Stephen Wolfram Presents a Path to The Fundamental Theory of Physics (stephenwolfram.com) 166
New submitter wattersa writes: Mathematician/Physicist Stephen Wolfram, founder of Wolfram Research and creator of the technical computation program Mathematica, has announced a discovery in the area of theoretical physics. His long-form blog post discusses the emergence of physical properties of our universe from what he describes as simple, universal, computable rules. He claims the emergent properties are consistent with relativity and quantum mechanics through a 448-page technical paper on the subject, which is posted on a completely new website that just went online.
The last 30+ years wasted on string theory (Score:5, Interesting)
Re:The last 30+ years wasted on string theory (Score:5, Funny)
Re:The last 30+ years wasted on string theory (Score:5, Funny)
'frayed not.
Re:The last 30+ years wasted on string theory (Score:5, Funny)
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Well, we gave string theory just enough rope to hang itself.
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But then it curled up on itself in hidden dimensions singing softly "If I only had a brane..."
Re:The last 30+ years wasted on string theory (Score:4, Interesting)
String Theory is so Neanderthal! https://www.nbcnews.com/scienc... [nbcnews.com]
String Theory 2.0 (Score:5, Insightful)
Oh, yes, and we're putting up a Registry of Notable Universes. It's already populated with nearly a thousand rules. I don't think any of the ones in there yet are our own universe...
Which is exactly the same problem String theory has: there are lots of possible universes and no idea which, if any of them, match our own.
Frankly, this whole thing sounds extremely dubious. The idea seems to be that simple rules can generate immense complexity which is pretty much the entire history of physics: this is not something new. Indeed the Standard Model is a simple set of rules for particle properties and interactions which does an amazing job at explaining a huge amount of the complexity of our universe (with some notable exceptions: yes, gravity I'm looking at you!).
Our "Path" to Understanding the Universe... (Score:3)
Re:Our "Path" to Understanding the Universe... (Score:4)
Yup, the only problem is to figure out WHICH monkey got it right. I don't suppose asking them will help.
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Re:String Theory 2.0 (Score:5, Insightful)
Can the theory explain any formerly unexplainable phenomena?
Does the theory make any testable predictions?
String theory: No and no.
Wolfram's theory: No and no.
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Nonsense. String theory made the testable prediction that physicists could dabble in nonsense for decades and still get paid.
Test result? True.
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Can the theory explain any formerly unexplainable phenomena?
1. Yes, but there's no point in explaining because it's unexplainable. But "trust me".
Does the theory make any testable predictions?
2. Yes, but why the predictions are meaningless are unexplainable (see 1)... testing confirms unexplainable results.
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To the contrary, his theory looks very much like it will generate testable hypotheses. For example: he predicts an entirely new category of fundamental particles, much smaller than the ones we currently know. If that can be made more specific, and we can figure out how to search for those particles, then this can be tested.
My mathematics in relativity and quantum mechanics has rusted beyond use. But I remember the principles, and based on the non-mathematical summary, I think he is on to something. Even if
Re:String Theory 2.0 (Score:5, Insightful)
“It doesn't matter how beautiful your theory is, it doesn't matter how smart you are. If it doesn't agree with experiment, it's wrong.” -- Richard Feynman.
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No, it's both. There's a *lot* of lab work around. Experiment is ahead of our fundamental theory because we don't have a theory that fits all the available data.
If string theory could pick out the Calabi-Yau compactification that yields a theory that fits the mass of experimental data we've got about our universe, it would be a huge breakthrough. It would be a theory-of-almost-everything, excepting possibly how precisely that configuration was chosen.
Wolfram's approach seems to have the same difficulty. It
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I can tell right off the bat that you only read the summary. You're doing yourself no favors. Just read the article and the history of his work on it. His theory does actually have predictions (albeit hard to test) on the amount of energy required for quantum entanglement, the size of elementary particles, and other items.
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It's about what you'd expect from the guy. He was always a bit of a kook, but I'm sure the math checks out.
Frankly, this whole thing sounds extremely dubious. The idea seems to be that simple rules can generate immense complexity which is pretty much the entire history of physics: this is not something new. Indeed the Standard Model is a simple set of rules for particle properties and interactions which does an amazing job at explaining a huge amount of the complexity of our universe (with some notable exceptions: yes, gravity I'm looking at you!).
Well, at 448 pages, I'm not sure he nailed the simple part. However, the Standard Model is neither simple nor elegant. It's also missing some important things, like why all the fundamental particles with mass have the specific rest masses that they do, but perhaps that's inextricably linked to gravity,
But I point out the mass problem because that one specific area than any "simpler set of rules from
Oh Stephen, you old kook (Score:5, Funny)
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Doctors wouldn't wash their hands until we handed them a microscope. It's been a repeating, consistent pattern since The Renaissance.
Re: Oh Stephen, you old kook (Score:2)
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Doctors wouldn't wash their hands until we handed them a microscope.
The microscope was invented in 1590.
Doctors started washing their hands around 1870.
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Doctors started washing their hands around 1870.
Hah, it took more than Pasteur and Koch to convince us to wash our hands... and some of my colleagues still don't do it as frequently or as thoroughly as they should. Ask any hospital microbiologist...
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Experiments demonstrated convincingly that hand washing and other hygeine measures prevented disease spread in hospitals before the germ theory of disease had caught on in Europe. Many doctors still don't wash their hands adequately. If you appoint a nurse to watch them, and the power to punish them, infection rates go way down.
The invention and refinement of new instruments does drive scientific advance though, in all fields, including physics. It's one of the things that makes scientific development expon
Wouldn't be the first time (Score:2)
It's not the first time Wolfram has made this type of announcement.
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Re:Wouldn't be the first time (Score:5, Insightful)
Ever heard of his book, "A New Kind of Science"?
Re: Wouldn't be the first time (Score:2)
Re: Wouldn't be the first time (Score:2)
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Didn't know he had a history for it - link please? I agree though, if I had some revelation about physics, I wouldn't announce it like this...
I have looked at the linked paper - and yes - it is a PDF with numbers and stuff in it - beyond that I can't comment.....
So math/physics people.... is this rubbish or cool?
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I have looked at the linked paper - and yes - it is a PDF with numbers and stuff in it - beyond that I can't comment.....
PDF? I couldn't find a link to that. Just a set of web pages.
If you have a link to a PDF, do share please. I'm curious to see what he did. The fact that he self-publishes is kind of a warning flag though.
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Just a set of web pages.
This is how we do science now lol
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Wolfram wrote a book called "A New Kind of Science." It's about cellular automata. Cellular automata are interesting, but they're not quite the revolution Wolfram painted them as.
https://en.wikipedia.org/wiki/... [wikipedia.org]
Re: Wouldn't be the first time (Score:2)
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I seem to remember ANKoS as being quite the egotistical work - exaggerating his contributions and playing down others'.
Really, he's mixing the obvious (the universe probably runs on simple "rules" combined in complicated ways) with the over-blown (these can be replicated - not simulated - on a digital computer).
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so anything contrary will get squashed in peer review.
Do you have any source for this other than Eric Weinstein? It's got the scent of BS. Not saying they're not heavily invested, just that your conclusion doesn't follow from that premise.
Re:Wouldn't be the first time (Score:4, Informative)
Your pretentiousness all knowingness about how pretentious other people are is nothing more than 100% pure crap.
Probably over 99% of physicists have no horse in the string theory versus not string theory horse race, so they would be perfectly content if some other approach proves better.
Re:Wouldn't be the first time (Score:4, Insightful)
String theorists are heavily invested into seeing string theory not fail
FTFY
[Disclosure: IAAP and IANAST]
448 pages... (Score:5, Funny)
Re:448 pages... (Score:5, Funny)
Re:448 pages... (Score:5, Funny)
He's got it all wrong. The only correct paper could be obviously done in 42 pages.
Sure, but then wouldn’t we forget what the subject was?
Re: 448 pages... (Score:2)
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Maybe it's 448 pages of A13 paper?
A13 paper is about 1.2 x 0.8 centimetres. 512 pages of A13 are smaller than one page of A4.
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A New Kind of Bluster (Score:2)
What I find most annoying about his post is his claim that he was the first to discover the concept of emergent behavior,
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tl;dr Looks like automata theory (Score:5, Interesting)
Just taking a cursory glance at the technical description, it looks like he is trying create a framework or ruleset based on automata theory, set theory, physical properties of matter, space/time, accepted physical laws, and various maths {geometry, linear algebra, vectors, and diffEq} to create a language to model the observations that we see in physics. These models would then lead to understanding patterns and rules in larger systems.
This could be very useful in chemistry as well.
The best case is we will get new models and simulations for figuring stuff out and modeling the world.
The worst case is that the math geeks will invade and figure out how to use this to do proofs and promote string-theory.
I can't process it all tonight, but I want to come play with Wolfram's new toys when I am rested.
Re:tl;dr Looks like automata theory (Score:5, Insightful)
Maybe Dr. Wolfram is doing what many PhDs tend to do: keep re-doing their dissertation. In his case, perhaps:
automata theory = hammer
universe = nail
Look, this guy is extremely bright. (IIRC, he got his doctorate at 19.) I'm definitely curious about what his mind cooked up here. Who knows? It might be revolutionary. Or it might be self-promoting twaddle. He has enough of a reputation that he might deserve at least a first glance.
Re:tl;dr Looks like automata theory (Score:5, Informative)
Bearing in mind his reputation, I wonder whose work it really is. He has form for putting his name on his employees' work and contractually gagging them from claiming authorship.
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That explains a rumor I heard that he was an asshole, when I asked why an organization didn't use any of his software. But I always assumed it was something less nasty such as rudeness.
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If you want to know anything about Wolfram's character, read the blog entry linked in the summary and count the number of times he referenced, lauded and cheered to his own work. Every two or three sentence, he will congratulate himself for something he did.
And you know what people are like if they continuously congratulate themselves every step of the way.
They might be successful businesspeople or entrepreneurs, politicians, scientists etc, and they might not neccessarily be wrong, but they sure will be pr
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Re:tl;dr Looks like automata theory (Score:4, Interesting)
That's how I took it too. A couple of pages down his announcement post, I came across this:
Putting aside the underlying mechanism, he's devised a method for writing physics books. If one of those books matches the physics that we already know, then we can look in it for things we didn't already know.
I think the project will flounder because of something that he notices and calls attention to - his generator is computationally infeasible. You can't predict what kind of physics will emerge from a given rule, you have to let it play out. And then, to be useful, you need an algorithmic way to compare the computed hypergraph with physics that we already know.
I'm getting a distinct "infinite monkeys banging on typewriters" vibe here. That's not right - the monkeys are equipped with single-piezo inkjet print heads and it will take millions of dots to form words.
Sadly, I'm not on lockdown, so I doubt that I'll have time to read the paper any time soon. I wouldn't be surprised at all if my quick first impression turns out to be all wrong, but I'm not getting my hopes up just yet.
Re:tl;dr Looks like automata theory (Score:5, Interesting)
I think the project will flounder because of something that he notices and calls attention to - his generator is computationally infeasible. You can't predict what kind of physics will emerge from a given rule, you have to let it play out. And then, to be useful, you need an algorithmic way to compare the computed hypergraph with physics that we already know.
Maybe. If you read further you see that he has managed to derive some pretty important and non-obvious physics results -- e.g. relativity -- directly from the structure of iterated rule applications over time, and none of those results depend at all on the particular iterated rule (other than it has to achieve a certain level of complexity) but instead depend only on basic observations of how changes propagate through time from the perspective of an observer. Some of this is just tracking Einstein's well-documented thought processes, but even Einstein had to discover/invent the equations, he couldn't derive them. Assuming the derivation process is mathematically sound, that's pretty profound, even though Wolfram had the (enormous) advantage of knowing his destination.
Moreover, it points to the possibility that even without identifying the putative rule(s) that define our universe, it may be possible to derive other as yet unknown but equally valuable results -- results which could be plenty simple and computable.
Will anything come of it? Impossible to know. But it's certainly plausible, and the elegant simplicity is indeed beautiful.
Re:tl;dr Looks like automata theory (Score:5, Informative)
?! Lorentz discovered/invented the equations; Einstein derived them from the postulate that the speed of light is the same in all inertial frames.
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Some of this is just tracking Einstein's well-documented thought processes, but even Einstein had to discover/invent the equations, he couldn't derive them.
So well-documented, none of the ideas were actually Einstein's! I don't want to bash Einstein. He was truly brilliant. But I'll bash the notion that he was so innovative that all the ideas were his. None of them were. Let's examine all the original insights traditionally attributed to Albert Einstein.
Empedocles (c. 490–430 BC) was the first to propose a theory of light, and claimed that light has a finite speed. In 1021, Alhazen (Ibn al-Haytham) published his Book of Optics, in which he presented a
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the decade of delay between his 1905 Special Theory of Relativity and his 1915 General Theory of Relativity
Hey Einstein! Why can't you produce world-changing theories quicker?!
A fair point and LMAO. My own notions usually only materialize in the minds of genuine students of the History and Philosophy of Science. The common notions that most cling to about the History of Science, and often from the popular pulp "for anyone to read" science history books, tend to evaporate when examining the fine detail. But it is clear the single most innovative idea of Einstein, which is that the speed of light is constant from all reference frames, derives directly from the work of Hendrik Loren
String Theory (Score:2)
Beautiful presentation (Score:2)
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Re:Beautiful presentation (Score:4, Funny)
this post is a beautifully rendered blog
I wonder which tools he used to make these beautiful graphics.
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You mean like Don Knuth?
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Hack fraud or not? (Score:2)
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DNS (Score:2)
Hoping for Rigor, Rigor, RIGOR (Score:2)
Re: Hoping for Rigor, Rigor, RIGOR (Score:3)
I have been reading it, the time evolution is equivalent to computation (chap 7 of intro) and for quantum, he models with non deterministic Turing machine (he calls multi-way system) plus an add on which chooses branch of computation (branch in multiverse) on observation. So the whole thing is as rigorous as computation, but super general. It looks like he would like to create a universal language for physics, where all ideas and their computational representation are one, and of course have software ready
just fractal compression? (Score:2)
It seems like he's just describing a fractal compression framework and claiming that the fractal that we eventually find that describes all known physics upon expansion will be the Fundamental Theory we've long sought.
Isn't that sort of like claiming that using curve fitting to encode the stock market for the last 100 years will allow you to predict the future?
Summary of article/post (Score:5, Informative)
I devoted most of today to reading Dr. Wolfram's blog post and technical papers, and I've had some time to digest this. I am very impressed. Yes, the size of his ego is basically infinite, but it's worth looking past that in order to gain real insight from what he proposes. From the perspective of an enthusiast researcher, at least, this appears to be a groundbreaking discovery in the area of theoretical physics and new ways of looking at many problems. I can forgive that it's also a long-form advertisement for Mathematica (full disclosure: I'm a Wolfram customer for Mathematica).
I interpret his central theory as being that space is a lattice of infinitesimal nodes with relations between them defining "space," which emerge from a simple rule of substitution iterated around 10^500 times since the beginning of the universe. He explains a surprisingly large amount of properties and equations (including Einstein's equations, dark matter, the speed of light, etc.) using only the geometric and relational concepts he describes. It's truly impressive and I strongly believe this work has applications in, among other things, relational databases.
He speculates that our universe is "approximately" three dimensional. That leaves an interesting question. Until reading his persuasive article, I refused to believe that we live in non-Euclidean space. But now I'm not sure anymore. If I had to guess, I think we're going to discover that there are "Pi" dimensions.
He presents a novel theory that "oligons," which would be far smaller than the Planck length, are the source of dark matter halos around galaxies. He believes we are only scratching the surface and are looking at the "big" particles in the Standard Model. He presents arguments for why his estimates of the masses of particles are so small and what it means.
You also get the sense that Dr. Wolfram is seriously dedicated to this cause; he is open-sourcing his research and tools plus internal video documenting the process. I was left with a sense of wonder that there are people like Dr. Wolfram out there who are dedicated enough to spend millions of dollars of their own money proving their research. Fortunately, he still has a lot of good years left and it seems like maybe a fundamental theory of everything is within reach, possibly even within his lifetime. It's obvious he wants to live to see it, and that is great to see.
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But: Is it science? (Score:3)
This smells a lot of trying to act as of reality *is* mathematical models, as is common among a certain type of mathematicians that treat math like a religion and have apparently never heard of Gödel's incompleteness theorem.
Remember that any model, including *all of mathematics*, is only ever actual science, and not religion, if it 1. makes predictions, and 2. they are backed by actual observation from the real world. (Unlike mere axioms aka paradigms aka dogmas.) With them 3. ideally being useful or
Re:But: Is it science? (Score:5, Insightful)
Remember that any model, including *all of mathematics*, is only ever actual science, and not religion, if it 1. makes predictions, and 2. they are backed by actual observation from the real world.
There's this thing called abductive reasoning that most people have never heard of. The idea is that if you can find a theory that replaces another by explaining the same observations, but it requires fewer assumptions / constants than the original, then it is more likely correct.
That's the whole purpose of String Theory, to go from 19 fundamental degrees of freedom of the standard model, down to 1 or 2, and have those 19 be explained as emergent phenomena. Pretentious peanut-casting slashdotters be damned, this is an incredibly valid and meaningful pursuit.
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Absolutely. Except string theory has failed to do that. The standard model has a fairly high dimensional parameter space, but you can measure the correct values and thereby generate the theory that describes reality.
String theory began with the promise that you could eliminate a bunch of those parameters by explaining them with a deeper theory. Potentially, you could get the right theory just by setting a few of the basic properties of a fundamental string. Except it turned out that the way the extra dimens
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The point I'm trying to make is that these metaphysical theories cannot be judged by the same scientific metrics as normal physical theories. Due to the unthinkable energies potentially required to illuminate the most fundamental building blocks of matter (e.g. something the size of a superstring), typical scientific principles are an unrealistic, unp
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He explains a surprisingly large amount of properties and equations (including Einstein's equations, dark matter, the speed of light, etc.) using only the geometric and relational concepts he describes
The geometrical interpretations involving 'foliations' he uses seem to have little or no convincing justification for the results he claims for them or why they even have meaning for a fundamentally abstract causal tree. I also sense a great deal of hand waving over time in the detail.
Re:Summary of article/post (Score:4, Informative)
Yes-- start here: https://www.wolframphysics.org... [wolframphysics.org]
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To quote my old professor "There was too much text. I only read the equations". But there were no equations.
I would have liked some kind of example that perhaps explains a double slit experiment or Bells theorem.
Moderator STATUS? (Score:2)
Hold on, when did we move from mod points that everyone can get to a cabal with moderator "status"?
Comment removed (Score:5, Interesting)
Re:And this lead us... where, exactly? (Score:5, Interesting)
If QM can be derived from a cellular automata then we should be able to derive exactly what is going on underneath the hood during measurements, quantum teleportation, quantum bomb detectors etc.
New Kind of Science was a very very long time ago but I don't recall that he ever reconciled it with QM. Bells theorem is a bitch since it forbids local hidden variables and at first glance it seems like cellular automata would be a kind of local hidden variable theory. I haven't read any of the new stuff but that is where I would start since it just seems incompatible. I he can reconcile cellular automata with QM and Bells theorem then I'd be very much intrigued.
Wolfram again? (Score:2)
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Always be wary of self-published scientific claims (Score:3)
It doesn't mean Wolfram is pulling a fast one, but thorough skepticism is definitely warranted.
Re:Always be wary of self-published scientific cla (Score:4, Interesting)
Yawn. Wake me when there's something testable. (Score:2)
Theories without physical, testable, measurable results aren't theories. They're a form of complex mental masturbation (not that there's anything wrong with that).
All very interesting I'm sure (Score:2)
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This is the foundation of Descartes's proof of the existence of God, also known as Descartes Ontological Problem. It's been roundly rejected as poor logic since then, but it's interesting to understand.
Re:predictions? (Score:5, Interesting)
That's not correct. It makes lots of predictions that can be tested.
The problem is it doesn't look like any of them match what we see.
And his answer is "OK, we need to make another prediction."
It's not inconceivable that this will work. I, personally, don't give it a high rating, but it's not inconceivable. The problem is that emergent behavior can be very expensive to compute. Consider "Langton's ant" (and it's not the worst example, just one of the simplest).
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The physics is irrelevant
So you're saying you read and understood the 448 pages since the site was released (today).
No, I did't! (Score:2)
Signed,
Higher Being
What, don't believe me? What happened to faith? :D