stephaneww Posted January 27, 2020 Posted January 27, 2020 (edited) Hello If we take [math]\Large{\frac{1}{\Lambda}}[/math] for the "entropic surface" [math]A[/math] with this value of [math]\Lambda=1.10242*10^{-52}m^{-2}[/math] (https://www.scienceforums.net/topic/118858-the-solution-of-the-cosmological-constant-problem/?do=findComment&comment=1118201) The value of [math]N*8\pi[/math] from entropic gravity is exactly the value of the vacuum catastrophe (about [math]8.73^{122}[/math]) when [math]\Lambda=1.10242*10^{-52}m^{-2}[/math] Is that right and what physical meaning can it have please ? Edited January 27, 2020 by stephaneww
stephaneww Posted January 27, 2020 Author Posted January 27, 2020 (edited) It's actually okay whatever the value of [math]A=\Large{\frac{1}{\Lambda}}[/math]. Edited January 27, 2020 by stephaneww
stephaneww Posted January 27, 2020 Author Posted January 27, 2020 (edited) oops, read : [math]8.73*10^{122}[/math] sorry Edited January 27, 2020 by stephaneww
stephaneww Posted January 27, 2020 Author Posted January 27, 2020 (edited) Well, for greater clarity, with : value of the vacuum catastrophe = Energy Density of quantum mechanics / Energy Density of the comological constant = [math]\Large {\frac {\frac{m_p c^2}{l_p^3}} {\frac{c^4 \Lambda}{8 \pi G}}}=[/math] (1) [math]\Large {\frac {\frac{m_p}{l_p^2 l_p}} {\frac{c^2 \Lambda}{8 \pi G}}}=[/math] (2) [math]\Large {\frac{m_p G}{l_p c^2}.\frac{8 \pi}{l_p^2 \Lambda}}=[/math] (3) that can be simplified (with [math]m_p=\Large {\sqrt{\frac{c \hbar} {G}}}[/math] and [math]l_p=\Large {\sqrt{\frac{G \hbar} {c^3}}}[/math] )(4) in [math]\Large {\frac{8 \pi} {l_p^2 \Lambda}}[/math] (5) in the entropic gravity where the area [math]A=\Large {\frac{1} {\Lambda}}[/math] we have value of the vacuum catastrophe = [math]N. 8 \pi=\Large {\frac{8 \pi} {l_p^2 \Lambda}}[/math], cqfd Edited January 27, 2020 by stephaneww
stephaneww Posted January 30, 2020 Author Posted January 30, 2020 (edited) Question: What interpretation can be made from this demonstration please ? Edited January 30, 2020 by stephaneww
Mordred Posted January 31, 2020 Posted January 31, 2020 That although you can show certain relations that match. You are not digging deep enough into entropy gravity to find out where the contentions are with the standard model. You will notice for example entropy gravity forms the basis behind MOND and in MOND the gravitational coupling constant will vary in different mass distributions so some of the relations above will also vary accordingly.
stephaneww Posted January 31, 2020 Author Posted January 31, 2020 (edited) Hi Mordred, MOND is only one application. there is also these one : Quote The theory claims to be consistent with both the macro-level observations of Newtonian gravity as well as Einstein's theory of general relativity and its gravitational distortion of spacetime. Importantly, the theory also explains (without invoking the existence of dark matter and its accompanying math featuring new free parameters that are tweaked to obtain the desired outcome) why galactic rotation curves differ from the profile expected with visible matter. https://en.wikipedia.org/wiki/Entropic_gravity where I need to dig for the last case please ? Edit : Quote According to reports in The Royal Astronomical Society magazine, the team of researchers led by Margot Brouwer tested Verlinde's theory by measuring the distribution of gravitational forces in a sample of 33,000 galaxies using the gravitational lens effect predicted by Einstein's theory of general relativity. They then discovered that by applying the calculations of Verlinde's theory of emergent gravity, they could achieve the same results without having to resort to the idea of dark matter. Thus, Einstein's theory of general relativity and Verlinde's theory of general relativity have the same relevance, at least in these measurements. source from sciencepost.fr : https://www.sciencealert.com/a-controversial-new-gravity-hypothesis-has-passed-its-first-test Edited January 31, 2020 by stephaneww
Mordred Posted January 31, 2020 Posted January 31, 2020 If this was me I would start with the research papers on entropy gravity.
stephaneww Posted January 31, 2020 Author Posted January 31, 2020 (edited) already done: https://arxiv.org/pdf/1001.0785.pdf the simplified transcription is on Wikipedia here edit I'm interested if you can find some more, of course. Edited January 31, 2020 by stephaneww
Mordred Posted January 31, 2020 Posted January 31, 2020 (edited) Here is a paper that better explains and argues against entropic gravity. https://www.google.com/url?sa=t&source=web&rct=j&url=http://philsci-archive.pitt.edu/8383/1/Why_gravity_is_not_an_entropic_force.pdf&ved=2ahUKEwj0nKux_KznAhUhPn0KHbyIC-UQFjADegQIBRAB&usg=AOvVaw3nvC6cU5cIzrPFyA-LCIFo Hrrm so how do I put this. The reason your seeing connections with the numerous formulas your using to those used in entropic gravity is simple yet fundamental. F=ma the laws of inertia. All viable physics theories apply these laws of inertia. So every viable theory must at some point show that they are correctly applying these laws. This includes thermodynamics, relativity, (weak field limit), QM, QFT, string theory and the holographic principle. Now this goes even deeper into what is called action. The action will correspond to the effective degrees of freedom which is how they are applying entropy though done through statistical mechanics (thermodynamics). The holographic principle is a methodology to reduce the number of degrees of freedom. That is where the holographic surface and the information contained in that surface comes into play. Edited January 31, 2020 by Mordred
stephaneww Posted January 31, 2020 Author Posted January 31, 2020 (edited) Um, I don't know what to think: the paper is from 2010 (https://philpapers.org/rec/GAOWGI) before the successful cosmological test of 2016. 5 hours ago, Mordred said: Hrrm so how do I put this. The reason your seeing connections with the numerous formulas your using to those used in entropic gravity is simple yet fundamental. F=ma the laws of inertia. All viable physics theories apply these laws of inertia. So every viable theory must at some point show that they are correctly applying these laws. This includes thermodynamics, relativity, (weak field limit), QM, QFT, string theory and the holographic principle. Now this goes even deeper into what is called action. The action will correspond to the effective degrees of freedom which is how they are applying entropy though done through statistical mechanics (thermodynamics). The holographic principle is a methodology to reduce the number of degrees of freedom. That is where the holographic surface and the information contained in that surface comes into play. I don't get the argument, How is E.VERLINDE wrong ? Edited January 31, 2020 by stephaneww
Mordred Posted January 31, 2020 Posted January 31, 2020 Nothing in that statement suggests E.Verlinde is wrong. I am explaining that every physics theory will apply the above at some point.
stephaneww Posted January 31, 2020 Author Posted January 31, 2020 (edited) 18 minutes ago, Mordred said: Nothing in that statement suggests E.Verlinde is wrong. I am explaining that every physics theory will apply the above at some point. ok ,thank you edti : 17 hours ago, stephaneww said: Question: What interpretation can be made from this demonstration please ? Is the novelty with entropic gravity that it gives meaning to the value of the vacuum catastrophe =N "=number of 'bits' of information"? Edited January 31, 2020 by stephaneww
Mordred Posted January 31, 2020 Posted January 31, 2020 (edited) The bits comply to quantum information theory but those bits would require quantization of gravity. Which hasnt happened yet. We have not successfully quantized gravity. In essence the theory above would require gravity to operate in discrete units (ie gravitons). Edited January 31, 2020 by Mordred 2
stephaneww Posted January 31, 2020 Author Posted January 31, 2020 (edited) 8 minutes ago, Mordred said: We have not successfully quantized gravity. is it possible ? I'm not sure because we have [math]G[/math] in [math]l_p^2[/math] in holographic approach ? Edited January 31, 2020 by stephaneww
Mordred Posted January 31, 2020 Posted January 31, 2020 QM requires quantization however relativity doesn't. It is this issue that prevents a successful theory of quantum gravity. More complex is how this applies to renormalization. Some physicist's feel that renormalization may be impossible while others feel the opposite.
stephaneww Posted January 31, 2020 Author Posted January 31, 2020 (edited) 3 hours ago, Mordred said: The bits comply to quantum information theory but those bits would require quantization of gravity. Which hasnt happened yet. We have not successfully quantized gravity. In essence the theory above would require gravity to operate in discrete units (ie gravitons). 3 hours ago, Mordred said: QM requires quantization however relativity doesn't. It is this issue that prevents a successful theory of quantum gravity It seems we can do without this quantification: Quote Les ondes sonores, par exemple, sont émergentes. Elles proviennent d’effets collectifs dans les molécules de l’air. Elles ne sont pas des phénomènes fondamentaux et, pour cette raison, il n’est par exemple pas envisagé de les quantifier. La connaissance du processus d’émergence change notre façon de comprendre le phénomène de façon non-triviale. source : https://blogs.futura-sciences.com/barrau/2017/03/13/la-gravitation-est-elle-emergente/ Quote Sound waves, for example, are emergent. They come from collective effects in air molecules. They are not fundamental phenomena and, for this reason, it is for example not envisaged to quantify them. Knowledge of the emergence process changes our understanding of the phenomenon in a non-trivial way. (Deepl.com traduction) further on : Quote … Mais la forme d’émergence particulière que je veux évoquer dans ce billet est différente. Elle est thermodynamique. La thermodynamique est une science qui montre que les propriétés d’un système physique constitué d’un grand nombre de petits éléments peuvent être comprises indépendamment des détails des constituants fondamentaux. C’est une science extraordinairement belle et fiable…. traduction : Quote But the particular form of emergence I want to discuss in this post is different. It is thermodynamic. Thermodynamics is a science that shows that the properties of a physical system made up of a large number of small elements can be understood independently of the details of the fundamental constituents. It is an extraordinarily beautiful and reliable science. from which further more the emerging gravity in the blog Edited January 31, 2020 by stephaneww
Mordred Posted January 31, 2020 Posted January 31, 2020 In the classical applications then yes renormalization isn't needed however quantum gravity does require quantization. Sound waves for example using phonons under QM is renormalizable the phonon is the quantization. Phonons being a quasi particle.
stephaneww Posted January 31, 2020 Author Posted January 31, 2020 (edited) read on a French forum Quote You can't extrapolate the notion of phonon directly into a gas. I think that it is in this sense that Aurélien Barrau talks about sound waves : Quote Sound waves, for example, are emergent. They come from collective effects in air molecules. ... not in a crystal lattice ? but here I'm entering territory I know nothing about.🙄 edit : and the holographic principle (and entropic gravity) are phenomena coming from thermodynamics, so ??? 6 hours ago, Mordred said: The bits comply to quantum information theory Which quantum information theory, please ? Edited January 31, 2020 by stephaneww
stephaneww Posted February 16, 2020 Author Posted February 16, 2020 Hi Modred. About that : On 1/31/2020 at 2:34 PM, Mordred said: The bits comply to quantum information theory but those bits would require quantization of gravity. Which hasnt happened yet. We have not successfully quantized gravity. In essence the theory above would require gravity to operate in discrete units (ie gravitons). what do you think about this opinion please ? Quote If you think that gravity is really emergent, then quantizing gravity does not make sense. Because, if you think of the analogy to thermodynamics, you also do not obtain a theory for the structure of atom by quantizing the equations for gases. Therefore, in emergent gravity one does not quantize gravity. One instead removes the inconsistency between gravity and quantum mechanics by saying that quantizing gravity is not the right thing to do. source : http://backreaction.blogspot.com/2019/09/the-five-most-promising-ways-to.html 1
Strange Posted February 16, 2020 Posted February 16, 2020 20 minutes ago, stephaneww said: what do you think about this opinion please ? As someone with only a vague understanding of the relevant theories, that seems like a nice insight.
Mordred Posted February 16, 2020 Posted February 16, 2020 That link describes the situation accurately with each methodology used. Excellent link.
MigL Posted February 16, 2020 Posted February 16, 2020 Found the comments after the article much more interesting.
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