I’m commenting now just to say hell yeah Robinson. Susskind is a legend, glad you’ve gotten him on. Also, shout out Jenni’s brambleberry crisp.
@robinsonerhardt2 ай бұрын
Brambleberry Crisp is the bomb, especially when you get a pint with lots of the syrup/jam stuff. Thanks so much!
@chrisstevens-xq2vb2 ай бұрын
Legend? He’s a space bender with 💩 for brains.
@JerryMlinarevic2 ай бұрын
@@robinsonerhardtTell Lenny that there is somebody out there who could and wants to help. However, due to extenuating circumstances contact cannot be realised by usual methods; only face to face. This situation is critical, which can only be moved forward by Intel ppl.
@rtt19612 ай бұрын
Very good interview. I appreciate how the interviewer let Susskind talk at length, not interrupting. Great.
@robinsonerhardt2 ай бұрын
Thanks!
@stormtrooper94042 ай бұрын
Prof. Susskind is all too but used to not be interrupted... you know.. students! Storytelling for little kids and bullsh!ting at length! But he is on a thin ice when piers have a questions for him! And his theories (better said hypothesis) are full with holes and inconsistencies!
@jozincarnate2 ай бұрын
Thankyou, so much Robinson. Having a fresh up to date interview with one of History's giants is, great to see. Hearing the legend Professor Susskind, (who is such an inspiration to me) still show his love of problem solving, critical thinking, and rational mind, is still so much fun for him is just he icing on the cake. I hope any young minds watching, following in Professor Susskind's greatness, get inspired to become modern-day explorers; and to seek out new math and new logic, to boldly go where all mysteries will finally become known.
@robinsonerhardt2 ай бұрын
Thank you!!!
@jeffjones74272 ай бұрын
34:44 so a physicist is concerned about he/they. Leonard is drinking the cool-aid. University professors are lost. I’ve personally as early as 2003. Humans know what is meant by “what is he made of. “ Stay pc.
@Goldslate732 ай бұрын
I cannot begin telling you how much this was needed. He is the reason I love doing physics, regardless of the momentary difficulties sometimes. Thank you, Rob and thank you, Professor Susskind. You're the best...
@blingpup212 ай бұрын
Lenny is a legend!! Robinson, you’re killing it with these top tier guests!
@robinsonerhardt2 ай бұрын
Thank you!!!
@sirilandgren2 ай бұрын
Lenny!! ❤
@hmdshokri2 ай бұрын
explaining it simple and not distort the core idea is a difficult job, Susskind is a master of it.
@robinsonerhardt2 ай бұрын
He is a great teacher!
@M-dv1yj2 ай бұрын
Or can’t except his folly🤷🏽♂️
@karagi1012 ай бұрын
@@M-dv1yjYou mean “accept”? What folly would that be?
@M-dv1yj2 ай бұрын
@@karagi101 accept yes ☺️😂🙏🏽
@M-dv1yj2 ай бұрын
@@karagi101 string theory is in terms of physics a scam. And semi intentional to enrich careers instead of science. As math it’s interesting and useful.
@AdrianBoyko2 ай бұрын
Forget physics, Susskind is genius of common sense.
@robinsonerhardt2 ай бұрын
he's really wonderful to talk to.
@rlombardo64882 ай бұрын
And forget logic...go with the oxymoron 😂
@tomdorman24862 ай бұрын
If more plumber would go into physics, we could save the world!
@SeanAnthony-j7f2 ай бұрын
@@tomdorman2486not really
@simesaid2 ай бұрын
@@robinsonerhardtGreat stuff, Robinson! I'm consistently amazed at the rapidity with which you have gained such a thorough depth of understanding vis-a-vis the foundations of physics! It's almost criminal that your channel doesn't receive more attention as, and I say this with objective hat planted firmly on my head, your guest-list quite simply represents the broadest, most interesting, and thus ultimately the most enjoyable to hear being interviewed, mix of working philosophers and physicists alive today. And in fact, there is no other channel in all the many and varied landscapes of KZbin that can boast of hosting such a stellar sky of guests! This may, of course, sound somewhat suspiciously like hyperbole, and it doubtless would be but for that "objective hat" remains firmly fixed in place. One brief aside though, Robinson, and this is a very general comment that not only applies to _all_ podcast hosts, but that does so equally, it is _not_ a prerequisite for the conduction of a successful episode that interviewers hold a comprehensive grasp of their subjects particular field or niche of interest. After all, if this _were_ the case, and you _were_ to understand some area or another of inquiry as well as any one guest did, then it would hardly seem necessary to interview them in the first place! So, no, a good interviewer need not perfectly apprehend their subjects research area (and neither would it prove possible for them to), and it is not even a prerequisite that they should have read all of their guests books or papers, rather, all that is required to excell as an interviewer is to hold enough knowledge that he or she can _ask interesting questions!_ Moreover, and possibly even most of the time, _the_ most interesting question one can pose to exceptionally bright people consists of but a single, solitary, word... "why?" Of course it _helps_ if the interviewer _does_ have at least a good grasp of the general issues involved, but for the average person listening in to the conversation - and by "average" I mean "non-technical, big-picture, nicely-kept-garden-sans-weeds, layperson" - were the average listener to ever have their dreams fulfilled by, say, being granted an extended personal audience with, oh, I don't know, say... Leonard Suskind, then with furrowed brow, attentive ear, and earnest tone, "yes, but why?" would be just about all the vocabulary we would require. There are two primary reasons that children ask this very question so often. First, because they aren't embarrassed to, and second, because the fastest, most efficient, way to learn something is to ask an expert "why?". Thank you, Robinson, on behalf of at least this one "child", for not being afraid to ask the smartest people in the room just why the world is... so.
@themaximus1442 ай бұрын
These new in person interviews have me so excited
@robinsonerhardt2 ай бұрын
again, totally music to my ears!
@mabaker2 ай бұрын
The cat is missing
@ivocanevo2 ай бұрын
I didn't know you existed, Robinson. But you're doing long form interviews of my favourite thinkers, you ask good questions and you're in the comments. That deserves an enthusiastic subscription. Look forward to more.
@robinsonerhardt2 ай бұрын
hahaha! thanks so much! i certainly exist.
@NunTheLass2 ай бұрын
Such a wonderful teacher. I must have watched a hundred lectures of his over the past 15 years. The submarine metaphor was nice. The universe is the way it is because if it were different, there would *probably* be nobody around to ask why the universe is the way it is. Got it!
@kdalkafoukis2 ай бұрын
I wish to Susskind a long life. He is one of the GOATs. Every lecture that I have watched is mind blowing. Also the fact that he combined complexity theory with physics shows that he looks so far away.
@CoreyChambersLAАй бұрын
Cannot deny the unique fiction writing talents of Susskind. Here are 12 alternative approaches or theories that seek to address the same fundamental issues as string theory: Loop Quantum Gravity (LQG): LQG is an approach to unifying quantum mechanics and general relativity without invoking string theory. It posits that space-time is quantized and has a discrete structure at the Planck scale. Causal Dynamical Triangulations (CDT): CDT is a background-independent approach to quantum gravity. It constructs a quantum space-time geometry by summing over all possible triangulations of space-time. Asymptotic Safety: Proposed by Steven Weinberg, this theory suggests that gravity is "safe" from divergences at high energies, meaning it can be described by a non-trivial ultraviolet fixed point. Emergent Gravity: This concept suggests that gravity is not a fundamental force but rather an emergent phenomenon arising from more basic microscopic interactions. Twistor Theory: Developed by Roger Penrose, twistor theory reimagines the structure of space-time, using complex number geometry to unify general relativity and quantum mechanics. Entropic Gravity: Proposed by Erik Verlinde, this theory suggests that gravity arises as an entropic force-a macroscopic statistical effect rather than a fundamental interaction. Noncommutative Geometry: In this approach, the coordinates of space-time are promoted to noncommutative operators, leading to a modified version of quantum field theory that incorporates gravity. Horava-Lifshitz Gravity: This theory modifies general relativity to make it renormalizable by introducing anisotropic scaling between space and time at high energies. Quantum Graphity: This model posits that space and time are not fundamental but instead emerge from a network of discrete, interacting nodes. Spin Foam Models: Spin foam models extend the ideas of loop quantum gravity by describing the evolution of quantum states of space-time as a sum over possible "foams" or configurations. Matrix Models: These models, such as the BFSS matrix model, aim to describe the fundamental degrees of freedom of string theory using large matrices, suggesting a non-perturbative definition of the theory. Holographic Principle and AdS/CFT Correspondence: Although closely related to string theory, the holographic principle and its realization in AdS/CFT suggest that the universe can be described by a lower-dimensional theory, which challenges the need for extra dimensions as in traditional string theory.
@bernardofitzpatrick54032 ай бұрын
Professor Susskind in Robinson’s clarity and profundity enabling warm crucible of ideas and truth seeking! Quality right there! Prof Susskind the legend. His use of the word “fun” in connection with his adventures in the cosmological wonderland is a testimony to his ongoing, unending curiosity and joy in the search for understanding . Thank you, as always, Robinson.
@robinsonerhardt2 ай бұрын
Thank you as always, too, Bernardo!
@snjsilvan2 ай бұрын
Great to see him again! Thank you, Dr. Susskind for all your work and teachings!
@robinsonerhardt2 ай бұрын
:)
@Prabhakar-gf2oq2 ай бұрын
I am always fascinated by Prof Suskind ,his brilliant intellect ,his humility and giving credit where it belongs and his ability to explain some of the most complex concepts in a way even a person like me can understand make him unique. Given enough time as he says anything is possible ,I pray he will live long enough to see his string theory proven and awarded a Nobel prize.
@dosesandmimoses2 ай бұрын
I enjoy Dr. Susskind’s lectures. Thank you gentlemen for your discussion..
@robinsonerhardt2 ай бұрын
Thanks for listening!
@Adam777T2 ай бұрын
I’ve watched 10^500 videos about string theory but this one was the first to explain it in a way that made any kind of sense to me. His examples and stories were excellent. Thank you.
@robinsonerhardt2 ай бұрын
That's awesome!!
@ivocanevo2 ай бұрын
What is the minimal surface area of a region that can contain 10^500 videos of average length?
@spencerwenzel73812 ай бұрын
This has been my favorite episode so far and the best treatment of fine tuning I have ever discovered. Thanks for this Robinson!
@robinsonerhardt2 ай бұрын
I am so happy to hear this. Thanks so much!
@ldero95202 ай бұрын
This is the best interview I have seen in years about cosmology . Just a big Wow !
@robinsonerhardt2 ай бұрын
that’s so great to hear :)
@tamjammy44612 ай бұрын
This is a new channel for me. Just wanted to say hi and thanks to both of you. I'm not ,sadly, very mathematically literate,, but I do enjoy listening to those who are talking about the implications of their own research . On that note Leonard Susskind is one of my favourite speakers and it was his name which brought me here. I will however be going through your back catalogue of interviews with great enthusiasm. Ta again.
@robinsonerhardt2 ай бұрын
amazing! thank you so much!
@irinaratushinskaja7900Ай бұрын
THANK YOU for the segment "What Determines the Physics of the Multiverse"!!! FINALLY I got the theoretical explanation for the origins of the parameters!!! Sweet!!!
@irinaratushinskaja7900Ай бұрын
Edited by me: [55:58] "The picture of inflation is there are lots of Inflaton fields with different values due to (random) quantum fluctuations. When new bubbles nucleate in the Universe, they inherit the (random) values of those fields, and the random set of Inflaton field values lead to random sets of physical parameters like the fine structure constant etc. inside the bubbles."
@chemicalfiend1012 ай бұрын
Absolute banger of an episode! Thank you Robinson and keep carrying on with the good work! I hope I can donate to your podcast soon. Keep being awesome
@robinsonerhardt2 ай бұрын
Thank you so much for watching!
@snappycattimesten2 ай бұрын
84. Amazing. Having your marbles in old age is a blessing.
@AlexKleinkanocomputing2 ай бұрын
Enjoying the iteration on the production format. And this is a great get. Diving in now.
@robinsonerhardt2 ай бұрын
Thanks so much! I'm having fun with it.
@Nathr56002 ай бұрын
So nice to see the in-person format working well. Very clear and easy to follow interview style, nice job! Keen to see a David Albert in person interview soon! I do miss Pins though 😅
@robinsonerhardt2 ай бұрын
your wish may soon be granted :)
@mrknesiah2 ай бұрын
He’s selling a circular argument…the fact is that if the constants/conditions were different then we would have evolved differently and the submarine would’ve been engineered differently.
@ccampo2 ай бұрын
Hi Robinson, thank you very much for posting this interview. Professor Susskind is an amazing educator and wonderful physicist. He has such a keen physical intuition and a knack for explaining things - I loved his submarine story! Keep up the great work - you've got a new subscriber (me!). I look forward to watching some more of your interviews :).
@robinsonerhardt2 ай бұрын
thank you!
@CurtOntheRadio2 ай бұрын
I like listening to Professor Susskind. He's done ok for a plumber. Lucky you, Robinson, meeting all these amazing people. I imagine it's often as intimidating as it is fascinating, not least in this case. Anyway, thanks so much. My bedtime listening sorted.
@robinsonerhardt2 ай бұрын
thanks curt :)
@LuciFeric1372 ай бұрын
Excellent. So nice that you know when to stay quiet and let the master expound
@robinsonerhardt2 ай бұрын
hahaha absolutely
@wyst692 ай бұрын
Excellent interview with a great physicist! Thank you
@seionne852 ай бұрын
Love this! Thank you so much for having these conversations! A small bit of constructive criticism for you, the volume difference between your podcast and the ads is jarring. I'm not sure if your volume is always low, but this is the first time I've noticed. Thanks again!
@robinsonerhardt2 ай бұрын
yikes! thanks for letting me know!
@superfuzzymomma2 ай бұрын
Susskind is my hero.
@robinsonerhardt2 ай бұрын
!!
@DanielC6182 ай бұрын
<a href="#" class="seekto" data-time="261">4:21</a> I think I know why Leonard always uses examples with water. It's because water is a more intuitive way to think of quantum phenomena than air, where gravity pulls everything together with less resistance, whereas water buoyancy and the nature of water particle interactions make this medium more akin quantum phenomena where the effects of gravity are negligible. Also, the interconnectedness and malleability of water particles is intuitive to explain particle interactions in a stable medium, where using air would imply more nuance in the explanation. Although not a perfect analogue, helps the layman intuitively understand quantum mechanics.
@FigmentHF2 ай бұрын
Hi I’m not a clever school man but maybe we are all some complex quantum excitations playing out on a lower dimensional boundary and it’s super complicated and has all the ADS/CFT holography stuff and basically those stable, complex agential quantum patterns model their otherwise combinatorially explosive quantum chaos realm with an inferred, constructed, generative model of reality that is a useful course grained approximation of some vastly more complex quantum happenings. I’m high rn. And also this is essentially the “bulk” it’s how we interface with reality, stuff like geometry is an us thing, and fractals and symmetry, it’s basically how our minds construct reality in chunky and intuitive terms that are good enough for evolutionary success. What else? Umm, that’s it maybe. I love Lenny, he’s like a real life legendary demi-god type guy, thanks! Love you guys! :)
@robinsonerhardt2 ай бұрын
Thank you!!
@PhysConcept2 ай бұрын
One of the greatest minds and a wonderful scientist. Thank you for bringing him up to your podcast. ❤
@robinsonerhardt2 ай бұрын
Glad you enjoyed it!
@mnrvaprjct2 ай бұрын
Please interview Lisa Randall on the nature of 3-branes, the Randall-Sundrum 1 & 2 models are very fascinating
@robinsonerhardt2 ай бұрын
would love to!
@mnrvaprjct2 ай бұрын
@@robinsonerhardt I do hope the opportunity presents itself, that will be a very interesting episode !
@ShubhamKumar-uv6ri2 ай бұрын
Yes, please do !!
@reimannx332 ай бұрын
@@ShubhamKumar-uv6ri Of course you want lisa, swami gandhananda.
@JoeLebrick2 ай бұрын
Yes!!!! I've been waiting for this!!
@robinsonerhardt2 ай бұрын
Me too.
@greenmountainfarms75152 ай бұрын
Stunning conversation! Thank you.!
@robinsonerhardt2 ай бұрын
thank you!!
@김동욱-g7z3n2 ай бұрын
What a profound interview!
@robinsonerhardt2 ай бұрын
Thank you!!
@GoatOfTheWoods2 ай бұрын
Thank you, professor.
@robinsonerhardt2 ай бұрын
*surrogate you're welcome*
@GoatOfTheWoods2 ай бұрын
@@robinsonerhardt 😄
@FirstRisingSouI2 ай бұрын
I love how humble he is.
@monkerud21082 ай бұрын
Just as a simple conceptual example, we can take two situations, the double slit experiment, and a bell test. The variable dependence is different in each case, and there is no issue accounting for the double slit in a deterministic way, but if you want to put it into a framework where we are summing over real possibilities for what the deterministic system might be, and therefore what it might do, you obtain the correct resulting probability distribution over observables, ect, you need the individual deterministic states summed over to have some very soecific properties, the double slit is a nice illustration of how it works with regards to interference of amplitudes, in a typical set up, you will for instance produce minima, which might be at 0 luminosity, and the average containing a 0 means that whatever happens no states, or states with probability density 0 over all the possible states must produce a measurment corresponding to that 0. The statistical properties puts constraints on the dynamics of the set of deterministic states summed over.
@monkerud21082 ай бұрын
With the bell experiment, we have to explain a very particular spin correlation, and we do that by supposing that in any state that is allowed to be summed over, the dynamics in some way must force the corrections, in a bell test with simole settings, this is easy, first you just suppose that a pair of entangled particles with anti correluspins, has an actual orientation all along, then you suppose that when one spin interacts with a field of a certain strength it has a probability density in time to interact with it and get entangled with it, and when that happens sufficiently far away that the other particle is not interacting with the same field, the field configuration holding the two spins correlated snaps of in a way and once the lost signal so to speak at the other end reaches the other particle it is rotated to compensate from its departure from equilibrium when its connection was broken, this causes the 2nd particle to be oriented opposite of whatever orientation to first was measured to be. Then we are left with a single particle with a known spin in a single direction, and the maths giving you the probability for up or down in each possible orientation of the measurement apparatus is identical as if you just prepared a single spin in a known state of up in some orientation. Such a force could be instantaneous in its action, in which case it just gives you ordinary quantum predictions, or it could be mediated by something slower but still faster than Light by some margin that makes experiments done so far come out the same. The important thing about this example os not that it is true or that this should convince you that this is true, it is just the simplest description in words of the action that would be necessary to set up the right forcing of correlations through the dynamic of any history we could sum over. Any choice in any lab and their combination correspond to a deterministic sequence of events and all of them could have one or many states that could deterministically evolve to give the right statistics when summed over. This is the kind of summing over histories you need to build a statistical theory for extending quantum mechanics. In the case of a bell test, all this force does is exactly what needs ti be done to leave the randomness when measuring off an axis for which you know a particle is prepared with certainty identical independently of how it was created, such that local environmental factors can account for the dice rolls locally, but the forcing of the correlation is always there in the dynamics. I think we need a broader framework to analyse these kinds of implications from Quantum mechanics into a statistical theory, by providing a sketch of what kinds of microscopic dynamics is necessary to make them come out right, i think if we dont have such a coherent picture it is hard to evaluate what the questions mean, i agree with that, but i think it is more than possible to produce such a sketch for all quantum properties. And also possible to construct rigorous and more realistic theories, that is what i'm working on.
@dimitrioskalfakis2 ай бұрын
brilliant mind with refreshing nuances. great guest.
@robinsonerhardt2 ай бұрын
Thanks!
@sabotagesabotage79272 ай бұрын
In general, I like that Leonard gets into the nitty gritty of these ideas
@diegoalejandrosanchezherre47882 ай бұрын
Amazing talk, thank you!! 🙌
@robinsonerhardt2 ай бұрын
Glad you enjoyed it!
@andystewart97012 ай бұрын
This was just so good! Such a legend!
@robinsonerhardt2 ай бұрын
So glad you enjoyed it!
@TimZM2 ай бұрын
thank you for this one, robinson
@robinsonerhardt2 ай бұрын
My pleasure.
@Giantcrabz2 ай бұрын
A breath of fresh air among pop-sci cranks spouting gibberish about quantum consciousness giving us free will somehow
@hartejdhiman443820 күн бұрын
Leonard Susskind is the last of a kind of physicist who is a credit to mankind.
@dennk7352 ай бұрын
Wonderful guest!
@robinsonerhardt2 ай бұрын
thank you!!
@CoreyChambersLAАй бұрын
Susskind has proven that even dog sh!t can be wrapped with enough bacon to seem delicious.
@kyaume212 ай бұрын
But didnt string theory get the sign of the cosmological constant wrong? Btw I thought Veneziano and Nambu were the real fathers of string theory.
@tim572432 ай бұрын
I would be very interested to watch a discussion or debate between Susskind and Turok. Turok apparently thinks the Standard Model cam be made to solve the problem eith minor revisions. Judging by the portion of this video I have watched Susskind expects the solution to be string theory + anthropic principle.
@alexjbriionesАй бұрын
The problem isn't the mathematics; the problem is the testing. As people like Peter Woit have pointed out, it's been 50 years since string theory was introduced, and it still hasn't been properly tested. Another issue is that string theory relies on 11 dimensions, many of which cannot be observed. So, how do you test it?
@virtualvessel0Ай бұрын
A more differing Cosmological Constant would lead to "immediate expand-collapse" in so collapsing "re-tuning" of the Cosmological Constant occurs until exponential expansion, Inflation-theory takes off, leading to Big Bang itself allowing particle-constants to settle differently in each "bubble universe".
@david-joeklotz95582 ай бұрын
Superb interview 😎
@robinsonerhardt2 ай бұрын
Thank you so much!
@Joshua-by4qv2 ай бұрын
If Susskind doesn't understand QM, then I am off the hook. Phew. I feel less stupid.
@robinsonerhardt2 ай бұрын
yes we can all give up now :)
@david-joeklotz95582 ай бұрын
He understands QM. The issue is connecting QM to Relativity, which string theory does. And the ‘measurement problem’ which he referred to mentioning Everett’s work. But don’t for a minute believe he does not understand QM as it is. The puzzle is the foundation question. Prof David Albert would be a great future guest. Prof Susskind mentioned ‘Andre’ and that has to be Andre Linde. Hopefully another future guest 😎
@paulrecher2 ай бұрын
In 'Just Six Numbers', Rees computes for a universe in that suite of universes that can evolve sentient life to talk like we do requires stable atoms, suns, and black holes. The odds of being such a universe is calculated at 10 to the minus 243. PS This # is alot lower than the odds of your unique birth.
@swyveu2 ай бұрын
extremely well done!
@robinsonerhardt2 ай бұрын
Glad you liked it!
@Robinson84912 ай бұрын
Love this man
@robinsonerhardt2 ай бұрын
:)
@VikingOlberg-NymoenOfNorwayАй бұрын
I really enjoyed this. Thanks
@diegoalejandrosanchezherre47882 ай бұрын
if you have a new oportunity to talk with him, you should ask him about the consistency betwen the "covariant bousso bound" and he´s conjecture "quantum complexity=volume", i think there is a little tension between theese two conjectures (where all this new quamtum information of the growing volume is stored)?????
@1970jaw2 ай бұрын
Very interesting. Many thanks.
@robinsonerhardt2 ай бұрын
Thank you!
@tonywestbrook98762 ай бұрын
That was really, realy cool! 🏁
@robinsonerhardt2 ай бұрын
Glad you liked it!
@timewalker66542 ай бұрын
After long time seeing susman in talk
@robinsonerhardt2 ай бұрын
long time indeed
@lucamatteobarbieri24932 ай бұрын
I don't understand the conundrum about hypothetical different constants. Is like asking why pi is pi and spending time thinking about what would happen if it was different. Fun but useless endeavor. Can someone tell me what I am missing?
@nishthasharma8642Ай бұрын
I have nothing to do with physics but i know the term string theory because of The big bang theory😂 Sheldons' professor was always working on it
@LateNightVideozzАй бұрын
I don't know why but hearing this felt not so sensical or in anyway provided valuable information.
@allantaylor4202 ай бұрын
Cool, watching from Brazil
@robinsonerhardt2 ай бұрын
great!
@Rayleigh-ol6kw2 ай бұрын
Susskind's professorship is named after Felix Bloch.
@robinsonerhardt2 ай бұрын
!
@maryammobasser72622 ай бұрын
True to ourselves is a must!
@levani78512 ай бұрын
Audio is so low.. pls bump it up in the future
@raffinee_37632 ай бұрын
A national treasure...........
@robinsonerhardt2 ай бұрын
!!
@km403432 ай бұрын
What is the prediction of cosmoligical constant from the string theory? Did it changed from the earlier bosonic string to branes?
@lepidoptera9337Ай бұрын
Pretty much whatever you want it to be.
@anishmukherjee94518Ай бұрын
In that case should one think about the twistor theory? Should one spend time to find cosmological constant from twistor theory by Sir Penrose ?
@edtim35502 ай бұрын
Why er we able to exist ? because WE are perfectly tuned to be able to exist within the confines of the existing universal constants , evolution took care of that. Any other (tuning) idea is just like placing the earth at the center of the universe all over again. In the dark ages we tought the earth was the center of the solar system and galaxy (what a finetuning that would have been) we learned that was not the case. But some people still don't want to let go of that idea. With "finetuning" are we not just placing us at the center of the universe all over again , like in the dark ages ? Why don't we face up and accept that nothing in the universe is tuned for us. We are not the center piece, it really boggles my mind as to why a lot of people just cannot even fanthom the idea that we are just a byproduct. It just seems to no compute, and i don't understand why. The smarter we got, the more we were able to push fintuning back, starting from us beeing the center of the universe. But suddenly with all the knowleded we gathered, we find ourselfs back at the starting point : the univers is created for us. Why are we unable to escape this train of tought ? Is it so hard to accept that noone is taking care of us ?
@Nick3721a2 ай бұрын
You’re aware that fine tuning / anthropic principle is directly aligned with your reasoning right? The “natural selection replacing superstition” idea is a common and direct analogy to the anthropic principle. I.e. no gods, just random chance with a selection process.
@NickPDX222 ай бұрын
My favorite living physicist even tho I don’t believe in string theory. Funny how he’s an atheist yet he’s proven the existence of a grand creator talking about the cosmological constant.
@Tesla_Ampersand_Friends2 ай бұрын
<a href="#" class="seekto" data-time="1009">16:49</a> it's been (much) more than 25 years (even for the characters dr susskind dables w) but there is an alternative idea that could have sense made of it. Essentially an eternally repeating cycle of expansions and contractions for lack of better verbiage.
@yuhhhhhhhhh82402 ай бұрын
Can u upload these to Apple podcasts?
@robinsonerhardt2 ай бұрын
they are!
@academicresearch22802 ай бұрын
Thank you.
@robinsonerhardt2 ай бұрын
You're welcome!
@alexmonras15722 ай бұрын
Those fluctuations that give rise to the nucleation of bubble universes, if they come from quantum mechanics, they need to come by through a measurement process. That's the only way randomness manifests itself in QM. Without observation, the evolution is perfectly deterministic. Therefore, the question begs itself: who or what is the observer? Unless those bubbles are in a superposition of existing and not existing....
@Seekthetruth30002 ай бұрын
Good info, thanks.
@robinsonerhardt2 ай бұрын
thanks :)
@zhavlan12582 ай бұрын
Request to you❤: Suppose: we managed to “improve” the Michelson-Morley experiment so that with its help the result of the experiment was determined; speed on an airplane is 300, 350, 400 meters per second. Question for you: what will this mean for BIG SCIENCE?
@arturoeugster7228Ай бұрын
To make a stable submarine add a feed back control system or notice that passive stability can also be done with different pressure dependence of the sea versus the average density of the summarine volume. This is so simple, so very simple that only a child can do it... by driving an unstable bicycle.
@KlausJLinke2 ай бұрын
Amateur question: You can express everything in dimensionless units, say convert between distance and time using c. Just because you can do that, using the known constants of nature, it does not make distance and time quite the same. Wouldn't the "hidden dimensions" in string theory be as different from distance, as distance is from time? Maybe they correspond to the electro-weak force and strong force in a similar way the "usual" four dimensions relate to the gravitational force, and some of them have more to do with, say, the Planck units for charge and current than they have with the Planck length.
@robdoty69032 ай бұрын
Not sure what who votes for what president has anything to do with theoretical physics...I missed the connection there Lenny. Otherwise very insightful and articulate as always, thank you
@mcg67622 ай бұрын
I take it you vote for the lying criminal
@ivocanevo2 ай бұрын
I think he's giving examples of cognitive dissonance by intelligent people. E.g. The bewildering notion of some of them voting for candidates who are catastrophically flawed, despite probably being smart enough to see it objectively. Though I think media silos and expediency have something to do with why that happens.
@KirilIliev_Utube2 ай бұрын
Yes, Susskind is legend
@robinsonerhardt2 ай бұрын
:)
@Achrononmaster2 ай бұрын
Well,... I guess you cannot read all the papers. @<a href="#" class="seekto" data-time="1060">17:40</a> and @<a href="#" class="seekto" data-time="1272">21:12</a> and @<a href="#" class="seekto" data-time="1790">29:50</a> --- if Lenny read Turok & Boyle he'd know there is one approach to the cosmological constant which does not (yet) fail. The CPT Symmetric Universe proposal. Their package of ideas does hinge on the RH neutrino being dark matter, so the lightest neutrino must have zero mass, which will be tested accurately enough soon (within a decade). It is a critical aspect of their account of dark energy, and is tied up also with Boguliubov zero-dimension scalars which cure the three energy problems: Weyl anomaly, trace anomaly, and vacuum energy anomaly. This also hinges upon the Higgs being a composite particle, not elementary, which will also be tested (though no one I have heard knows quite when).
@virgiliustancu92932 ай бұрын
They invested so much in the String Theory that now they keep pushing it around even the String Theory is a cul-de-sac now.
@TheMemesofDestruction2 ай бұрын
Professor Suskind is pretty Cool. 😎
@robinsonerhardt2 ай бұрын
😎
@monkerud21082 ай бұрын
Idk about the universe having to be deterministic a priory, i dont think logic can do that for you, but i think there are good reasons to believe it could be deterministic. First the the quantum predictions are all acceptably solved by supposing that the variable dependence that exists for measured outcomes are put there by ordinary interactions is a part of the substructure physics where influences are propagated a lot quicker than light, then it is possible the concive of conceptually simple ways to put it in deterministic framing and extending current theory by doing so, it then is possible to suppose a distribution of evolving states which each has the correlations that are non trivial bakes into the dynamics. Then you can do it, then its just like summing over histories for any old fashioned statistical mechanics problem. Gerard is smart and seemingly a nice guy, i agree with him. Although the foundations you need for dealing with the issue of producing such a theory has not been put forward by anyone as of yet, but i think ot is possible to make a lot of progress on it.
@oliverjamito99022 ай бұрын
Pop Leonard thank you! For thy visitation to comfort the COMFORTER and thy attending unto our OWN. Love you Pop! Gratitude and Honor! At least thy Son can do is to washed thy FEET to let ye know the mileage from thy feet is recognize!
@NicholasWilliams-y3m2 ай бұрын
I feel you on the "constants" Leonard. The right triangle of proportionalities maintains a constant hypotenuse slope between the right angles of Planck's constant, the speed of light, and the ℏ mass scaling factor, representing thermodynamic proportionality factors that decay proportionally (the hypotenuse slope is maintained) therefore constancy is maintained for mass observers. The slope of the hypotenuse remains constant as the (x and y) right angle vectors (c and h) vectors shrink (therefore hbar and mass recede with it). Thus, while Planck's constant remains constant relative to mass (observationally proven), Planck's constant and mass is shrinking (at the same rate) do to gravitational radiation fueling the formation of more angular motion quanta (that are smaller) between galaxies, creating the illusion of expansion (more quantum vortices, smaller quantum vortices = illusion of space expansion). Inflation, which ignores thermodynamic proportionality factors and gravitational radiation loss, therefore has been debunked mathematically, observationally, and thermodynamically. The inverse velocity inertial local intersecting resistance forms quantum vortex network that continuously recedes to smaller scales within the super fluid, with mass shrinking riding that quantum vortex network to smaller scales, contrasting the filaments of the cosmic web as a result of gravitational radiation moving out, and mass shrinking and moving closer to other mass. Energy density is the same everywhere (the differential is with respect to ratio of active kinetic to low resistance potential, resulting from the fundamental local inertial directionality transform mechanic [local average]), when angular momentum quanta circumference decreases the number of quanta grows, over time contrasting the flow differentials into differential structure formation (the cosmic web contrast, and the quantum vortex network density increase which is perceived by mass detectors as "space expansion"). The decrease in kinetic energy (electromagnetic radiation) in the universe is logarithmic, while the increase in potential energy stored within the vacuum is logarithmic (not to be confused with the cosmological constant, which is the subtle kinetic portion of the vacuum, not the potential low resistance portion). The number of quantum momentum vortices increase, while the energy of a single quantum vortex decreases (however they are dense over volume, creating the illusion of space expansion). Remember, The slope of the hypotenuse remains constant as the (x and y) right angle vectors (c and h) vectors shrink do to gravitational radiation (hbar and therefore mass recede with it). The fundamental difference between gravitational radiation and electromagnetic radiation is in how quantum vortex interact. When convection loops touch, the local intersecting inertial motion flow can be either inverse directionality, resulting in electromagnetic kinetic action, or the same directionality, resulting in gravitational radiation. Specifically, when two clockwise loops touch, you get kinetic action (electromagnetic radiation), while when one counterclockwise and one clockwise loop touch, you get gravitational radiation. This distinction highlights the unique behaviors of different forces (at the fundamental scale) and their contributions to the universe's energy dynamics.
@hyperhybrid72302 ай бұрын
Nicola Williams from Charlie Chalvey School Slough, England, are you saying the weight and gravity of the hippopotamus stays constant when submerged on water pulled indefinitely by strings.
@nasirfazal54402 ай бұрын
String theorys' mathematics sounds like intelligent designs of human mind..Prof.Dr.Nasir Fazal Cambridge USA
@Fosco0072 ай бұрын
To fully understand Sussskind insistance, this video has to be listened having in mind the increasing criticism string theory is facing. One can listen to Hossenfelder’s recent video to convince self. As one of the fathers of the theory, LS is being extremely defensive, being honest as well on the fact that’s while not being the preferred theory, it’s the only one which gives a consistent explanation for fine tuning as recognized for instance by Weinberg and Witten …. Debate is not over in my opinion with key scientists like Penrose / Turok / Smolin-Rovelli or even Bostrom proposing other alternatives
@Danielm103Ай бұрын
Leonard is awesome, I’ve watched all his lectures ... while eating cookies
@reimannx332 ай бұрын
Lenny looks to be in great shape.
@petertomshany2 ай бұрын
Wondering if there's any work coupling these constants, ie if the cosmological constant were larger AND the Higgs mass were larger, maybe the fine structure constant and the speed of light also? Is there a way to "fine tune" multiple constants in a thought experiment such as Susskind is suggesting? (He's only suggesting modifying one constant at a time ;)
@SpotterVideo2 ай бұрын
What do the Twistors of Roger Penrose and the Geometric Unity of Eric Weinstein and the exploration of one extra spatial dimension by Lisa Randall and the "Belt Trick" of Paul Dirac have in common? Is the following idea a “Quantized” model related to the “Vortex Theory” proposed by Maxwell and others during the 19th century? In Spinors it takes two complete turns to get down the "rabbit hole" (Alpha Funnel 3D--->4D) to produce one twist cycle (1 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, with each twist cycle of the 4D Hypertube proportional to Planck’s Constant. 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.) If quarks have not been isolated and gluons have not been isolated, how do we know they are not parts of the same thing? The tentacles of an octopus and the body of an octopus are parts of the same creature. 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. The "Color Force" is a consequence of the XYZ orientation entanglement of the twisted tubules. The two twisted tubule entanglement of Mesons is not stable and unwinds. It takes the entanglement of three twisted tubules to produce the stable proton...
@csbarolaca12 ай бұрын
Extra-Dimensional Collapse Hypothesis hypothesis involves an extra-dimensional collapse. Here’s a detailed look at what it might entail and its potential implications: Concept: Instead of collapsing within our familiar 3D+time framework, the collapse occurs in a higher-dimensional space. This collapse in extra dimensions influences our observable 3D+time reality, determining the outcome of quantum events. Advantages: Might provide a more intuitive explanation for the probabilistic nature of quantum mechanics. Could potentially unify quantum mechanics with general relativity if extra dimensions play a role in both. May offer a new way to address the measurement problem, suggesting the observer effect is due to interactions in higher dimensions. Challenges: Lack of empirical evidence for extra dimensions. Current experiments at scales accessible to us have not detected extra dimensions. Introducing extra dimensions adds complexity, which might not be necessary if existing interpretations suffice. It requires a rigorous mathematical framework that fits with known physical laws and experimental results.