What is Beyond Reckoning? by Jonathan J. Dickau

Dear Jonathan Dickau,

I was about to comment on your essay when I realized that I was not reading your essay, I was reading another of your papers, "Gravitation by condensation." I've now read the essay and have a few remarks.

You explore a large conceptual realm, and most of what you discuss cannot be proved or disproved, a point you make up front. In this regard you observe that

"Things requiring proof or explanation by one person may be intuitively obvious to another..."

I meet somewhat regularly with a physicist who is adept at proof and seems to have no intuition. It seems those who have weak intuition do not value it much. I find your Mandelbrot map an excellent metaphor for math. One can infinitely branch in any direction, but without intuition, it's just turning the crank - only intuition can drive the boat - mere calculation is endless (turning computers loose to calculate endlessly as in Mandelbrot is quite interesting, and hopefully enlightening.) You've certainly become good at making analogies and you seem to have honed your intuition in this regard. Once the data has been generated, our pattern recognition can reduce the dimensionality and discern features and regularities. For example your remark on the interplay of local symmetry and global asymmetry in M is possible only after one has produced the map. One would probably find it difficult to predict from the generating equations, but after seeing it in the data, one can probably identify relevant aspects of the equations. Also quite interesting is structure with pre-period 3 (the delay before repeating) then it repeats every time.

As we have discussed, I believe that focus on convergence and condensation is potentially extremely valuable.

You note that "the main difficulty theoretical physicists face in crafting a unifying theory of physics is that in relativity time is flexible, while in QM it is absolute." My essay will deal with this, and I think you might find it interesting.

I'm encouraged that Foundations of Physics published three papers in November 2019 analyzing the mismatch between relativity and intuition, so the topic is not dead.

And like you and Rick Lockyer, I suspect 0HCR is telling us something important, but I'm not sure what.

Best regards and good luck,

Edwin Eugene Klingman

Jonathan and Ed,

when it comes to *decidability*, it is we whom decide. So its not too off topic to address such ideas as condensation being analogous with gravitation. Its nature's way of conserving space! Where it gets interesting is conjuring up an ontology which could quantitatively account for the actual amount of energy that would behave under gravitational condensate parameters, to explain why that fraction of the total would exhibit inelastic (kinetic) properties, and another fraction exhibit inelastic (electric) properties, yet another fraction exhibiting (fluid) magnetic properties, and the last fraction exhibiting (aetherial) gravitational properties. So while we macroscopically associate polarity with angular momentum, at the discrete quantum level the uni-polar characteristic of both electron and proton might be simple fractional portion functions. The ubiquitous Neutron is said to not have a 'charge', but that may be confused with a critically ballanced fractional portion, in proportion. The same amount of energy in a more confined spherical volume would act orthogonally, 'slaying out' laterally force-wise from any of the imaginary 'plumb-lines' in a manifold of n radii.

If metaphysics is such a bad word, then why do diehard Quants treat superposition, entanglement and the other ad hoc descriptive labels as physical truths. If I choose a realistic metaphor, that's my decision. :-) jrc

This topic was perfect for you so I am glad to see a great contribution.

The fixed point ideas are excellent. There are iterative processes in the foundations of physics, such as self-reference in computation and quantisation which could be related. You show how fixed points of iterative processes live at the edge of complexity. This is very cool. It is even possible that the Mandlebrot set itself has a direct role in how this works out.

Jonathan,

Reading your essay made me a school-boy again, exploring new thinking and checking my smart phone for terms, thus coming out of retirement. You say you expect this paper to be an exciting exploration of what is possible to know, and what is beyond reckoning. I can relate to that, but being an idealist, I believe that eventually, given enhanced cognition and superior tools, our descendants can perhaps decipher all. After all, on the Kardashev scale, our civilization's level of technological advancement is 0.

I must admit, your argument is quite persuasive, and most likely, we will be in the dustbin of history well before any Type III civilization achievement. But we must stretch ourselves in argument just as I did in reading your excellent essay.

Your Mandelbrot Set affords a good abstract fractal in the physical and abstract reality forum in which we argue the 3Us. Also important for chaos theory, an element I note in my essay, its edging showing a self-similarity, not perfect because of deformations.

It is true that we cannot hope to get near the Planck scale, using current type 0 technology, but what about the technology of a Type II or III civilization which our current bone-headed civilization will probably not reach? As Shakespeare might say, "That is the rub."

But I do agree that the sheer volume of collected LHC data is a barrier to knowledge, especially if we are trying to settle the case between competing theories only. But I think with enhanced cognitive capabilities and quantum computers, we can head in the direction of new Physics you talk about. Tomorrow's computers may help drive more efficient algorithms or methods to sort things - that hunt for a quicker or simpler way to achieve.

Hope you get a chance to check mine out.

Jim Hoover

Hi Jonathan, congrats, I liked a lot your essay.

I have some questions, I beleive strongly that we cannot create a quantum computer because we don t know the main codes at this planck scale and whjat are the foundamental objects in fact and nor the origin of these codes philosphically speaking. What are your ideas? regards

Thanks for sharing your ideas Jonathan. Indeed we don t know what we have at these planck scales, what are these foundamental mathematical and physical objects in fact. We cannot affirm. Have we 1D strings and a 1D main cosmological field creating our geonetries, topologies, matters, spacetime? or a geometrodynamics and points or in my model spheres ? we don t know. I see the generality of this universe like this, but it is an assumption of course, I must prove and I work about this. I consider like you know an universal sphere in optimisation evolution or a future sphere and I consider a central main cosmological sphere sending and coding finite series of spheres playing between these two constants, the zero absolute and the planck temperature. It is a gravitational coded aether made of these finite series of spheres, I consider that they have the same number than this finite serie cosmological of spheres. Oddly I have calculated, it approachs the dirac large number. The relevance of these series if we apply a specific serie is that the space disappears, so the space, the vacuum disappears and is made of particles coded. Take a central biggest sphere and after we applay 3 snmaller around this central sphere after 5 smaller around the 5 and we continue with the number that I have explained. You see that my model is totally different than the strings or the geonmetrodynamics because I consider particles coded and this aether, and so I don t consider that all comes from Waves, fields, oscillations to create this physicality. Now and I work about this , the relevance at my humble opinion is to formalise mathematically these finite series of spheres, a photon is too a finite serie , coded , they are for me like a fuel permitting the electromagnetism, the life Death and the fact to observe, they are just series coded so in resume like all. Now if we fornalise these series, finite with the Hamilton Ricci flow, the cold and heat, the heat equations, the lie derivatives, the lie groups, the topological spaces and euclidian spaces and the poincare conjecture, so it becomes relevant for the distribution and the rankings of our particles and the sortings, superimposings, synchronisations, we can consider the volumes,surface(even the hopf fibrations can be considered here on surfaces of spheres) , the mass, the densities, the angles, the deformations of spheres, the motions, rotations, senses of rotations, the moments and many others. I have even reached this quantum gravitation with this reasoning and in considering a cold Dark matter encoded in nuclei, more a fith force due to a serie of quantum BHs farer than our nuclear forces. I have respected the newtonian mechanics for this quantum gravitation. Like at our cosmological scale this matter non baryonic balances our electromagnetism and heat with this cold. This superfluid gravitational aether is maybe the key to explain all our unknowns and this gravitational aether creates the luminiferous one simply.

Best Regard

PS I have shared your essay on Facebook , friendly

Jonathan. In my essay "Clarification of Physics--", I introduce a new Successful Self Creation system that adds a new level to the epistemic "horizon". It adds another level to the basis of our knowledge and uses it to develop a complete creation process/result. I think you may find it interesting. Also, I would appreciate your comments on the essay. John D Crowell

I finally got around to reading you paper. It makes some illustrative points. The associated logistic map is a measure of the chaos on the reals and this terminiates at the Feigenbaum number. BTW, I thought the Mandelbrot set had z в†' z^2 + c.

The relationship between the reals, complex numbers, quaternions and octonions is subtle. With classical mechanics we have strictly reals, but analysis has behind CM has complex numbers. There is then a sort of covering ПЂ:в„‚ в†' в„ќ where the map is a restriction on this "fibration." With quantum mechanics is more straight forwards. The quantum wave is complex valued and the fibration is from nonabelian groups or Clifford groups for gauge fields onto the complex plane or the phase of a wave function ПЂ: в„Ќ в†' в„‚. Where things get a bit strange is with quantum gravitation, where the spacetime is noncommutative. The similar structure would then be ПЂ:O в†' в„Ќ, where now the base manifold is noncommutative and the fibration is nonassociative.

Cheers LC

If you read my essay I work with the idea of fractals as outlined by Hossenfelder and Palmer. However, I appeal to a more standard definition of incomputability. The Mandelbrot set in some ways is the mother of all fractals, because the fractal dimension of the boundary is 2 - ε in the limit ε --> 0.

The role of octonions is something I discuss in my essay, but more in the appendix or supplementary material.

I am disappointed in how this is going. I entered this contest because the topic has been of interest to me for years. Yet, my essay is not doing well, and I should simply not enter these contests any more.

LC