I think it is high time someone produces

(1) a "stuck-in-the-box" index for all the dogmatic idiots of the scientific world

and

(2) computes the so-called "crackpot indices" of Kepler, Newton, and Einstein.

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  • Post #49

Jonathan and Rick

Just to clarify. In my model the S3 of space is *not* a subspace of S7 but the two S3 and S7 form a 10 dimensional product space. This can either be viewed as a torus - if we pick the S1 fibre from the S3 - with an S7 cross-section, or a sphere - if we pick out the S2 base-space of S3 - which has a S7 surface cross-section. The absolutely critical element of my model is that there is a twist in the S7 cross-section in going around the S3 (like a higher dimensional mobius strip or twisted torus) - this is the electroweak vacuum and it picks out the sub-spheres of S7, but in a way that mixes S7 with the S3 spin space. In my model, this gives the reason for why the electroweak charges of the particles are chiral. This is also why my results with a 10 dimensional product space are *not* actually in disagreement with the S7 of Joy's correlation results. Spin (space S3) is correlated with isospin (space S3) and hypercharge (space S1) which are sub-spaces of S7, but colour charges are independent and not correlated with the other observables.

So my model says that viewing S7 as all of space - as Joy and Rick do - will work for spins and electroweak charges - which are correlated in particle physics - but that leaves the colour space unaccounted for. Joy's correlation results imply the *independent* colour space would be S3 (as S7 isn't a group space). The twist in my model of a physical gauge space S7 in going around the space of a closed S3 universe has the peculiar effect of switching S3 spaces in the *measurement* space - the S3 spin space is swicthed for the S3 colour space. The linkage of the subspaces is all important - as is the distinction between physical spaces and measurement spaces - and just how 'the orderliness of the octonions' actually does the rescuing is the piece of the puzzle I'm looking for.

Michael

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  • Post #50

Ahahahah and they insist furthermore.You are not real christians. Me yes.Don't try with things that you do not understand.

How can you converge if you have not understood the reall message.It seems not possible. In fact your goodband is just a team without real innovations. A goodband, yes of course, a goodband of businessmen yes. And you try with bad strategies.Like poor thinkers frustrated and jealous and envious and full of hate. My universal love will eat your hate. Dead or alive, I will continue. even a gun on my head, I will continue.

You know ; kill me , it is better you know and more quick for your strategy.

Aahahah I am crazy, I have god with me , Jesus Christ also is with me and Buddah. You want really to try with the faith. Let me laugh band of bad men.

Irritating that I forgive you all no?You would in fact that I discriminate people and country. Let me laugh, I love more than you the USA. the United States of the Sphere you know. No? don't worry you shall understand on the entropical arrow of times. I love USA !

A goodband, yes of course.a good band for monney yes.

Regards

Michael,

I found it interesting that you say, "Joy's encountered 'difficulties' trying to explain the simpler topological structure of S3; trying to do the same for S7 is likely to be a lot more difficult."

I see it as just the opposite -- S^7 is easier to understand than S^3, and S^n, n > 7 is easier still. Maybe this is the difference between having the knowledge of particle physics that y'all possess and that I lack.

The properties of simple connectedness and the orientability inherent in topological analysis give me comprehension of Joy's framework without invoking any specific struture; indeed, actually demanding a coordinate-free description of physical interaction. (I doubt I would have even been interested in Joy's research had not Perelman fortuitously proved the Poincare Conjecture for S^3.)

"A translation exercise between the two perspectives may prove to be useful in the long term as ... well, it seems S7 is it."

I see that as a limit, S^7 and O are compelled to be identical, as Joy has it. It's a perfect fit of discrete measurement outcomes with continuous measurement functions.

You guys -- Joy, Michael, Rick, Jonathan -- are, in the colorful vernacular of my generation X daughter, "the shit." :-)

Tom

Jonathan and Michael,

On O "thwarting efforts...", the problem is not with Octonion algebra. The issues you and others have voiced are all the outcome of trying to force-fit O into some other mathematical structure or approach rather than immersing oneself within the algebra and looking at the world through its perspective. This is precisely what I was getting at in my essay with "you do not get to drive", you are a passenger. You need to put trust in the fact the algebra knows they way, and let it take you there.

I posted in Roger Schlafly's essay blog a rebuttal stating the mapping from only a subset of mathematics to physical reality is surjective. Most of us can agree there is only one physical reality, and all mathematical models must make a proper accounting for what we perceive this reality to be. So we naturally look from the one physical reality to the many plausible mathematical theoretical explanations for it.

Many people pick one of these choices and run with it. In the big scheme of things this is an optimal approach, for the collective will succeed faster by leaving no stone unturned. The uber-intelligent types with superior uptake skills often fill their pumpkin heads with so much stuff they overreach their capacity to sort through it all, their intelligence becomes an obstacle to achieving more than an understanding of the status-quo. The rest of us that *must* cut loose of alternatives by specializing in only a subset of plausible mathematical approaches perhaps have a better chance for advancing understanding. So while the collective is optimized, the individual is not completely from the risk position. The plausible choices are not all assured of leading to a complete description of physical reality, and we will not know which do and which do not until we get there. Several choices may end up being true to reality but some of these may require a deeper understanding a priori for us to appreciate it. This is to say they are not optimal paths for working things out, but provide a deeper perspective in the after-glow of achieved knowledge.

There are several examples of true but difficult paths. My number one is Lagrangian methods. I have no doubt once we know the destination to be described by an Euler-Lagrange equation, a suitable Lagrangian will be possible. I just can't see the process at this point of being more than a successive guess approach, for it provides little guidance. Another is the Standard Model. I can't see it showing the way without something more down to earth providing some assistance. I assume this assistance will be mutual.

Me, I am somewhat risk-adverse. I want the method to tell me how it is. I do not want to tinker with things to mold it into my personal belief on how reality should look like for I understand my beliefs will be imprecise. The *fun* is restored when you come to a fundamental appreciation for what O algebra is all about, and how it is fully capable of telling you how it *must be* in complete and definite terms. You may need to walk back your position on Gravitation as intrinsic curvature, on a fundamental stochastic character for nature. It just might work out that "space" is immutable; that the clay reality is sculptured from is potential functions. I am sure I alienate many readers with this position, probably minimizing my chances for success in this essay competition. So be it.

Rick

Due to the 9 page length limitation for the essay, I was unable to discus Jens Koeplinger's paper arxiv:1103.4748 on my Octonion Algebraic Invariance principle, opting instead to present in terms of my perspective using the Hadamard matrix based Iso() connection as previously discussed between us. It was an oversight on my part not to include it in the Reference section. I recommend reading his paper for additional insight.

Rick

Hi Rick,

You're leading me to understand some of the historical rivalry between analysts and algebraists that had me puzzled in the past. :-)

I just don't understand the aversion you seem to have in translating one mathematical method to another. For example, 16 degrees of octonionic freedom is identical to 16 redundant points of a Minkowski space tensor. Hestenes, with spacetime algebra, gets smoothly from the algebra to the analysis by deriving Minkowski space. If he couldn't get there, I would be prone to dismiss your arguments, because I wouldn't understand them.

I truly admire your ability to get seamlessly to your destination by letting the algebra drive, as you say. Some of us lesser mortals, however, walk on crutches, and have no chauffeur.

Tom

Hi Tom,

The history of the Quaternions is a case study in human behavior. It got a bit nasty over the latter half of the 1800's. I guess some things will never change. Quaternion Algebra was approachable for the sensibilities of the time, but Octonion Algebra was not. I think part of the problem many people have with appreciating O comes from the tedious nature of their manipulation when all you have is pencil and paper, which is all there was back then. So maybe it worked out OK for the advancements that were made in the first half of the 20th century.

We have computers today, but available software like Maple and Sage do an insufficient job with O in my opinion. I was fortunate to have math, physics and software development skills that enabled me to write my own symbolic algebra software, which I have modified as needed. Because of this, I have had a clear advantage over the pre-computer generations, and a lesser but still significant advantage over many of today's folks. I appreciate the challenges people have wrapping their minds around O without proper tools to play and explore. I try my best to explain things I have found, but learning by doing is very challenging for many and will be until the available tools improve.

I do not have any aversion to translating one mathematical method to another if I believe it would be important, it is more that I rarely see the utility in doing so. I feel no obligation to derive Octonion matches for much more than Electrodynamics, which I believe I have done an admirable job on. I will accept any portion of the remainder of today's less certain orthodoxy if and only if it is suggested by or copasetic with Octonion Algebra.

I get a chuckle out of hearing people insist physical reality is 4D, happily accept the use of tensors, and dump on any algebra with more than 4 dimensions. Tensors above rank 1 are algebraic structure added to overcome shortcomings. Their use is no different than formulating everything in flat higher dimension algebra. I would not go so far as saying there is equivalence between these two representations, for the flat algebra is more general. Be it simple matrix or tensor, the equivalent separate basis element for every position multiplication table will have zero entries since each position does not multiplicatively interact with every other as it can with the general algebra of same dimension. Then we have the fact that matrices are associative for multiplication but O is not. So I ask you, why should we look to the less general for all of the answers? The answers may not be describable in these restrictive structures.

Rick

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  • Post #56

Rick Lockyer wrote:

"I call The 3:4 Morph Rule."

I call 3:1 Yuri Rule

See please

http://www.fqxi.org/community/forum/topic/946

http://fqxi.org/community/forum/topic/1413

Rick, Jonathan, Joy, Michael, and Tom:

As another author observed in a comment, "It's so hard to change others minds." Obviously this is related to the investment others have made in pushing their own model of understanding.

Rick described it beautifully [12 Sep @16:36]: "Many people pick one of these choices and run with it [which is optimal because] the collective will succeed faster by leaving no stone unturned."

We are all -- on Rick's thread -- admirers of Octonions. Unfortunately [or not?] each is pushing his own cart filled with his preferred goodies.

Despite yeoman's efforts Michael Goodband and Joy Christian have failed to converge. Joy's S7 is "physical space" while Michael's S7 is "particle space", which is compactified to produce a fermionic spectrum of topological defects, and *must* be added to S3, the physical [or spin?] space for a total of 10D. Although individual love of S0, S1, S3, S7 is shared, the models do not overlap in a meaningful way.

While I appreciate Quaternions and Octonions, I do not come to my theory through either symmetry groups or topology. Instead I focus on the physical behavior of physical fields implied by Maxwell's equations [he was first to write the gravito-magnetic equations that also fall out of general relativity].

This is quite a different approach than that exemplified by Lisi's E8, which, as I see it, is to find a large mathematical structure and try to show how it contains "everything", even making up new "things" to fill empty slots in the structure.

Now because of their own models [which are incompatible with each other despite a professed love of S0, S1, S3, S7] both Joy and Michael reject my model. But it does address some of Rick's concerns. Specifically, Rick claims that Octonions fully encompass electromagnetics and gravitomagnetics.

But Michael responds [6 Sep @ 18:46] that "A solely "octionic relativity" can't include both GR and the full gauge symmetries -- not enough degrees of freedom."

To which Rick responds, "It may be that ... the Standard Model actually does have too many knobs to twist" and allows himself to be guided by his intuition [as I do].

Michael responds with a "degree of freedom count" that shows 11 conserved "charges", three of which are color charges.

To which I respond: A gravitomagnetic theory of particles does not require color charges. The dynamics of the C-field achieve the purposes for which color was *invented*: Pauli asymmetric fermionic wave-function, "famous-factor-of-3", asymptotic freedom and quark confinement, and offers a way to compute the mass spectrum. Thus in this model at least 3 degrees of freedom vanish, putting us back to 8. [There are also implications for the S7 "fermionic spectrum of topological defects" but I'll stop here at 8.]

So we all agree that Octonions are important but we all disagree about the details. At this point I believe my own model actually fits within Rick's "algebra of everything".

[I don't expect to convince anyone. In three FQXi contests I've yet to see anyone give up his own model for another! And please spare me the Bell lecture.]

Thanks for fascinating discussions.

Edwin Eugene Klingman

    Hi Edwin,

    The diversity presented by people's different view of how Octonion Algebra fits into the nature of things is completely a good thing, not at all a problem by the same "leave no stone unturned" thinking.

    I have no problem with people continuing to work on extending current thinking on relativity, quantum theory, cosmology, string theory, etc. etc. None of these have anything to do with Octonion Algebra, and each runs contrary to my own intuition on how nature is structured at its most fundamental level. I am better though with the people that are looking for "Octonion stones" to turn over, like Joy and Michael.

    Michael is coming from the standard model view much like Geoffrey Dixon. Both lean towards a tensorized increase in complexity beyond straight up Octonions because they do not see everything this perspective seems to indicate within the algebra itself. I am not confronted by this at all, for I too believe there is something within that model that rings true. I just don't think it is an on the surface of the algebra kind of thing. I think the family of solutions for potential functions within the dynamics I have laid out will show the connection.

    Good to have you back in the discussion.

    Rick

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    • Post #59

    Hi Edwin and Rick,

    I think we have some agreement on "it's so hard to change others minds". That might also be in part because it is often so hard to change our own minds with our own ideas. It took me quite a while to change my own mind about the relevance of Godel to physics and bypassing it through representational change. Joy has managed to change my mind about Bell's Theorem, but then I was in a very receptive frame of mind for such a result having independently arrived at the same conclusion about QT. Mine and Joy's work are actually compatible, to what extent is yet to be agreed. For my part having read Joy's book I see no current disagreement - there is some about future direction.

    Geoffrey Dixon and Cohl Furey consider R*C*H*O and get the Standard Model group eigenvalues for SU(3)*SU(2)*U(1), whereas I consider the physical manifold S0*S1*S3*S7 and get a colour group dispute - but QT not being fundamental. In either case, the octonion structure is likely to prove to be required reading, but we are going to want it from the particle physics perspective in order to present it to others - sorry, but it won't just be about us seeing it the "correct" octonion way.

    Michael

    Hi Michael,

    I asked Jens Koeplinger a question on his essay blog that also included you. Best to present it to you:

    "I am a bit puzzled by both you and Michael Goodband talking Octonion Algebra, S7 and a split signature (as in Minkowski metric spaces) all in the same breath. The metric for O and its subalgebras is the norm, which is positive definite all signature so O has no isotropic algebraic elements. You do not get S7 with split Octonions that are not even a division algebra. Perhaps you could explain this sentiment to me. I can see where you are coming from since it is good politics, just do not see how you are going to get to where you seem to want to go."

    In the event you are unfamiliar with split Octonions, they provide a norm with mixed signature, my guess on how a Minkowski like split signature metric space might have anything to do with Octonions of some form. Perhaps you could review the exchanges between Jens and myself and opine here.

    I liked your essay quite a bit, even though I do not think we are in agreement on some things, just as Edwin pointed out. But as I mentioned to him above, there are aspects of your work that are to be taken notice of. Hopefully you read my essay and have a sense about where I am coming from. It will take a lot for me to back away from my position that Gravitation is not intrinsic curvature when expressed in a suitable framework such as provided by Octonion Algebra; it is described by potential functions. I cannot possibly think it is mere coincidence that the proper form for Electrodynamics from potentials to conservation of energy and momentum is *mandated* by the structure of Octonion Algebra, as is the Lorentz Transformation, all by applying Ensemble Derivatives and The Law of Octonion Algebraic Invariance, and no Minkowski metric space in sight. I believe you are keen on GR, perhaps you might benefit from a change of opinion on this position. It just might be one of those "fundamental assumptions" the essay contest is all about.

    Regards,

    Rick

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    • Post #61

    Hi Rick,

    I understand the appeal of maths structure, but my physics intuition won't let me go with it. I had the same issue with super-symmetry and string theory: maybe interesting maths, but they ain't physics. I'm a physicist first, not a mathematician. For me letting go of physical reality and floating free into maths is the path to insanity - I've seen the evidence, I've read string theory papers, it leads to insanity ;-) Even GR is presented as a maths map stripped of its physical territory, which gives acceptance of "constant" in a theory about the "relative"; a cosmological "constant" just ain't physics! (rant over)

    The puzzlement referred to maybe because I came at S7 from a non-octonion direction. For me, QT not being fundamental means that the resolution of the physics conflict between GR and QFT, is that just leaves GR as fundamental. This is GR with a physical manifold; a physical surface you could notionally poke with a stick; a real physical territory; a physical reality to hold on to. The question was then: for a closed S3 universe what closed space can be mapped to S3 to give particles as topological monopoles (S0)? From the homotopy groups of spheres the answer is S7 - I never directly touched the octonions. As this scenario in GR is cyclical in time (S1), this gives the 4 spheres in the 4 normed division algebras in a metric field theory and defines the scenario to be unique - this is more than my belief in coincidence can take. I have a unique scenario that gives a realisation of Einstein's pure geometric unification of physics with GR, the correct electroweak vacuum, the correct particles and a derived QFT describing the particles. That's a lot of reality for a physicist to be holding on to - pretty maths just isn't tempting.

    Michael

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    • Post #62

    On Edwin's point about changing minds, you have had an effect on changing my mind, although the preferred phrasing is of course, refined my thinking (if not quite in the way you may have intended). Observational physics naturally divides into the world outside of hadrons, and the inner hadron world. In the outer world there is space and time with associated inner particle symmetries spin (S3) and particle/anti-particle, isospin symmetry (S3) and hypercharge symmetry (S1), but no colour symmetry, giving an 8 dimensional outer world of most observations in physics (I think this was the point that Edwin was making).

    In my case, this outer world is of a cyclical (S1) closed universe (S3) with electroweak base-space (S4) forming a product space. Here, gravity in S3 is by curvature and the particle forces of S4 by torsion, which are incompatible to be embedded in the same space. BUT in a local (vicinity) theory it may be possible to construct a torsion based view of gravity and so combine S3 and S4 into S7 to give your suggested Octonion Relativity covering the outer hadron world.

    Joy's 2 particle correlation analysis for observables in the outer hadron world could be viewed as reaching the same conclusion. In the Standard Model, the electroweak charges are chiral and so spin orientation in S3 is related to isospin orientation in its S3, and hypercharge S1. The conclusion that correlations are due to the embedding of these spaces in S7 requires a flat parallelised sphere with torsion. There are 3 spaces here (physical space, symmetry space, measurement space) and whereas I deal with the first 2, Joy effectively deals with the second 2 - so direct comparison is a bit confusing. This is made worse in my GR model by compactified physical spaces being identified with symmetry spaces (as in Kaluza-Klein theories) - the physical scale factor between the 2 is the charge coupling constant.

    In the inner hadron world there is also colour, which is not correlated with spin or the electroweak charges. This implies that Joy's correlation analysis for 2 colour observables (C, D) can be applied independently of the spin/electroweak observables (A, B) as there is no correlation between (A, B) and (C, D). The conclusion is the parallelised spheres S3 or S7, neither of which obviously squares with the Standard Model colour group SU(3). S7 isn't a group space, but S3 is - of SO(3). 2 particle correlation (the 2 quarks inside a meson) of an S3 colour space would yield S3 in Joy's analysis, whereas 3 particle correlation (a baryon) would yield the S7 result.

    For your point of view, the inner hadron world yields a second independent occurrence of an S7 measurement space, as opposed to just the one in the outer hadron world. These inner and outer S7 occurrences could have the look of being mathematically dual, but as the references of Jens say that the E8 lattice is self-dual that may be a road to nowhere.

    So you have persuaded me in principle, that in the outer hadron world it may be possible to construct a form of Octonion Relativity - which would necessarily be flat and not involve curvature - that could describe the measurement space of observables and particle symmetries. However, the spaces would not be physical spaces in the sense meant by Einstein. This would be apparent in particles having to be added by hand, and the theory not being extendable to the whole universe (that would be an invalid induction from a local vicinity theory). The corresponding physical theory for such an observational theory could of course be mine. I'm sticking with Albert on his concept of physicality and specifically a physical GR, as if I abandon this point then I would no longer consider myself a physicist.

    There are 3 different types of space (physical, symmetry, measurement) and we may be confusing between them. We (me, you, Joy, Jens, ...) may not actually be handling separate beasts, but different parts of the same elephant.

    Regards,

    Michael

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    • Post #63

    always weak and furthemore too much focus on 2D.In fact you are not competent for this play.Buy people or please increase your team because there it is too easy. I d say even that it is time that you really kill me.Because I don't understand how you can support all this teaching from me. In fact probably that you have still more hate against me.It is logic for this kind of persons. Aahahah even your strategy is weak, it is easy to find the holes and errors.ahahah a lesson, who gives a lesson to who band of comics. in all cneters of interest I eat your sciences at my breakfast.I am understanding that my arrogance increases your hate, but frankly I have pity.An advice don't speak about that inside the global sciences community.you know it exists the trues and the falses. But I understand your comportment.In fact it is logic in this time of crisis. You fear to loose investments or to be less credible.But you know it is the life. The strategists even with all the tools and with a lot of friends cannot win against he message of God.Am I Crazy? Yes , it is evident. I am insisting you know dear bad team, your only one solution is to be murders. And what ? you think what ? my universal faith is so above yours that I am laughing in fact. The revolution spherization has already began. You do not imagine the number of persons knowing my theory. and it is a begining. Alone with an old pc and without net protection.and you with your strategy of superimposings with the SOA adapted for specific selected strategists. Incredible no, even like that I give you the informations and I so optimize your quantum systems. Ahahaha I have the syndrom of the savor,I beleive that I am the elected ahahah wait I see spheres everywhere and you know what they speak me, I am not alone in my head band of comics.

    ps please the team is weak,please dear directors of this team, buy and pay others people, thay have not really good discussions with relevance.Even the entropy they do not know, even the gravitation they do not understand. Really it is frustrating to see these weak posts.You have not better competitors please ? because they repeat always the same.

    wait, they are going to invenbt a time machine to travel towards the aether. :)

    wawww impressing their maths ahahah so incredible that even God is without words ahahah wait he says me, Steve, my son, they are simply not aware of the truth, keep faith my son.....

    amen

    Regards

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    • Post #64

    ahahah weak like always, make surf really. It is cool the people making surf.ahahah me I like soccer and I play well. I am going to create a song in honor of your bad team ahahah and hop on the net.

    ahahah the poor strategists, the poor thinkers. Mr Witten , forget these pseudos, it is better for the credibility at my humble opinion. But it is just a suggestion of course.

    octonions ahahaha and surf ahahah and the toe ahahah wawww impressing the strategy, you are so strong wawwww.ahahah the maths they say. if your maths are correct , me I am the queen of England.

    Regards

    Michael,

    Our opinion on just what qualifies as "physics" and what does not seems to be pretty far apart. Too many people consider themselves to be physicists, yet divorce themselves from mathematics in a very tangible sense. Maybe denial is a better description, for it manifests itself quite often when mathematics gets in the way of their qualitative sense of how physical reality is constructed. People in this camp have usurped the title of physicist, they do not own it. We can no more remove mathematics from physics than we can cut out one's heart and expect them to continue to live. My thesis is a unification of Gravitation and Electrodynamics using potential functions. Do you really think this is not physics?

    Your position is qualitative, it is not quantitative. Believe me when I say that is quite alright, for it is important for all of us to notice and help guide us to better understanding. But it is just a guide. It presents road signs; it is not the road, the vehicle, nor the destination. The qualitative (group theoretical) aspects of the Standard Model are the only tenants that pass my intuitive test. Despite successes, the attempts at quantitative are built on a very fanciful notion of particle forces and way too many knobs to twist.

    Today's notion of "particle" only changes the question, it does not provide an answer. The "particle" may not simply go through one slit, it just might go through all slits in the grating because it has physical extent. Forces may be an entire space phenomenon, not "action at a distance" or bizarre exchanges of particles. I think you will have a tough time doing better than inverse square distance proportionality for short range nuclear forces sticking with 3D physical. I am keener on 7D inverse sixth or 6D inverse fifth.

    I wonder if all of reality is on the unit 7-sphere, with this metric how tall am I? Then I pull myself back to a more sensible reality by saying, it is actually the space an infinite number of 7-spheres may be embedded in, or may be picked for any single point to be on the surface of. Then I can appreciate S7 for its topological beauty.

    I cannot tell you your product spaces are off the mark, they may not be. I can only say it will not be where I will be looking. The connections you need may still be within Octonion Algebra potential function solutions.

    Rick

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    • Post #66

    The maths are the sister of physics.They dance together. It is time to stop confounding things. A real pity for your team.Edwin, you know what? you have not a consciousness you and your friends, so don't speak about things totally unknown.You are neither scien,tists nor generalists.Don't teach but learn dear badteam. You do not merit it !!!

    You are really not skilling, just a little for the strategy, the rest frankly Let me laugh.

    MIT wake up please , what are these pseudos ???Jonathan, change of job or make surf, I don't know me. You think what? that New york is to you or what? It is the country of the freedom dude. And what you fear for your credibility poor strategist. You are right, so kill me poor dude. But I am persuaded that you cannot make it alone. Buy people dude and pray if you have faith of course.

    Delete now Brendan , just like that I can thinking that I am not checked on this platform. ahahah ironical your strategy since the begining with the two books. Ironical.

    Regards

    • [deleted]

    • Post #67

    Rick,

    I have closed geometric formula for Planck's constant, Weinberg angle, the coupling constants - including the Higgs coupling - in terms of the fundamental constants G, c and the compactification scale. When combined with the charge eigenvalues these give quantitative values for *all* the particles known to exist - and they agree to the level of experimental error. The quantitative calculation of the particle masses is proven to encounter the issue of mathematical incompleteness. This can be by-passed by changing maths represenation because maths is not the same as physics - this change *is* the origin of Quantum Field Theory.

    My position is as quantitative as it is mathematically possible to be. The barrier to greater quantitative results is mathematical incompleteness - maths stands in the way of physics, but that maths barrier can be overcome by using experimental results. It has been said many times before, and it is still true: the map (maths) is not the territory (physics).

    Michael