Physics and science: the art of taking a stance about undecidable questions by Fabien Paillusson

Dear Fabian and Matthew,

I like your title: "...taking a stance about undecidable issues. I treat essentially that issue in my essay Deciding on the nature of time and space where I deal with the issue, "which world view is real?". I invite you to read it and welcome comments.

I think it's appropriate that you apply these ideas to the problem of consciousness. You discuss various concepts and note that some strong forms of panpsychism suggest that electrons have some degree of consciousness. To my way of thinking panpsychism is more of a field phenomenon, and the primordial field is gravity, whose nonlinear self-interactions can be thought of as implying a minimal 'self-awareness'. Any moving mass density, such as the extremely dense electron, will induce local gravitomagnetic circulation in the field, thus 'coupling' the matter to the consciousness field and at the same time providing a deBroglie-like wave associated with the particle. This posits a Wheeler-like universe in which consciousness exists at the creation and evolves to the present.

One can only hint at this in a comment, but the idea answers some of Chalmers 'hard' problems. I address similar issues in The Nature of Mind, which had the top community rating in the 2016-2017 contest.

Good luck in the contest, you're off to a good start.

Edwin Eugene Klingman

Thanks.

Apologies, I was addressing your "empirically undecidable" issue. Between the 2 models, it eventually became observationally decidable.

RE: EPR

Another conclusion is EPR is true with ALL interactions occurring at speeds >> c (non-local). Newton's planet model works if the gravity speed >>c as van Flandern and others measured.

Thanks for you insights. I wish you had said a bit more on the crisis in physics (GR vs QM - which or neither or both as part of a larger model). For example, Newton had his gravity in Principia but followed it with an aether model which suggested the same cause of gravity (big) and diffraction of light (small) with corpuscles warping the aether and the aether directing corpuscles in Opticks.

Newton "Opticks" 1730 edition, book number: 0-486-60205-2 (Dover Publications, Inc., New York, 1979) (careful - different editions have different Query numbering)

Qu. 1 Masses bend passing light and amount inverse to distance.

Qu. 3 Light passing close to edges are diffracted in fringes.

Qu. 4 Light path begins to bend BEFORE reaching body or slit.

Qu. 5 Light heats mass.

Qu. 6 Black bodies absorb all light.

Qu. 8 Black body radiation.

Qu. 11 Sun and stars are black body radiators.

Qu. 17 suggested the corpuscles are pushed around (divergence of the aether's density) by waves that "overtake" the rays of light - Because this aether also causes the gravity effect, the waves in the aether travel faster than light - its not a big stretch to say MUCH faster than light.

Qu. 18 suggests a Medium that refracts and reflects light that allows light to heat effect bodies.

Qu. 19 suggest the refraction of light implies differing densities of the Medium.

Calls it "...this aether Medium..". Density of the aether GREATER in "...free and open spaces void of air and other grosser bodies...".

Qu. 20 the density increase (ie divergence) refract light.

Qu. 21 Aether rarer within dense bodies and increase with distance and "...thereby cause the gravity of those great bodies; every body endeavoring to go from the denser parts of the medium towards the rarer?". Also suggests light travel faster in the void (denser parts of the aether). Hence today we see the Shapiro delay. Also suggests the aether is so rare as to not impede the planets revolution (no aether wind).

Also, video showing diffraction using a toy computer simulation following Newton's queries:

https://www.youtube.com/watch?v=OMAjKk6k6-k&t=18s

Dear Fabien and Matthew

Traditionally, philosophy has tried to give a description of the universe, understand it in all aspects: economic, natural, social, cultural, abstract, etc. However, since the enlightenment, science started replacing many branches of philosophy. Science can be understood today as an evolved philosophy. In other words, philosophy is just a primitive way of doing science. Besides the methods used by philosophers, scientists also used math and experimentation. For this reason science has been more successful than philosophy in understanding the world.

Philosophy started "dying" in 1686 when Newton taught us how theories have to be done. Before Newton people did just philosophy. Newton put philosophy in mathematical formulations and carried out experiments to quantitatively verify theoretical predictions. Thanks to this, we have made great progress in our endeavor to understand how the universe works. Topics that were discussed in philosophical circles were later addressed in scientific terms, that is, formulated in mathematical terms and measured with precision. For instance the concepts of space and time were advanced by relativity, we now know that they depend on speed and gravity. Achieving this level of knowledge was the result of studying electromagnetic effects in systems in motion. This understanding would not be possible by mere philosophical methods. The nature of matter is another traditional philosophical problem that has been largely advanced by science in the last 3 centuries. Other topics include the essence of life and consciousness, just to mention the most relevant.

Regards

Israel

Dear Fabien,

Probably I would say that the complexity density of a given pattern will correspond to a certain 'degree' of consciousness. The most 'dense' or complex patterns exist in the brain where we find the highest degree of consciousness.

You agree that a consciousness field is not unreasonable and ask whether this field is already described by our physical theories or whether one needs to add a new one. Charmers thought that we needed a new one and thought that physics 'left no room' for a new field.

In 2006, when I was lead to the idea of a new field, I asked myself how this field could interact with matter. If I thought 'raise my arm' I wondered how the thought actually exerted any force on matter to start the bio-chemical-mechanical process. It took less than an hour to derive a formula for the force of a consciousness field on matter, based on a change in the local field, that was analogous to the electromagnetic force on charge. Similarly, the motion of mass induced a change in the local field, thus inciting awareness of the moving matter. We don't really want to be made aware of matter that isn't changing with respect to us.

It actually took a while for me to realize that the equation I had worked out thinking the problem through in all it it's aspects was actually written down in 1885 by Oliver Heaviside based on his formulation of gravitational theory in analogy with Maxwell's electrodynamics. The more I analyzed the situation, the more every aspect fit together.

In other words, I did not sit down one day and think, "maybe gravity is the consciousness field'. Instead I worked out the simplest equation that exhibited all the properties the consciousness that I thought consciousness must have and then found out that the equations described the gravito-magnetic field of Heaviside that also are the 'weak field' equations derived from Einstein's general relativistic field equations. In other words, I was dragged kicking and screaming to the realization that gravitomagnetism fills the bill perfectly.

Also in 2006 Martin Tajmar measured this C-field in the lab and then 2011 Gravity Probe B detected this field. Eventually, after everything fit perfectly in place, I accepted this ideas, and it has provided the most comprehensive understanding of consciousness that I have come across.

Along the way I realized that physicists, always projecting structure on the world and thinking that this actually describes the world, had misunderstood the 'weak field' equations of relativity. To simplify the non-linear field equations they simply linearized the equations to describe the 'weak field'. Since the equations are no longer self-interactive, they believed the field is no longer self-interacting. This is foolishness. Changing the equations to simplify the calculations does not change the nature of the field. A self-interactive field remains self-interactive. It only means that one must iterate to restore self-interaction to the calculations. Also significant is that it is not mass in the equations but mass density. Physicists again foolishly think that the gravitational field is only significant for large masses. False -- it is density that drives the gravitomagnetic field circulation, hence electrons and atoms induce changes in the local field.

The book I wrote describing this theory of consciousness is "Geneman's World", ISBN-13: 978-0-9791765-5-5, in 2008. My first FQXi essay in 2009 was on the Physics of Consciousness but only ten years ago it was not cool to talk about consciousness in physics. I am quite pleased to see that this topic is now 'respectable'. Believe me, it wasn't.

Warmest regards,

Edwin Eugene Klingman

Dear Fabien

I have, Why? I actually talk about it in my essay.

Regards

Israel

Hi Fabien,

Thank you for the essay, I enjoyed it very much!

Do you think it would ever be possible to reach an end to science? To answer in a satisfactory way all or most questions that are able to be answered? And How do you you feel Godel's undecidability and Turing's uncomputibility fit into science, if you feel they do at all? Would love to hear your opinions on these topics.

Best regards,

Ernesto

Dear Fabien,

thanks for your reply. I'm desperately trying to juggle different conversational threads in this contest, so I apologize if I might sometimes take a while to respond.

I think that the issue of losing the substance of a question due to a 'translation' into the scientific realm is an important one---and incidentally, I agree (and have made the point a few times myself) with your example of Zeno's paradoxes. In a sense, the mathematical 'answer' doesn't really tell us anything at all about how motion is possible; it gives a description, but does not really dispel the mystery. That description, of course, can also be had by simply moving to the other side of the room, or overtaking tortoises (I tried it, it's possible---how's that for empirical philosophy?).

That said, the questions spawned in the scientific realm are in themselves important ones---not least because answering them allows us to build nice things, like computers and rockets. So I think, we must find a way to keep both in view---not in the competitive sense that's often on display in the present discourse, with scientists belittling philosophers as having nothing to say with many words, and philosophers deriding scientism (both of which are, incidentally, sometimes also valid complaints), but rather, in a mutually reinforcing way.

The German physicist and philosopher Carl Friedrich von Weizsäcker coined the term 'Kreisgang', literally something like 'circle-walk' or 'circumnavigation'---we return to the same topics, with a deepened understanding, and lift them again onto a higher level of appreciation. This is something that, I think, we should strive the interaction between philosophy and science to further---the philosophical questions spawning scientific investigations, which in turn help us to rephrase the philosophical issues, and so on.

Perhaps there's some way of expressing this more clearly; I shall think about that.

Cheers

Jochen

Dear Fabien,

You said above that your are quite sympathetic to a field of consciousness. Some new information became available 3 days after your comment, and I have included it in my re-written essay. It is now the last 3 pages of my essay. I do think that you would find it worthwhile to read these 3 pages.

Best regards,

Edwin Eugene Klingman

Dear Fabien,

I very much agree with your observation that there are many undecidable problems in science and the art of doing science is to focus on the what is possible to solve.

I do realise that you are using the evolution of our understanding of the solar system as an illustration of how under-determination works in science. However, I always found it intriguing that Aristarchos came up with a heliocentric system two millenia ago and I would dearly have loved to know just what kind of debates were raging then about that particular theory.

I've also always suspected the influence of Eastern philosophy on quantum mechanics, especially given Wigners notion that consciousness causes collapse, though he leaves unexplained in his paper just how collapse is going to occur when no-one is actually around - which would have been the case - to play on the safe side - before the earth was actually formed (I also recently discovered that Schrodinger was well read in Vedanta, via Schopenhauer). One possibility of course is that reality, in some manner, has mental attributes. This of course is a flavour of idealism and so far out of the epistemology and methodology of mainstream science that its hard to know just how they could possibly conceive it. Perhaps this means philosophy can be safely left to philosophers, especially those of the idealist stripe - still I find it worthwhile thinking on these topics and take encouragement from the fact that this didn't stop scientists of the calibre of Schrodinger or Wigner from doing so.

I wish you all the best in the competition.

Warm wishes

Mozibur Ullah