions that they're not...obviously. Lol. This channel has the perfect mix of ELI5 and ELIPhD and is one of extremely few I'll consider sponsoring.

Quick physics question! So, we're told we live in three dimensions which represents space, right? If time is actually a fourth dimension we experience then in reality would your beard tickle me if we kissed?

Was experiencing SPACETIME withdrawal..., but SPACETIME always coming through at the right SPACETIME!

*insert unoriginal/stolen comment*

8:30 Nice how you added that antiparticles can be seen as moving backwards in time!

Really like this presenter - pleased I found this channel. Is there a presentation on "The Unified Field Theory"? I viewed Dr Hagelin's - adore that man, just would like another presentation perspective.

Thanks for this videos! you made me kind of understand very difficult concepts!

Wow wow Wow . . . Equations hiding in plain sight, now im realy hooked . . .

Tip for future episode: Holographic theory. It was briefly explained in a discussion on quantum mechanics on World Science Festival when talking about hawking radiation of black holes. I would love to know more about it.

My head just exploded. Brilliant!

I'm super excited for the Space Time eclipse glasses

Gravity field, a hypothesis: Objects that have mass pull the gravity field into it's self, more mass, the harder/faster it pulls on the field, in effect, swallowing the field, this drags other objects toward it. 2nd hypothesis, Dark Energy: Where does this gravity field go? Could it be turned into Negative Gravity? Would Negative Gravity behave like Dark energy?

Fun stuff! Thanks for the introduction!

Best video I've seen in a while. Feynman ftw!

This video deserves more views.

Not gonna lie, I ran when i got here in physics (the professor even made it easy for us but i at the time felt like it was a mental overload. Then I had to deal with personal problems) and went straight to CS. Such an easier concept and it gave me more time to go to work and have money to eat. Now, although there are probably code that do it, I am reading my physics books and writing my own code making the functions for the physics equations. This is actually helping me see physics in a different way. I might go back for a phd when i turn 30. (I need to get my life together now) In the U.S.A money first, discovery later. Unless you have a full ride scholarship then go all out. I am not worried though. I met this genius kid in physics he was 100X better than I was. It was a treat to see him do his thing and worth the debt I got trying to pay for classes. It showed me who I could become. Anyways, for some reason after his PhD in physics, he went to go into machine learning. Since I was in CS, I was introduced to it and decided to go in that direction. I think he, like I have, realized there is something there that will help in future physics endeavors.

One of their best! Great broad view!

I have so many questions: 1) If Feynman derived QFT using only the Principal of least action (PLA), how did he account for other postulates, like the constancy of the speed of light or the Heisenberg uncertainty principal? Do those just manifest themselves as natural consequences of the PLA? 2) I've seen a pretty convincing argument that observation and entanglement are the exact same phenomenon. in other words; when one particle observes another particle, the two become entangled. My question then becomes; are particles ever even necessary? If the only time particles manifest is during the event of observation, then why not ditch the particle interpretation all together and treat the event of observation (entanglement) as a special property of two waves interacting? Would the math still work out? Would that resolve the problem point-particles cause when trying to unify QFT and General Relativity? It seems like it satisfies Occam's Razor better because you condense three weird phenomena (entanglement, observation, wave-particle duality) into one: entanglement. 3) I forgot the rest of my questions...

As a dane who lives in Copenhagen, I like how many times "Copenhagen" pops up, and of course, Niels Bohr, and now also "Møller scattering" :D the "ø" sounds like "eu" in French adieu. Don't worry, you wont offend anyone if you try to pronounce Møller ;)

I know this isnt related to the topic of this Video, but could you do one about The Great Attractor? Love your Show!

Nicely done Matt!