'When Are Relations Neither True Nor False?
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From: Tim Golden BandTech.com on 31 Mar 2010 10:02 On Mar 30, 4:29 pm, Transfer Principle <lwal...(a)lausd.net> wrote: > On Mar 27, 7:02 am, "Tim Golden BandTech.com" <tttppp...(a)yahoo.com> > wrote: > > > On Mar 26, 5:55 pm, Nam Nguyen <namducngu...(a)shaw.ca> wrote: > > > Any rate, enough talk. Do you have even a single absolute truth you > > > could show me so that I'd realize I've been wrong all along? Let's > > > begin with the natural numbers: which formula in the language of > > > arithmetic could _you_ demonstrate as absolutely true? > > There is a fairly straightforward construction that can yield both > > boolean logic and continuous higher forms, and even a lower form that > > I will call universal. > > Constrain the real numbers to those values whose magnitude is unity. > > We see two options > > +1, -1 . > > Using polysign numbers extend this system to P3. > > Ah yes, the polysign numbers. I still remember Golden's constuction > of these sets. > > > One might initially consider there to be a three verticed logic here, > > but in the general form we see that the unity values now form a > > continuous circle. > > There was a discussion of alternate-valued logic back when tommy1729 > proposed using three-valued logic (tommy1729 being, of course, one of > Golden's biggest supporters). But we found out that usually, standard > theorists object to these alternate forms of logic. > > For one thing, standard theorists obviously accept two-valued Boolean > logic (FOL), and they appear to be open to continuum-valued logic > (also called "fuzzy" logic). But they tend to object to kappa-valued > logic, where kappa is a cardinal that is strictly between two and the > cardinality of the continuum. > > > In two dimensions we see that the same procedure yields a continuum of > > values, though there are arguably those three unique positions > > -1, +1, *1 . > > But notice that Golden does acknowledge a continuum of values. So > perhaps this could be a form of fuzzy logic that the standard > theorists > might accept as well. Thank you TP. > > There's a huge difference between fuzzy logic and Golden's though. For > fuzzy logic usually considers the values to lie in the interval [0,1], > with > 0 being false and 1 being true. Golden's fuzzy logic is decidedly > _not_ > described by the interval [0,1] at all. > > Golden regularly points out that multiplication on the set {-1,+1,*1} > in > P3 is isomorphic to addition in the group Z/3Z. No, P3 are the complex numbers in a different format. I refute the ring quotient construction method because the polynomial is ill constructed within abstract algebra's own definition of ring. There is no addition/multiplication crossover as you suggest. The equivalence is well beyond isomorphism. These are literally the same numbers in two different formats. For instance one might use (r,theta) notation for a complex value or a+bi notation, and now a P3 value can be used on the same level, but with no further rules created than the real numbers already contained. P3 and P2 are merely members of the same family, and their little sibling P1 is quite a simple contraption that most can barely catch a whiff of from their cartesian base. > In general, Golden > wishes to construct an n-valued logic by considering a subset of Pn > that's isomorphic to addition in the group Z/nZ, which is also > isomorphic to the multiplicative set of nth roots of unity in C. (As > was > discussed in many previous Golden threads, _addition_ in Pn is not > isomorphic to _addition_ in C, but this current subthread only deals > with multiplication, not addition.) No. Addition is easily the same as addition in the complex numbers. Polysign numbers form a vector space which exposes simplex geometry as fundamental. P3 are identical to the complex numbers, just in a different format. Pn are well behaved algebraically; consistent with the ring definition. > > Thus, our continuum-valued logic can be described by the entire unit > circle in C, not the unit interval [0,1]. Yes. And that this is merely the generalization of the binary logic when constructed as I've layed it out. Within physics struggles go on about circular construction within fundamentals. Circular thinking abounds and perhaps what we have is a stability criterion, for if A -> B -> C -> A then we have a stable loop. Whether there is actually a continuum here could become a linguistic problem. We are using a discrete language and this may necessarily deny us some purity, yet within this language we have no upper limit on the ways that we can say something. Many attempt the shortest possible rendition, yet that can be handicapping. As the length of the rendition rises then perhaps an attempt at the continuous form is made even while in the discrete language. > > Now we ask ourselves, is such a logic even possible. Back in the > tommy1729 three-valued logic threads, the standard theorists often > pointed out that what they needed to see were the laws of inference > for any proposed logic. Without laws of inference, one can't really > call > it a logic at all. In order to aquire the binary logic from the continuum (and polysign sx are on the continuum as they use x as a continuous magnitude, s as discrete sign) one has to constrain that continuum. Rather than using 0 and 1 it makes much more sense to use +1 and -1, for then the sign product matches the logical behaviors, allowing for the observation that stanard boolean or binary logic contains a modulo-2 behavior: Not(Not(A)) = A . - - A = A . In that the commutative and distributive principles hold up for polysign then there is hope for the inference generalization that you ask for. Bateson finished his days considering the following logical construction: Grass dies. Men die. Men are grass. The problem is open Transfer Principle. > > I wouldn't mind taking at the laws of inference for fuzzy logic and > modifying them so that they work for Golden's logic. But of course, I > don't own a textbook on fuzzy logic or its laws of inference, nor do I > plan on owning such a book anytime soon. > > > By leaving the Euclidean and working the sphere these forms exist > > naturally. > > Hmmm, non-Euclidean geometry and the sphere. This reminds me of > AP's work as well. I wonder whether the AP-adics might work better > if we used Golden's logic instead of FOL. (And before Jesse Hughes > or anyone else protests, I'm fully aware that the link between > Golden's > post here and AP's work is even flimsier than that between Newberry > and Clarke. I'm the one who's trying to unify the so-called "cranks" > as > best as I can in order to find a theory that will satisfy at least two > of > them, which saves me work from having to find a different theory for > each and every "crank.") Well, so far you have not falsified me and instead I have falsified you twice. No credentials are required to understand this. Still, thanks for the review. The point is TP that the binary logic, when taken as -1 and +1 are the geometry of the sphere in one dimension. That this generalizes to a continuous logic in two dimensions does not necessarily rely upon the polysign numbers, but I am happy to frame the problem within them, for there is no need of a cartesian product and so a simpler argument is made. Here we see a nifty continuous/discrete paradigm in action that is pure geometry, and even a little bit algebra too. Also, since I'm sure Tommy will love to be talked about I did once call him a dangerous ally here, but I would point out to you that his interest in mathematics is very sincere and his innocent egotism is actually quite refreshing compared to the third order reasoning of some. To head toward the fundamentals requires first order reasoning, and I believe that this is lacking in todays accumulation. How nice it is to discuss such a simple topic as logic and consider the human limitations of perception and language, even if just tangentially. What if we simply are not capable of a P3 or P4 language within existing P2 language? Duality and Universality are thus far accepted by philosopher and physicist as principles. Can we make it up to Triality? Thanks for the strong post. - Tim
From: Tim Golden BandTech.com on 31 Mar 2010 10:04 On Mar 30, 11:52 pm, Nam Nguyen <namducngu...(a)shaw.ca> wrote: > Tim Golden BandTech.com wrote: > > On Mar 27, 11:25 am, Nam Nguyen <namducngu...(a)shaw.ca> wrote: > >> Tim Golden BandTech.com wrote: > >>> On Mar 26, 5:55 pm, Nam Nguyen <namducngu...(a)shaw.ca> wrote: > >>>> Nam Nguyen wrote: > >>>>> Alan Smaill wrote: > >>>>>> Nam Nguyen <namducngu...(a)shaw.ca> writes: > >>>>>>>> Seriously, if you could demonstrate a truly absolute abstract truth > >>>>>>>> in mathematical reasoning, I'd leave the forum never coming back. > >>>>>>> If you can't (general "you") then I'm sorry: my duty to the Zen council, > >>>>>>> so to speak, is to see to it that "absolute" truths such as G(PA) is a > >>>>>>> thing of the past, if not of oblivion. > >>>>>> one day you will realise that your duty to the Zen council > >>>>>> is to overcome your feeling of duty to what is purely subjective ... > >>>>> I'm sure your belief in the "absolute" truth of G(PA) is subjective, which > >>>>> you'd need to overcome - someday. Each of us (including Godel) coming to > >>>>> mathematics and reasoning has our own subjective "baggage". > >>>>> Is it FOL, or FOL=, that you've alluded to? For example. > >>>> Note how much this physical reality has influenced and shaped our > >>>> mathematics and mathematical reasonings. Euclidean postulates had their > >>>> root in our once perception of space. From P(a) we infer Ex[P(x)] > >>>> wouldn't be an inference if the our physical reality didn't support > >>>> such at least in some way. And uncertainty in physics is a form > >>>> relativity. > >>>> The point is relativity runs deep in reality and you're not fighting > >>>> with a lone person: you're fighting against your own limitation! > >>>> Any rate, enough talk. Do you have even a single absolute truth you > >>>> could show me so that I'd realize I've been wrong all along? Let's > >>>> begin with the natural numbers: which formula in the language of > >>>> arithmetic could _you_ demonstrate as absolutely true? > >>> There is a fairly straightforward construction that can yield both > >>> boolean logic and continuous higher forms, and even a lower form that > >>> I will call universal. > >>> Constrain the real numbers to those values whose magnitude is unity. > >>> We see two options > >>> +1, -1 . > >> It's relative as to how many real numbers one could "constrain". So > >> "constraint" is a relative notion, not an absolute one. > > >> In any rate, in all the below (including the URL) I still couldn't > >> see an absolute truth. Could you state such truth here? > > > By accepting the generalization of sign the existence of dimension > > follows directly. > > That is the most absolute truth that I've come up with. > > So what would happen if one doesn't accept the "the generalization > of sign"? Would we get a relative truth, or an absolute falsehood?
From: Tim Golden BandTech.com on 31 Mar 2010 10:23 On Mar 30, 11:52 pm, Nam Nguyen <namducngu...(a)shaw.ca> wrote: > Tim Golden BandTech.com wrote: > > On Mar 27, 11:25 am, Nam Nguyen <namducngu...(a)shaw.ca> wrote: > >> Tim Golden BandTech.com wrote: > >>> On Mar 26, 5:55 pm, Nam Nguyen <namducngu...(a)shaw.ca> wrote: > >>>> Nam Nguyen wrote: > >>>>> Alan Smaill wrote: > >>>>>> Nam Nguyen <namducngu...(a)shaw.ca> writes: > >>>>>>>> Seriously, if you could demonstrate a truly absolute abstract truth > >>>>>>>> in mathematical reasoning, I'd leave the forum never coming back. > >>>>>>> If you can't (general "you") then I'm sorry: my duty to the Zen council, > >>>>>>> so to speak, is to see to it that "absolute" truths such as G(PA) is a > >>>>>>> thing of the past, if not of oblivion. > >>>>>> one day you will realise that your duty to the Zen council > >>>>>> is to overcome your feeling of duty to what is purely subjective ... > >>>>> I'm sure your belief in the "absolute" truth of G(PA) is subjective, which > >>>>> you'd need to overcome - someday. Each of us (including Godel) coming to > >>>>> mathematics and reasoning has our own subjective "baggage". > >>>>> Is it FOL, or FOL=, that you've alluded to? For example. > >>>> Note how much this physical reality has influenced and shaped our > >>>> mathematics and mathematical reasonings. Euclidean postulates had their > >>>> root in our once perception of space. From P(a) we infer Ex[P(x)] > >>>> wouldn't be an inference if the our physical reality didn't support > >>>> such at least in some way. And uncertainty in physics is a form > >>>> relativity. > >>>> The point is relativity runs deep in reality and you're not fighting > >>>> with a lone person: you're fighting against your own limitation! > >>>> Any rate, enough talk. Do you have even a single absolute truth you > >>>> could show me so that I'd realize I've been wrong all along? Let's > >>>> begin with the natural numbers: which formula in the language of > >>>> arithmetic could _you_ demonstrate as absolutely true? > >>> There is a fairly straightforward construction that can yield both > >>> boolean logic and continuous higher forms, and even a lower form that > >>> I will call universal. > >>> Constrain the real numbers to those values whose magnitude is unity. > >>> We see two options > >>> +1, -1 . > >> It's relative as to how many real numbers one could "constrain". So > >> "constraint" is a relative notion, not an absolute one. > > >> In any rate, in all the below (including the URL) I still couldn't > >> see an absolute truth. Could you state such truth here? > > > By accepting the generalization of sign the existence of dimension > > follows directly. > > That is the most absolute truth that I've come up with. > > So what would happen if one doesn't accept the "the generalization > of sign"? Would we get a relative truth, or an absolute falsehood? An argument can be made that by denying the generalization of sign that you then have denied sign altogether, for the two-signed real number is but an instance of the generalization. One would need a conflict of the three-signed number which does not exist for the two- signed number, but no such conflict exists. Instead what we witness is that the three-signed number is the complex number, the next after the real number, even historically speaking. From a physical perspective denial of sign is actually fairly sensible. We can see the physical world does not really yield negative distance using measuring rods, nor negative temperatures when absolute zero is accepted, nor negative masses. Some of the few things that do seem to have positive and negative happen to be discrete (e.g. charge) and so are actually consistent with the spherical one dimensional construction. Nam, your annoying responses do not expose any processing on your part. That sign and dimension are closely linked is the most profound portion and now we are approaching it, or at least I am approaching it here as paragraph three where these two prior paragraphs are exposing a divergence. The fact that we exist in a three dimensional space is well developed, and that time is a feature of existence as well. Here is the deepest marriage of sign, for the polysign numbers allow natural arithmetic support for spacetime, including unidirectional time. Polysign numbers dictate that spacetime is structured. This then becomes a paradigm consistent with Maxwell's equations and is the edge that I am working at. We have the freedom to manually fix the deck of cards for the card trick. We are even free to build our own cards; draw whatever you want on them. Still I am missing at least one card. - Tim
From: Aatu Koskensilta on 31 Mar 2010 10:30 Newberry <newberryxy(a)gmail.com> writes: > No. I see. So you agree that for any formal theory T which is an extension of Robinson arithmetic, either directly or through an interpretation, and in which we can express statements of the form "the Diophantine equation D(x1, ..., xn) = 0 has no solutions", there are infinitely many true statements (of the form "the Diophantine equation D(x1, ..., xn) = 0 has no solutions") that are unprovable in T if T is consistent? > You never answered my question what you ment by "Goedel." You have asked me what I mean by "Goedel"? -- Aatu Koskensilta (aatu.koskensilta(a)uta.fi) "Wovon man nicht sprechan kann, dar�ber muss man schweigen" - Ludwig Wittgenstein, Tractatus Logico-Philosophicus
From: Daryl McCullough on 31 Mar 2010 10:35
In article <87eij05ztb.fsf(a)dialatheia.truth.invalid>, Aatu Koskensilta says... > >Newberry <newberryxy(a)gmail.com> writes: > >> No. > >I see. So you agree that for any formal theory T which is an extension >of Robinson arithmetic, either directly or through an interpretation, >and in which we can express statements of the form "the Diophantine >equation D(x1, ..., xn) = 0 has no solutions", there are infinitely many >true statements (of the form "the Diophantine equation D(x1, ..., xn) = >0 has no solutions") that are unprovable in T if T is consistent? > >> You never answered my question what you ment by "Goedel." > >You have asked me what I mean by "Goedel"? When people write "Goedel", they usually mean "G�del". -- Daryl McCullough Ithaca, NY |