Chaos theory and geometry: can they predict our world? - with Tim Palmer

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  • Опубліковано 26 гру 2024

КОМЕНТАРІ • 305

  • @asmodeusnord2596
    @asmodeusnord2596 Рік тому +15

    Fascinated from start to finish. Thank you Dr. Palmer xx

  • @theosmid8321
    @theosmid8321 10 місяців тому +2

    The tilted table flabbergasted me in the sense that I could not imagine a better example of how things work within the range of probability and keeping them in a frame of reference. Very well done!

  • @ange1252
    @ange1252 Рік тому +17

    This was absolutely wonderful. It was a fantastic walk through some lovely ideas. Thank you for posting this.

  • @jamesmckenzie4572
    @jamesmckenzie4572 Рік тому +20

    This was difficult at first but once I got accustomed to Mr. Palmer's speaking mannerisms it was really quite fascinating. By the end I wanted to hear more.

  • @csikjarudi
    @csikjarudi Рік тому +8

    Anyone noticed that one of his coauthors is Sabine Hossenfelder (1:03:15)?

  • @hrdcpy
    @hrdcpy Рік тому +28

    The audio gets better about 2:30 for those first listening

    • @jme_a
      @jme_a Рік тому +3

      Thanks, I was wondering if I could take that for the full length 🤣

  • @isatousarr7044
    @isatousarr7044 25 днів тому +1

    Chaos theory and geometry are fascinating fields that, together, can provide profound insights into understanding the complexities of the natural world. Chaos theory, a branch of mathematics, deals with systems that appear to be disordered or random but are actually governed by deterministic laws. These systems are highly sensitive to initial conditions a property known as the "butterfly effect." This means that even tiny changes in the starting point of a system can lead to vastly different outcomes over time, making long-term prediction extremely difficult.
    Geometry, on the other hand, provides a mathematical framework to study the shapes, spaces, and structures that form the basis of many natural and physical systems. In chaos theory, concepts like fractals and strange attractors use geometric structures to illustrate how chaotic systems behave. These geometric patterns reveal that even in seemingly unpredictable environments, there are underlying structures and rules that govern the behavior of the system.
    While chaos theory and geometry cannot predict the future with absolute certainty due to their sensitivity to initial conditions, they can help us understand the underlying principles and patterns that drive complex systems. For example, weather forecasting uses chaotic models to predict short-term weather patterns, and in physics, chaos theory can explain phenomena in fluid dynamics, planetary orbits, and even some aspects of biological systems.
    However, when it comes to long-term predictions, chaos theory shows that even small errors in measurement can compound and lead to unpredictable outcomes, limiting our ability to make precise forecasts over extended periods. Geometry can aid in visualizing and interpreting these chaotic behaviors, helping scientists identify recurring patterns and the geometric properties that underpin complex phenomena.
    In essence, while chaos theory and geometry don't provide us with crystal-clear predictions of how the world will behave in the future, they allow us to gain a deeper understanding of the rules and structures that govern complex systems. This knowledge can lead to better models and strategies for dealing with unpredictable phenomena in fields like meteorology, ecology, economics, and more, offering insights that help us navigate the uncertainties of our world.

  • @Anakin512
    @Anakin512 Рік тому +22

    I believe that this idea (particularly), of Chaos Theory being able to link General Relativity, and Quantum Physics is truly fascinating!

    • @schmetterling4477
      @schmetterling4477 Рік тому +2

      It's also completely wrong. ;-)

    • @RRonco
      @RRonco Рік тому +3

      The math doesn't pencil

    • @manahil558
      @manahil558 Рік тому

      ​@@schmetterling4477Elaborate please?

    • @hanzohasashi3788
      @hanzohasashi3788 Рік тому +3

      How can you say that with absolute certainty ?

    • @schmetterling4477
      @schmetterling4477 Рік тому +1

      @@hanzohasashi3788 He pulled it out of his own rear.

  • @TomiTapio
    @TomiTapio Рік тому +7

    Pants with hue, saturation, value(brightness), reflectivity, porousness, cotton-ness, vinyl-ness, width, length, elastic band tightness, total volume of pockets 0 to 100...and how much sound they make.

    • @AB-wf8ek
      @AB-wf8ek Рік тому +3

      Correct. I work in 3D animation, and at a certain point you realize anything can be parameterized, in essence each parameter is a dimension.
      Points of an object can be defined in XYZ space, which is the 3D we're familiar with, but a point can also contain color data, velocity, spin, etc.
      Color itself can be separated into many different dimensions depending on how you want to define it. It can be RGB, CMYK, LAB, etc.
      There are many dimensions within dimensions.

  • @patriciajob7829
    @patriciajob7829 Рік тому +1

    Thank you for the lecture and the sharing. At 62, I still learn things and as you are "pedagogue" (in french) you make it easyer to understand and keep me interesting. Thank you so much ! Look forward to watch another one.

  • @BlergleslinkVettermoo
    @BlergleslinkVettermoo 4 місяці тому +4

    Great lecture, but Palmer may have been in error about a point of history: it wasn't Newton but Kepler who discovered that planetary orbits are elliptical.

  • @AlexanderKoryagin
    @AlexanderKoryagin Рік тому +30

    Thank you very much for an inspiring lecture, Dr. Palmer!

  • @IvanMorenoPlus
    @IvanMorenoPlus Рік тому +9

    The universe as a chaotic system evolving into a fractal attractor is indeed a great idea!

  • @SaveSoilSaveSoil
    @SaveSoilSaveSoil 6 місяців тому +1

    The gravity demonstration is beautiful! Thank you!

  • @thewiseturtle
    @thewiseturtle Рік тому +10

    Yes, big picture thinking! My idea is that reality is all possible combinations, with each pattern being a single awareness (timeline), so each of us is an individual universe unto ourselves, while also branching and interconnecting with one another in an expanded Pascal's triangle (Galton board) type fabric. It's deterministic randomness (pure entropy), and definitely fractal. I shared this idea with Stephen Wolfram and he ran with it as his recent new physics model.
    One thing to note is that because there is BOTH branching and reconnecting (see: a family tree where babies are produced and then grow up to mate with one another from nearby lineages) there is BOTH expansion of the number of individuals/universes in the whole multiverse, and there is contraction of those things into the larger volume. This is the fractal ability to fully contain a fixed amount of matter~energy that never gets destroyed nor added to while also adding more and more stuff infinitely into the future. This explains why we keep finding smaller and smaller "smallest parts" of the universe. It's not because we're just "better" at looking closely, but because reality is fractal, so the closer we look, the smaller the "smallest part" we can observe literally is. But ultimately there is no smallest part. Reality is expanding into the details or fractions of space~time, just like how we can zoom into the mandlebrot set and continue seeing infinitely new patterns.
    So, rather than increasing entropy leading to some sort of boring (low entropy) "heat death", at least on a multiversal level, it leads to infinite life, expanding in complexity, creativity, and effectiveness at finding better and better collaborators to procreate with, genetically and memetically and whatever -etically there might be. The "heat death" is just local death of individuals physically dividing up. But those parts go on to continue to make ever more interesting sets of new individuals Entropy and a fractal reality of deterministic randomness means that there's no real death for any of the matter and energy of reality, only infinite natural selection and random mutation of patterns of all types.

  • @Tom-sp3gy
    @Tom-sp3gy Рік тому +6

    1.5 X Speed sounds best for this lecture

  • @sgramstrup
    @sgramstrup Рік тому +4

    Not a math dude, but it should be possible to influence a system in state space to control the direction of the system, so we could perhaps learn to control even extremely complicated chaotic systems by detecting, observing and nudging the system in state space.

    • @isaacaraya3848
      @isaacaraya3848 Рік тому +2

      100% right man. If you're interested in any medical applications of this cool idea check out Michael Levin's work on bioelectric signals and directed cell growth. He's at Tufts and was one of the guys that created the self replicating xenobots in the news a while ago

  • @JamesGibson-p1m
    @JamesGibson-p1m Місяць тому

    Absolutely outstanding - thank you.

  • @johnlewis5330
    @johnlewis5330 2 місяці тому

    What an amazing lecture.

  • @0.618-0
    @0.618-0 Рік тому +11

    Brilliant lecture. Faraday "like" in discourse.Upto date and cutting edge Physics concepts presented in a typically Oxford educated manner. Well done doesn't seem to accolade. Thankyou.

    • @michaelc3977
      @michaelc3977 10 місяців тому

      A tedious comment which you struggled to write.

    • @michaelc3977
      @michaelc3977 10 місяців тому

      @@0.618-0 Always fun reading the strawman arguments people resort to when they feel belittled. Do better.

  • @guitarboogieboogie
    @guitarboogieboogie Рік тому +9

    I think it may have been Johannes Kepler responsibr describing elipses of planetary motion.

  • @savage22bolt32
    @savage22bolt32 Рік тому +2

    Wow, The beautiful desk is back!

  • @isaacaraya3848
    @isaacaraya3848 Рік тому +6

    Great talk! So much to think about here. The connection with P-adic numbers was fascinating. Have you considered where something like the reiman-zeta function or the central limit theorem, which are both intimately related to primes and large scales of reference, might be connected to something like chaos theory?

  • @notsoaverage_d
    @notsoaverage_d Рік тому +9

    Always great content on here glad I found this page!!!❤

  • @omozafar
    @omozafar Рік тому +1

    I really loved the talk. Thanks!

  • @Peter_Telling
    @Peter_Telling 6 місяців тому

    Thanks!

  • @Peoples_Republic_of_Cotati
    @Peoples_Republic_of_Cotati Рік тому +2

    I prefer to explain the difference between weather and climate as the difference between predicting dice rolls vs the how likely a die combo roll is. ie Roll 1d6= >17% of 1-6. For 2d6 2s and 12s are unlikely and 7s are more likely but less than 50% likely.

  • @klyanadkmorr
    @klyanadkmorr 8 місяців тому +1

    ITA kinda been guessing that just learning abt Fractal math and how it could be used to represent physics chemistry. Spooky action at a distance is that all our perceived reality matter is underlying connected in subspace effecting each other through emergent forces energy

  • @PetraKann
    @PetraKann Рік тому +6

    6:15
    It was Kepler, not Newton, who discovered the elliptical orbit of a planet (Mars).
    In 1609 he published Astronomia Nova, delineating his discoveries, which are now called Kepler's first two laws of planetary motion.

    • @0.618-0
      @0.618-0 Рік тому +2

      Tycho Brahe Danish Astronomer 1542 1601 who recorded the planetary orbits and gave this data to Kepler. Kepler then used it to work out Kepler's laws. Which after analysis of Kepler's laws then Newton discovered the Calculus..also I suspect this focused Newton's intellect on Gsluleo and Gravity.....Newton.1642 1727

    • @PetraKann
      @PetraKann Рік тому +4

      @@0.618-0 True. Tycho Brahe was meticulous in how he collated his astronomical measurements and data. He didn't see or was concerned with the elliptical patterns in the planetary orbits.
      You can also go back to the ancient Greek Astronomers - although they didn't use ellipses to describe the orbits of the 5 planets they knew about, they were aware that these orbits were not precise circular orbits. The AntiKythera Mechanism which is the worlds first known analog computer used epi-circles and other techniques to compensate for these non-circular orbits.
      In reality the orbits of most planets in our Solar System are very close to circular, with eccentricities of near zero. The eccentricity of the Earth's orbit is about 0.0167 for example. Mercury has the most eccentric orbit of any planet in our solar system (~0.2)
      Newton was co-inventor of Calculus.
      We must never forget the great Gottfried Wilhelm Leibniz.

    • @0.618-0
      @0.618-0 Рік тому

      yes indeed.

  • @homer1273
    @homer1273 Рік тому +4

    This lecture was very chaotic

  • @frixyg2050
    @frixyg2050 Рік тому +3

    I think my stumbling block is, what do the three variables represent in the Lorentz state space? Why did Lorentz' state space have three dimensions, and where did the relationships between them (described/defined by the three equations at 15:49 ) come from? (The decision to gloss over this part to move onto the broader point was probably a wise one, but now I'd like to learn more.)

    • @rogerforsman5064
      @rogerforsman5064 Рік тому +4

      Lorenz was a mathematician and meteorologist so X,Y, Z are Thermodynamical states. X is proportional to the rate of convection, Y to the horizontal temperature variation, and Z to the vertical temperature variation. The equation are (if i remember correct ) a simplified weather system.

    • @frixyg2050
      @frixyg2050 Рік тому +2

      @@rogerforsman5064, Thank you, that does make sense. So I guess my next question is, why would the same "butterfly" shape show up in state spaces relevant to the Bell experiment? Is Thermodynamics even in play at the quantum level?

    • @rogerforsman5064
      @rogerforsman5064 Рік тому

      @@frixyg2050 Look up Statistical Mechanics

    • @aasthashukla7423
      @aasthashukla7423 Рік тому +2

      @@frixyg2050 Chaos theory( aka butterfly effect) is seen in nature in lot of systems as described in slides e.g. weather, economics, even society as a whole is a Chaotic system. As to why Tim showed butterfly for bell experiment here that he is hypothesizing that universe itself is a chaotic system which can have it's own attractor(butterfly shape) and by putting points on the attractor he is trying to explain why we see those non local correlations between particles it's not because universe is non locally real aka non deterministic as it popularly believed by physicists but can because particles on Monday, tuesday so on are on different lines(contractual worlds) on the attractor meaning different initial conditions leading to non computable (NOT non deterministic) outcomes.

  • @kaberibhattacharya6354
    @kaberibhattacharya6354 Рік тому +2

    This was fascinating!

  • @kathyorourke9273
    @kathyorourke9273 Рік тому +1

    I’m amazed at how accurate the weather forecasting has become here in the NW of the US. All the weather comes in off the Pacific Ocean. Very changeable. Used to be 50/50. Now much better. Better understanding of chaos?

  • @frun
    @frun Рік тому +1

    What is the reason for the difference in statistics between classical and quantum cases? (2 vs > 2) 48:33 I mean, why are experimenters somehow limited in their measurement choices in the quantum case, but not in the classical? A measurement outcome clearly depends on the past light cone in both cases.

    • @williambranch4283
      @williambranch4283 Рік тому

      Classical vs quantum light cone ... quantum optics is higher up.

  • @gaiustesla9324
    @gaiustesla9324 Рік тому +2

    starting from the quantum scale it is impossible to predict the future due to all prior interactions lead to the next set of possibilities and its never repeating. To make it repeat you'd have to set up every single quanta as it was to make the "same" thing happen again.

    • @frun
      @frun Рік тому

      What matters is past light cone.

  • @theflint7692
    @theflint7692 Рік тому +1

    Cantor's set is a shuffle.? (taking triplets (three notes divided over the duration of one beat) and not playing the second triplet. 1(rest) 3, 1(rest) 3..)

  • @wktodd
    @wktodd Рік тому +1

    58:14 I wonder if the simulation would have been different, perhaps less dramatic, if the floating point approximation was better - higher resolution ?

    • @jpdemer5
      @jpdemer5 Рік тому

      The more precisely you can locate the starting points of the masses, the longer you can make the "stable" orbits last. But you can't avoid the chaotic result - even a difference in the 30th decimal place will eventually manifest itself, although you might get bored waiting for it. Eventually, the Planck length puts a limit on your ability to make finer and finer tweaks to the starting configuration. (Does that "connect" chaos and quantum physics? 🤔)
      ETA: Mathematically, there are stable solutions to the 3-body problem, but no solutions for 4 bodies. Google "3-body problem" + "figure 8" if you want to go down that particular rabbit hole.

  • @mandem7177
    @mandem7177 5 місяців тому

    Really good, I like them deep and this is DEEP

  • @ryangraffius1474
    @ryangraffius1474 3 місяці тому

    It’s a mid/side geometric transformation from 2D to 4D. No 3D interaction. We use this in audio for printing vinyl records.
    The needle will skip out of the ‘sides’ if there is too much Low End. The Low end is moved into the ‘depth’.
    Not unlike magnetic dipole, the ‘sides’ are stereophonic and the mid remains monophonic
    X+Y = M. correlated information
    X-Y= S. Uncorrelated information
    This becomes the bell curve of mid/side probabilities.
    S + M +(-)S as dual’ correlated pathways.
    fractal form. (As above, So below)
    As a convention (like the direction electrical current travels) we have to choose…
    Inside out to outside in (3D) or (4D)
    Outside in to inside out (4D) or (3D)
    Which one we choose alters the use case of the fractal geometry.
    And thus, we begin to understand the ‘musical’ organizational principle of the cosmology. Because it is scalular (not scalar) in nature.

    • @ryangraffius1474
      @ryangraffius1474 3 місяці тому

      Not unlike a Shakespearean Sonnet, 1/phi. Or phi/1 is determinative of harmonic separation.
      It’s a rocking motion, plank scale. And depending on which ‘side’ we are traveling (to or from) we get different harmonic separation. And we cannot move without affecting both paths of correlation. (Because there are dual correlated path ways).
      This is why we perceive the dual paths as monophonic.
      Therefore, we do not have a ‘direct’ 4D perspective we only the impression of or an ‘indirect’ perspective on 4D.
      Because there is no ‘space’ stored energetically in a dimensional version of the past as it defies conservation of energy.
      Instead, there are spatial ‘sides’ and mids. And the here and now is constantly transforming from stereographic (rotation) into mid/side and back again to maintain the illusion of electrical paradox.

    • @ryangraffius1474
      @ryangraffius1474 3 місяці тому

      We are constantly measuring/calculating things in 2D from the ‘side’, so we do not ‘see’ the change in stereo PAN LAW.
      We are not measuring the change in ‘depth’ between the Mid and the sides. Because in a dual correlated system the ‘volume’ or magnitude of the mid and side can change independently between the two without changing the FRACTAL relationship because the fractal Does not care about ‘SIZE’ or depth, but Harmonics DO.
      All this to suggest that Polarization is the result of being able to ‘HEAR’ the difference, either by lower the mids or elevating the ‘sides’.

    • @ryangraffius1474
      @ryangraffius1474 3 місяці тому

      What determines stereo pan law?
      Balance, asymmetric balance.

  • @bowbassist
    @bowbassist Рік тому

    At 49:50, would the second terms be wrt B in the equation at the bottom? I guess, it's a typo

  • @user-qw6fv6rw8x
    @user-qw6fv6rw8x Рік тому +1

    This is fascinating because I was thinking about time travel or teleportation would function as a concept and how quantum entanglement is the cosmos way of helping with the math

  • @AquaTerraSys
    @AquaTerraSys Рік тому

    Is memory a projection of 4 dimension space for t

  • @dosesandmimoses
    @dosesandmimoses Рік тому

    I enjoyed this lecture!

  • @eonasjohn
    @eonasjohn Рік тому +1

    Thank you for the video.

  • @tomstrum6259
    @tomstrum6259 Рік тому

    Hear his words & see his Illustrations, butthis theory & ideas dramatically Divide the "Knowledgeable" & everyday mind populations......Old school here & just can't comprehend dependability & usefulness of a "Chaos" state....

  • @euclidofalexandria3786
    @euclidofalexandria3786 11 місяців тому

    Energy as plasma has five fundamental nodes, it can be stored compressed in a fractal space when space is deformed...there are sets of geometries for classes of archaic black holes, they could be dark matter. once an event occurs, they might exlode... or explode and persist...

  • @nickjohnson410
    @nickjohnson410 Рік тому +2

    As Above
    So Below

  • @ddtt1398
    @ddtt1398 9 місяців тому

    A measurement involves a phase transition where the macroscopic pointer variable of the apparatus goes from the initial metastable state to one of the stable states. Not doing an experiment means that nothing happens. Counterfactuals do not make sense. Getting the whole universe in the argumenting, means that they don't have any clue.

  • @Jszar
    @Jszar 10 місяців тому

    RI talks usually have clear, crisp audio, even when the recording is quite old. Unfortunately, they seem to have been having trouble this time around. I found that the background crackle and muddiness made it very difficult to figure out what the speaker was saying. (That said, I have known audio processing issues.)

  • @ClassicRiki
    @ClassicRiki Рік тому

    14:23 I feel like you could actually have X=TrouserLength, Y=ColourSpectrum, Z=Width and one could denote and visualise even, the particular ratio of, say Cotton:Polyester by creating a second X and Y Axis (call them X1, X2 and Y1, Y2). - By plotting the first 3 parameters using the X1, Y1 and Z Axis; this would result in the graph he displayed. However you could then use X2 and Y2 to plot the Cotton:Polyester ratio. One could then take the first plot point (P1) and then use the second plot point (P2); for simplicity let’s say the graph starts at X=0, Y=0 and Z=0. You then graph a curved line from 0 on all Axis’s to P2 and from P2 to P1. The Z Axis would remain as Z=0 for P2. I Posit that the graph which I have (hopefully clearly) outlined would allow one to successfully create the graph which he said you can’t do, would in fact allow us to graph 4 parameters and graph them. I personally think that he is conflating the idea of Axis’s with Dimensions. Can somebody who is a Mathematician, Physicist or I suppose anyone who knows these things better than myself (I have studied these topics out of curiosity, but I don’t have a degree or care for one quite honestly; I simply love to understand) please give me your thoughts on my suggestion. I would love to know if you agree and if not; why do you disagree or why am I mistaken? I’d really appreciate it. Thank you 🙏🏻
    P.S - He has rather masterfully demonstrated Chaos by the very nature of this presentation itself.

    • @Duiker36
      @Duiker36 Рік тому

      I mean, he's wrong in the sense that we technically do have visualizations of hypercubes (4d surfaces). The problem isn't that it's impossible, but that you lose an immense amount of information. Even plotting 3 dimensions on a flat, 2d screen, you lose a lot of information. Imagine how much you're not seeing because it's going from 4d to 2d.

  • @robertgituhu9975
    @robertgituhu9975 Рік тому +1

    Great lecture

  • @auntiecarol
    @auntiecarol Рік тому +3

    Two words: "computational irreducibility".

    • @barlobarlo303
      @barlobarlo303 Рік тому +1

      Dr. Wolfram could not have said it better! I could hear him whispering in my ear...

  • @ulfbistrom1569
    @ulfbistrom1569 Рік тому

    Nice talk, but why has the Bells formula a negative sign "on thursday"? ie c1+ c2+c3-c4?

  • @eugen-m
    @eugen-m Рік тому +39

    Emmy Noether ❤❤❤

    • @TheMemesofDestruction
      @TheMemesofDestruction Рік тому +2

      The Mother of Cosmology. ☮️ ❤️ ^.^

    • @eugen-m
      @eugen-m Рік тому +6

      @@TheMemesofDestruction the mother of symmetry☺☺☺

    • @ThatisnotHair
      @ThatisnotHair Рік тому +3

      Mother of my babies

    • @kaltkalt2083
      @kaltkalt2083 Рік тому +2

      What if it had been a guy named Edward Noether? Would you still care?

    • @user-pk5rc4or2w
      @user-pk5rc4or2w 9 місяців тому

      Modern Álgebra mam

  • @jpdemer5
    @jpdemer5 Рік тому +1

    Watching the 4-body system blow up makes me wonder how stable the solar system is! Obviously the planets get more than five trips around the sun, but if we waited ten or twenty billion years (longer than the sun will actually last), would one of the smaller planets eventually be ejected?

    • @philipm3173
      @philipm3173 Рік тому +1

      Perturbation is very difficult to predict but it is practically certain, especially as the sun changes density over time.

    • @Duiker36
      @Duiker36 Рік тому

      I mean, that's basically what comets are.

    • @jpdemer5
      @jpdemer5 Рік тому

      ​@@Duiker36 This is how comets get yanked out of the Oort cloud in the first place.

  • @sylvan186
    @sylvan186 7 місяців тому

    Many thoughts arising from this!

  • @theultimatereductionist7592
    @theultimatereductionist7592 Рік тому +2

    Gets to the VERY RARELY MENTIONED ASSUMPTION until 51:58. COULD have and SHOULD have stated it RIGHT AT THE BEGINNING.

  • @لالهوةإلالهوتي

    15:00 could you give an example how these equations apply to a real world system?

    • @frun
      @frun Рік тому +1

      Yes. X, Y, Z usually stand for things like humidity, temperature, etc. They evolve according to the equations.

  • @daveac
    @daveac Рік тому +1

    Enjoyed the lecture - however I didn't get the Bell experiment results part (at about the 46 minute mark) I thought that entanglement would mean (like he mentioned with the Red and Blue balls earlier in the talk) that if 0 (or one type of spin) was at the first experimenter - the other could be predicted to be the other ie. 1 (a opposite spin) ?

    • @craigfletcher9939
      @craigfletcher9939 5 місяців тому

      This was the least well described part of his talk. But there are two things to keep in mind.
      1. It's a big bunch (ensemble) of particles coming at each detector and Bob and Alice don't talk to each other, so they can't tell each other "I just saw an '1' so you should have detected a '0'. They simply record what they measure, and after the experiment is finished the correlations are calculated.
      2. Each detector only detects either a '1' or a '0' particle, depending on which detector they chose that day determines which particles they see.
      This is my understanding, perhaps wrong, but it would be good to get better explanation. I think Sabine Hossenfelder has good explanations on youtube.

  • @Czeckie
    @Czeckie 6 місяців тому

    im not sure I buy it, but it's definitely an interesting and creative idea

  • @calwerz
    @calwerz Рік тому +6

    This is the guy Sabine collaborated with on the Covid song! 🎉

    • @Thomas-gk42
      @Thomas-gk42 Рік тому +3

      Right, and he is with her about superdeterminism.😊

  • @kuukeli
    @kuukeli Рік тому

    thank you for the video

  • @PhilCallis
    @PhilCallis 2 місяці тому

    A cosmological fractal attractor would seem like a huge ask if the alternative wasn’t a multiverse

  • @tokajileo5928
    @tokajileo5928 Рік тому +7

    this was a very interesting lecture ! I think fractals are also the key to solve the Riemann hypotesis

    • @jw2965
      @jw2965 Рік тому

      Why do you think that ?

    • @paulhofmann3798
      @paulhofmann3798 Рік тому

      There is no connection between fractals and Riemann hypothesis. Don’t get carried way by name dropping done during this talk a lot of it is totally random no pun intended.

    • @olbluelips
      @olbluelips Рік тому

      ​@@paulhofmann3798 ​ Maybe OP was just name-dropping fractals and the Riemann hypothesis because they're popular math topics, but your comment reads as silly and condescending to anyone with even a passing passion for math. Since when are functions (and hypotheses about functions) unrelated to fractals and dynamic systems? Claiming that two things in math are unconnected is just a strange thing to do.
      It took me LESS than a minute to find a paper expressing the relations between the zeta function and fractals. Google "Fractal Geography of the Riemann Zeta and Related Functions Chris King"

  • @MasterMLG07
    @MasterMLG07 Рік тому

    So either nature/the universe is ordered to what we can only define as chaos, or there is simply no necessary order to the universe and there is only chaos... OR, there's a supernatural state of existence which interacts with and within the natural world, space-time, causality, whatever you like.

  • @BiswajitBhattacharjee-up8vv
    @BiswajitBhattacharjee-up8vv 9 місяців тому

    Geometry of Chaos at first sight appear a repeated module or a pattern. Lorenz attacter make the predictive pattern. Bell's theorem and a pattern in correlation naturally bring the subject towards future of physics. Uniform field near earth or heavenly body always sense a charge of G .
    G is geometry of chaos or stochastic or a pattern in randomness. A riddle that flipped between Einstein and Newton now need a third leap like third reference or party of Bell's.
    A quality lecturer makes me satisfied with few new results into gravity .
    Sir Penrose namaste from me to all of you
    & 2020.

  • @ophthojooeileyecirclehisha4917

    thank you

  • @donpeters9534
    @donpeters9534 Рік тому +1

    Bohr was not Einstein's advocate. He was his adversary..

  • @hanzohasashi3788
    @hanzohasashi3788 Рік тому

    I loved it. I study chaos all the time

  • @rossmeldrum3346
    @rossmeldrum3346 Рік тому

    "behold I say unto you, that by small and simple things are great things brought to pass; and small means in many instances doth confound the wise." Alma 37:6

  • @Robinson8491
    @Robinson8491 Рік тому

    Relativity and unitarity (Everett interpretation) doesn't forbid it, they are deterministic. Sweet. Wonder about his view on quantum mechanics now though to see if he's consistent...

  • @vheverett
    @vheverett Рік тому

    Wow mind blowing didnt mention Bell's entanglement coming to 2.41

  • @varunahlawat9013
    @varunahlawat9013 Рік тому

    How crazy Simant Dubey must be to relate the fractal geometry with computably unprovable conjectures!

  • @hopecase5105
    @hopecase5105 Рік тому

    At the end he suggests that measurements result from the “geometry as a whole”. This sure sounds like the “spooky action at a distance” (non-locality) that he rejects at the start.

  • @runerocker3194
    @runerocker3194 Рік тому

    This presentations was all over the place. As someone who has little to do with this field I found it really hard to follow. Maybe I just got way too used to how easy the usual RI presentation are to follow.

  • @andycordy5190
    @andycordy5190 Рік тому

    As attractive as order has been for human development, including our current understanding, thus far, of the universe, it appears that the greater our reliance on systems of order the more vulnerable we become to random interference.

    • @lancewalker2595
      @lancewalker2595 Рік тому +2

      That's because we've mistaken systems of dis-order for system of order.

  • @nunomaroco583
    @nunomaroco583 Рік тому

    Amazing good luck whit your theory.

  • @jamielacourse7578
    @jamielacourse7578 9 днів тому

    Finally.....something to watch that isn't insulting to the intelligence.

  • @muhammadsulaiman1361
    @muhammadsulaiman1361 Рік тому +1

    Things are very much hidden in geometric

  • @neelroy2918
    @neelroy2918 Рік тому

    I like both the ideas presented in the lecture.
    Spooky action in distance and one of tbe strong view point to explaining orr rather refusal to explanation is to accept it as it is. For thise who are either not interested in physics or dont have means to understand it, it leads to mysticism and metaphysical (which ends in out of date concept of religion and all that comes with it).
    The "big picture" idea can truly revolutionize lot of fiels, human immune system understanding for example where it is quitr very well understood why a particular cell "behaves" in one manner but not when they are more than few.
    Really great talk.

  • @-dennis3755
    @-dennis3755 Рік тому +1

    Its fascinating how similar chaos theory appears to the language of the philosophical system of dialectical materialism. I always thought that dialectical materialism could be used to unify the modern sciences. I feel as though this smart man has gotten miles ahead of me on this idea

  • @stella_7mccarty649
    @stella_7mccarty649 Рік тому

    Totally 💯 agree

  • @yanikkunitsin1466
    @yanikkunitsin1466 Рік тому

    From the beginning wrong - bell experiment was about locality, not hidden variables

    • @0.618-0
      @0.618-0 Рік тому +2

      Bell experiment was about proving ER VS EPR. locality and hidden variables. Hidden variables may exist but the notion he was on about is that fractal sets somehow interfere with locality and Bells experiment only proove what Penrose states, that quantum mechanics is lacking an insight just like the one GR brought to Newtonian gravity....

    • @Thomas-gk42
      @Thomas-gk42 Рік тому +1

      ok, what´s your qualificaton, to prove a professor of math and Nobel-winner wrong? Bell-like tests prove locality vs. nonlocality, hidden varialbles are nessecary in a local model. They do all that under the assumption of statistical independence.

    • @yanikkunitsin1466
      @yanikkunitsin1466 Рік тому

      @@Thomas-gk42 read the experiment criteria

  • @EllyCatfox
    @EllyCatfox Рік тому

    Thank you, nya.

  • @billdomb
    @billdomb Рік тому

    ever define 'attractor'?

  • @paschalcharles6097
    @paschalcharles6097 Рік тому

    There is no something chaos, it is consciousness that chaos and order

  • @aakashbhardwaj7481
    @aakashbhardwaj7481 Рік тому +1

    Very happy to see indian 2:42

  • @zeroonetime
    @zeroonetime 10 місяців тому

    Infinity Squared I.S. 010 Geometric Chaos.

  • @anmolagrawal5358
    @anmolagrawal5358 Рік тому

    14:35 Finally got his first laugh out of the audience. I was honestly feeling bad for him because there had been no response before this

  • @Rick-em8bm
    @Rick-em8bm Рік тому

    YAY!!!!!!!!!

  • @whirledpeas3477
    @whirledpeas3477 Рік тому +1

    Reminded me of the butterfly effect. The effect, not the movie, books etc.

    • @frun
      @frun Рік тому +1

      The butterfly effect is the illustration of chaos.

  • @444haluk
    @444haluk Рік тому

    Lol nobody thinks diffusion is a "spooky action at a distance", yet, according to how you define "information" in the good ol' diffusion, you get infinite speeds (since diffusion is linear, it looks like every point affects every other points at a distance, but the truth is the "would-be information that about to come in the future" is already constructed in the locality by the previous local interactions). Hence Einstein is right.

  • @markwrede8878
    @markwrede8878 Рік тому

    Chaos hosts patterns too broad to perceive, but may be found with my collection of novel primes in an Excel file called The Box, containing the first 150 elements.

  • @frun
    @frun Рік тому

    True, quantum fields evolve superdeterministically. Moreover, all fields are *effective*.

  • @EdT.-xt6yv
    @EdT.-xt6yv 11 місяців тому

    27:20

  • @deadscenerecords
    @deadscenerecords Рік тому +8

    That statement from Penrose shown in the slide was exactly what I was thinking, prior to that point in the talk. Penrose phrased it eloquently.

    • @roberto4898
      @roberto4898 Рік тому +1

      Is it eloquent because it reflects yourself?

    • @deadscenerecords
      @deadscenerecords Рік тому +2

      @@roberto4898 No, it is eloquent compared to the way it had formed in my mind; however the gist was the same. Let's just say that Penrose was more succinct.

  • @JosephKings-j9f
    @JosephKings-j9f 10 місяців тому

    making maths boring is a sin, but interesting stuff here.

  • @PaulSmith-pi4om
    @PaulSmith-pi4om Рік тому +1

    Hari Seldon came up with this 500 years from now.

  • @jimjackson4256
    @jimjackson4256 Рік тому

    So if gravity is chaotic why don’t we see satellites and planets flying off in all directions?

    • @jacekkow119
      @jacekkow119 Рік тому

      For the same reason we do not see air blowing in all direction inside a closed space, despite Brownian motion is a fact.

  • @plugplagiate1564
    @plugplagiate1564 Рік тому

    surely chaos theory and geometry can predict, but we are not interested in prediction any more. we need solutions.