Re: [Fis] Good (clear) article on information and physics
John, List. - > but offhand it seems to me to depedn on a sort of idealism that I do not > accept. "It does not. It does rely on Church thesis, which relies on arithmetical realism, that is the idea that elementary arithmetical truth are NOT a creation of the mind, which is a form of anti-idealism." --- I am utterly confused by this post. It seems to intermingle mathematics, logic, philosophy and personal beliefs without any apparent connection to the history of the subjects or science. I have not any idea what "elementary arithmetics truths" means. Do you wish to include or exclude logs? Either way, are you including or excluding arithmetic and/or geometric progressions from "arithmetic realism"? Could you be specific and point out the exact relations between "truths" as used in this context and your philosophy of physics? Or the nature of physics? "a creation of the mind" ?? What does this possibly mean in this context? In particular, do you wish to imply or infer or illate that the human mind before the social creation of arithmetic symbol systems was somehow "non-creative"?? VERY CONFUSING from a historical perspective. "a form of anti-idealism"??? Perhaps you mean something to do with representation or symbolization of your beliefs? Why introduce "form" as a concept related to a personal view of "anti-idealism" Makes no sense to me. Does your view reject the polar opposites / electricity of Schelling? Finally, I would note that Dalton's Law of ratio of small whole numbers, an established physical principle based on the atomic numbers and fundamental to quantum chemistry, contradicts the essence of your post as I understand it. Frankly, I can not find any immediate coherence between this article and either electro-mechanical or electro-chemical principles that are essential to physical and chemical information theory. Cheers Jerry ___ fis mailing list fis@listas.unizar.es https://webmail.unizar.es/cgi-bin/mailman/listinfo/fis
Re: [Fis] Good (clear) article on information and physics
Professor John Collier Philosophy, University of KwaZulu-Natal Durban 4041 South Africa T: +27 (31) 260 3248 / 260 2292 F: +27 (31) 260 3031 email: colli...@ukzn.ac.za>>> On 2012/06/01 at 03:30 PM, in message <8031ab93-e68f-4760-bba9-a1b18bfee...@ulb.ac.be>, Bruno Marchal wrote: but offhand it seems to me to depedn on a sort of idealism that I do not accept. It does not. It does rely on Church thesis, which relies on arithmetical realism, that is the idea that elementary arithmetical truth are NOT a creation of the mind, which is a form of anti-idealism. Ok, we are thinking in similar ways. Thanks for the link to your paper. John Please find our Email Disclaimer here: http://www.ukzn.ac.za/disclaimer/ ___ fis mailing list fis@listas.unizar.es https://webmail.unizar.es/cgi-bin/mailman/listinfo/fis
Re: [Fis] Good (clear) article on information and physics
On 01 Jun 2012, at 14:57, John Collier wrote: Hi all. In order to access the article I am pretty sure you need to establish an account on physics World. It is free. I did it so long ago I had forgotten. Thanks John. Bruno, I am not sure exactly what you mean by "the existence of the first person indeterminacy in arithmetic", Very roughly said, it is the fact that you cannot write a program capable of predicting its contextual first person perspective after a backup followed by a duplication and implementation in two different contexts. It is rather trivial, but it has startling consequences, notably that physics cannot be the fundamental science, but that it emerges from arithmetic. I explain it in the following paper: http://iridia.ulb.ac.be/~marchal/publications/SANE2004MARCHALAbstract.html but offhand it seems to me to depedn on a sort of idealism that I do not accept. It does not. It does rely on Church thesis, which relies on arithmetical realism, that is the idea that elementary arithmetical truth are NOT a creation of the mind, which is a form of anti-idealism. Incidentally, quantum decoherence is best seen as a sort of thermodynamic effect. This is clear in Ron Garrett account. It is clear for me that in QM- without-wave-collapse, decoherence is indeed a thermodynamical, statistical, effect. There are quantum measurements that can be reversed. I think that all quantum measurements can be reversed, at least in principle. Both computationalism in cognitive science, and quantum mechanics (without collapse) point toward a completely reversible physical reality. Best, Bruno Marchal Professor John Collier Philosophy, University of KwaZulu-Natal Durban 4041 South Africa T: +27 (31) 260 3248 / 260 2292 F: +27 (31) 260 3031 email: colli...@ukzn.ac.za>>> On 2012/06/01 at 02:45 PM, in message >, Bruno Marchal wrote: Hi John, On 01 Jun 2012, at 13:02, John Collier wrote: > http://physicsworld.com/cws/article/print/2012/may/31/the-quantum-game-of-life > > Sample excerpt: > "Hopes that digital physics might be resurrected in some form rose in > the early 1980s, when Richard Feynman proposed that the blatant gap > between the power and information content of quantum theory and that > of classical computers might be bridged by a new type of computer. > His idea was born out of frustration at seeing classical computers > take weeks to simulate quantum-physics experiments that happen faster > than a blink of an eye. Intuitively, he felt that the job of > simulating quantum systems could be done better by a computer that > was itself a quantum system." He was of course right on that. Actually I don't succeed in getting the paper from the link above. About quantum information, here is an interesting talk by Ron Garrett, quite coherent with the (classical) computationalist theory of mind, on quantum information, seen as information theory on the complex numbers: http://www.youtube.com/watch?v=dEaecUuEqfc Personally I am not (yet?) entirely sure that quantum information is "just" classical information on the complex numbers, I think this is partially true, and theorem like Gleason theorem makes me believe that this is very plausible. Ron Garrett gives a pretty picture of Everett QM (QM without collapse). His account of measurement is rather illuminating (close to the work of Adami and Cerf). Ron Garrett is information theoretic minded, and, with respect to computationalism (comp), has a coherent view of physics. Of course he does not seem aware of the necessity of such a view once we postulate comp, and the fact that this necessitates to take all computations (the one done below our classical comp substitution level) into account, (not just the quantum one) and to justify the quantum interferences from the first person perspective any self-justifying universal number. Comp shows that the qubit ---> bit road (decoherence) is two sided. Technically, due to diagonalization used to make the self-reference, you get the split between truth and justifiable, which provides a tool to distinguish the qualia and the quanta, as different but related mode of information, on the "inverse road" bit --> qubit. I think Ron Garrett explains (very shortly but rightly ) the qubit -> bit justification. Comp provides a reverse of that justification, and this doubled by the communicable/non-communicable (G/G*) splitting: the bit -> quantum-bit, and the bit -> quale-bit*, with the explanation of the fact that the quale bit* can't be quantified nor described (provably so in the ideal case of arithmetically self- referentially correct machine) Comp forces, just to remain coherent, to extend Everett's way of embedding the observer into the physical wave, to his embedding in all arithmetical relations, by first person indeterminacy, with the advantage of explaining a fundamental role to the (universal) person points of view, and hopefully so, to justify Q
Re: [Fis] Good (clear) article on information and physics
Hi all. In order to access the article I am pretty sure you need to establish an account on physics World. It is free. I did it so long ago I had forgotten. Bruno, I am not sure exactly what you mean by "the existence of the first person indeterminacy in arithmetic", but offhand it seems to me to depedn on a sort of idealism that I do not accept. Incidentally, quantum decoherence is best seen as a sort of thermodynamic effect. There are quantum measurements that can be reversed. I can give some references if anyone wants. John Professor John Collier Philosophy, University of KwaZulu-Natal Durban 4041 South Africa T: +27 (31) 260 3248 / 260 2292 F: +27 (31) 260 3031 email: colli...@ukzn.ac.za>>> On 2012/06/01 at 02:45 PM, in message , Bruno Marchal wrote: Hi John, On 01 Jun 2012, at 13:02, John Collier wrote: > http://physicsworld.com/cws/article/print/2012/may/31/the-quantum-game-of-life > > Sample excerpt: > "Hopes that digital physics might be resurrected in some form rose in > the early 1980s, when Richard Feynman proposed that the blatant gap > between the power and information content of quantum theory and that > of classical computers might be bridged by a new type of computer. > His idea was born out of frustration at seeing classical computers > take weeks to simulate quantum-physics experiments that happen faster > than a blink of an eye. Intuitively, he felt that the job of > simulating quantum systems could be done better by a computer that > was itself a quantum system." He was of course right on that. Actually I don't succeed in getting the paper from the link above. About quantum information, here is an interesting talk by Ron Garrett, quite coherent with the (classical) computationalist theory of mind, on quantum information, seen as information theory on the complex numbers: http://www.youtube.com/watch?v=dEaecUuEqfc Personally I am not (yet?) entirely sure that quantum information is "just" classical information on the complex numbers, I think this is partially true, and theorem like Gleason theorem makes me believe that this is very plausible. Ron Garrett gives a pretty picture of Everett QM (QM without collapse). His account of measurement is rather illuminating (close to the work of Adami and Cerf). Ron Garrett is information theoretic minded, and, with respect to computationalism (comp), has a coherent view of physics. Of course he does not seem aware of the necessity of such a view once we postulate comp, and the fact that this necessitates to take all computations (the one done below our classical comp substitution level) into account, (not just the quantum one) and to justify the quantum interferences from the first person perspective any self-justifying universal number. Comp shows that the qubit ---> bit road (decoherence) is two sided. Technically, due to diagonalization used to make the self-reference, you get the split between truth and justifiable, which provides a tool to distinguish the qualia and the quanta, as different but related mode of information, on the "inverse road" bit --> qubit. I think Ron Garrett explains (very shortly but rightly ) the qubit -> bit justification. Comp provides a reverse of that justification, and this doubled by the communicable/non-communicable (G/G*) splitting: the bit -> quantum-bit, and the bit -> quale-bit*, with the explanation of the fact that the quale bit* can't be quantified nor described (provably so in the ideal case of arithmetically self- referentially correct machine) Comp forces, just to remain coherent, to extend Everett's way of embedding the observer into the physical wave, to his embedding in all arithmetical relations, by first person indeterminacy, with the advantage of explaining a fundamental role to the (universal) person points of view, and hopefully so, to justify QM or refuting comp, or weakening it or constraining it. To be sure computationalism is incompatible with digital physics. If *we* are machine (classical or quantum) then neither the fundamental reality, nor its physical part, can be Turing emulable, despite quantum machine can be Turing emulated. This is more or less a direct consequence of the existence of the first person indeterminacy in arithmetic. Bruno Marchal http://iridia.ulb.ac.be/~marchal/ ___ fis mailing list fis@listas.unizar.es https://webmail.unizar.es/cgi-bin/mailman/listinfo/fis Please find our Email Disclaimer here: http://www.ukzn.ac.za/disclaimer/ ___ fis mailing list fis@listas.unizar.es https://webmail.unizar.es/cgi-bin/mailman/listinfo/fis
Re: [Fis] Good (clear) article on information and physics
Hi John, On 01 Jun 2012, at 13:02, John Collier wrote: > http://physicsworld.com/cws/article/print/2012/may/31/the-quantum-game-of-life > > Sample excerpt: > "Hopes that digital physics might be resurrected in some form rose in > the early 1980s, when Richard Feynman proposed that the blatant gap > between the power and information content of quantum theory and that > of classical computers might be bridged by a new type of computer. > His idea was born out of frustration at seeing classical computers > take weeks to simulate quantum-physics experiments that happen faster > than a blink of an eye. Intuitively, he felt that the job of > simulating quantum systems could be done better by a computer that > was itself a quantum system." He was of course right on that. Actually I don't succeed in getting the paper from the link above. About quantum information, here is an interesting talk by Ron Garrett, quite coherent with the (classical) computationalist theory of mind, on quantum information, seen as information theory on the complex numbers: http://www.youtube.com/watch?v=dEaecUuEqfc Personally I am not (yet?) entirely sure that quantum information is "just" classical information on the complex numbers, I think this is partially true, and theorem like Gleason theorem makes me believe that this is very plausible. Ron Garrett gives a pretty picture of Everett QM (QM without collapse). His account of measurement is rather illuminating (close to the work of Adami and Cerf). Ron Garrett is information theoretic minded, and, with respect to computationalism (comp), has a coherent view of physics. Of course he does not seem aware of the necessity of such a view once we postulate comp, and the fact that this necessitates to take all computations (the one done below our classical comp substitution level) into account, (not just the quantum one) and to justify the quantum interferences from the first person perspective any self-justifying universal number. Comp shows that the qubit ---> bit road (decoherence) is two sided. Technically, due to diagonalization used to make the self-reference, you get the split between truth and justifiable, which provides a tool to distinguish the qualia and the quanta, as different but related mode of information, on the "inverse road" bit --> qubit. I think Ron Garrett explains (very shortly but rightly ) the qubit -> bit justification. Comp provides a reverse of that justification, and this doubled by the communicable/non-communicable (G/G*) splitting: the bit -> quantum-bit, and the bit -> quale-bit*, with the explanation of the fact that the quale bit* can't be quantified nor described (provably so in the ideal case of arithmetically self- referentially correct machine) Comp forces, just to remain coherent, to extend Everett's way of embedding the observer into the physical wave, to his embedding in all arithmetical relations, by first person indeterminacy, with the advantage of explaining a fundamental role to the (universal) person points of view, and hopefully so, to justify QM or refuting comp, or weakening it or constraining it. To be sure computationalism is incompatible with digital physics. If *we* are machine (classical or quantum) then neither the fundamental reality, nor its physical part, can be Turing emulable, despite quantum machine can be Turing emulated. This is more or less a direct consequence of the existence of the first person indeterminacy in arithmetic. Bruno Marchal http://iridia.ulb.ac.be/~marchal/ ___ fis mailing list fis@listas.unizar.es https://webmail.unizar.es/cgi-bin/mailman/listinfo/fis
[Fis] Good (clear) article on information and physics
http://physicsworld.com/cws/article/print/2012/may/31/the-quantum-game-of-life Sample excerpt: "Hopes that digital physics might be resurrected in some form rose in the early 1980s, when Richard Feynman proposed that the blatant gap between the power and information content of quantum theory and that of classical computers might be bridged by a new type of computer. His idea was born out of frustration at seeing classical computers take weeks to simulate quantum-physics experiments that happen faster than a blink of an eye. Intuitively, he felt that the job of simulating quantum systems could be done better by a computer that was itself a quantum system." Cheers, John -- Professor John Collier colli...@ukzn.ac.za Philosophy and Ethics, University of KwaZulu-Natal, Durban 4041 South Africa T: +27 (31) 260 3248 / 260 2292 F: +27 (31) 260 3031 ___ fis mailing list fis@listas.unizar.es https://webmail.unizar.es/cgi-bin/mailman/listinfo/fis