dendros
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Well, that is not my objection but of those who reject infinity in math.
They seem to conflate our limits with math's limits.
They seem to conflate our limits with math's limits.
dendros said:But to negate the infinity of the set of naturals, for example, is like negating math since addition with 1 guarantees that a number can always be increased so there is not a last natural number.
Did you instead mean to say "dispute the infinity of ..." rather than "negate"?dendros said:Now, some might say that you cannot actually perform this addition an infinite number of times, which is true.
This does not negate the actual infinity of the set of naturals but rather expresses that we have finite resources.
Somewhat off topic to the thread, but just to close the loop on this: in our cosmological models the *observable* universe is finite due to the finite speed of light and the age of the universe being finite (~13.8Gyr). "The universe" has unknown status. Einstein's eqns admit both spatially finite (closed is the better term, there's no edge but the universe loops back in on itself) and infinite solutions. Our most basic data points to a roughly flat FLRW metric which would correspond to an infinite universe.FactChecker said:No. I think it is part of the "Big Bang" expansion theory. But I will not say more, because I do not know more. I'll leave it to others.
Yeah, I mean you cannot even use the typical axioms of addition on the natural numbers.Matterwave said:it seems to me like Finitists have a lot of theory to develop if they want their mathematics to reach anywhere near the utility of standard mathematics
Actually, no. As early as the mid-18th century, Immanuel Kant and Thomas Wright proposed the "island universes" hypothesis—the idea that nebulae were, in fact, collections of stars similar to the Milky Way. This idea captivated a significant number of scientists, as illustrated by the famous Great Debate between Shapley and Curtis, which culminated in 1924 when Edwin Hubble demonstrated that Andromeda was, in reality, another galaxy.jeffn1 said:For example up until the '60s, we thought our Milky Way Galaxy was "the universe". And people argued that it was "infinite".
I covered this in posts 13 and 18.WWGD said:
I think no, if you mean a finite universe of elements. Not sure if you need finitely- many predicates too. Then just checking finitely many conditions is your finite decision process to determine the truth.javisot said:We have very powerful mathematics thanks to dealing with the finite and the infinite; it would be less powerful if we only treated the finite as a mathematical object. Fewer tools, less depth, less rigor, etc.
(I have a question: in a context of "only finite mathematics" are incompleteness theorems still relevant? I would say no, but I prefer to ask.)
Remind me... which axiom set includes this "God" concept.FactChecker said:In understanding the truth of things, is it important that we can not perform the addition an infinite number of times? What if God can do it?
(I hesitate to put it that way and possibly sidetrack the discussion, but I don't see how the physical limitations of humans should limit our conceptual understanding. If a human could perform each addition in half the time of the prior addition, he could complete it quickly.)
If your theory of reality is limited by computer processor speed, you need to think hard about what is real. If that is true, how was anything real before computers and humans existed?zzephod said:Remind me... which axiom set includes this "God" concept.
What you want is an appropriate theory/model of hyper-computation, which allows the completion of a countable infinity of operations in finite time... good-luck building a processor that realises such a model in this universe.
Mathematica does such computations quite easily.zzephod said:What you want is an appropriate theory/model of hyper-computation, which allows the completion of a countable infinity of operations in finite time
Chuck Norris did it twice. He failed at his third attempt earlier this year. R.I.P.FactChecker said:In understanding the truth of things, is it important that we can not perform the addition an infinite number of times? What if God can do it?
That concisely captures my argument, yes.Roberto Pavani said:To me, "without bound" seems to describe a process, whereas infinity in this context appears as part of the limiting construction that defines the object itself.
This is wrong. If Hilbert's hotel is finite and it's full, then it's full. If it's not finite, then it's infinite (not finite). It can't be something in between. A single hotel can't be "arbitrarily large".DaveC426913 said:Latecomer here.
I got the impression that the OP was more wondering if - rather than the very concrete entity of infinity, the concept of without bound was sufficient.
Eg.: Hilbert's Hotel can be handled using without bound - no need to invoke infinity. Because you never really get there.
It's all about the trip, not the destination. If your journey never ends, you don't really need to define anything about the destination.
Or is that a distinction without a difference?
You've given several good examples of why finite mathematics loses a lot of what we know as conventional mathematics. It's not just about the natural numbers. It's everything, except finite groups, geometries and combinatorics etc. Real-valued functions of a real variable involve uncountable infinity, which is completely outside the scope of finite mathematics.Roberto Pavani said:Consider ##\sin(1/x)## on ##(0,1]##.
For any ##N \in \mathbb{N}##, let ##\varepsilon=1/N##.
Then the interval ##(0,\varepsilon)## contains more than ##N## zeros of the function. In fact, it contains infinitely many zeros.
So the infinite aspect here is not associated with something extending arbitrarily far away. Instead, infinitely much structure is concentrated within an arbitrarily small interval.
This makes me wonder whether "without bound" fully captures what mathematicians mean by infinity.
I think the “without bound” works for the epsilon delta approach to calculus. And it probably works for infinite sequences and series. But I don’t think that it works for cardinality.Roberto Pavani said:This makes me wonder whether "without bound" fully captures what mathematicians mean by infinity.
Look up NJ Wildberger, he's got a YouTube channel.https://youtube.com/shorts/8uGQyxt_Pso?si=_dT3apQAHr12U4PbMatterwave said:It would be interesting if a mathematical Finitist could come and explain their position in a clear and coherent way.
I suspect most (all?) folks here (including myself) are not finitists and we're just beating a dead horse at the moment.
But of course if we take the view that mathematics is abstract and need not correspond to the world, then any set of axioms, as long as they do not form self contradictions, are valid fields of study and the differentiator can only be utility.
I wonder, for example, whether Finitists generally ascribe to the abstractness of mathematics.