• UnderpantsWeevil@lemmy.world
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      3 months ago

      It is legitimately cool when a bunch of mathematicians get together in a room and say “Look at all the cool shapes and patterns we made,” then show it to a physicist who goes all frantic and starts shouting “OMG! I understand how stuff works!”

    • Soleos@lemmy.world
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      3 months ago

      Gotta love how the more “Applied” a field is, the more “Impure” it is.

  • Zwiebel@feddit.org
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    3 months ago

    Calling a made up construct “the absolute truth” is hilarious

    • MBM@lemmings.world
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      3 months ago

      The way I see it, axioms and notation are made up but everything that follows is absolute truth

        • Malgas@beehaw.org
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          3 months ago

          The thing that is absolute is a predicate of the form “if [axioms] then [theorems]”.

          And the fun thing about if statements is that they can be true even when the premise is false.

          • luciole (he/him)@beehaw.org
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            3 months ago

            Of course in boolean algebra “if [false] then p” is always true no matter “p”, but it’s not telling us much.

      • UnderpantsWeevil@lemmy.world
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        3 months ago

        Axioms can be demonstrated. They don’t have to be purely theoretical.

        Mass and Energy are axiomatic to the study of physics, for instance. The periodic table is axiomatic to understanding chemistry. You can establish something as self-evident that’s also demonstrably true.

        One could argue that mathematics is less a physical thing than a language to describe a thing. But once you have that shared language, you can factually guarantee certain fundamental ideas. The idea of an empty set is demonstrable, for instance. You can even demonstrate the idea of infinity, assuming you’re not existing in a closed system.

        You can posit axioms that don’t fit reality, too. And you can build up features of this hypothetical space that diverge from our own. But then you can demonstrate why those axioms can’t apply to this space and agree as such with whomever you’re trying to convey ideas.

        When we talk about “absolute truth”, we’re talking about a point of universal rational consensus. Mathematics is a language that helps us extend subjective observation into objective conclusion. That’s what makes it a useful tool in scientific inquiry.

    • I'm back on my BS 🤪@lemmy.autism.place
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      3 months ago

      The test to know if anything is an absolute truth is if it is called an absolute truth. If it is called an absolute truth, then it isn’t an absolute truth. If it isn’t called an absolute truth, then it isn’t an absolute truth. Absolute truths don’t exist. If someone tells you something is an absolute truth, stop listening to them.

    • samus12345@lemmy.world
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      3 months ago

      They’re made up constructs that reflect the absolute truth when applied correctly (from his perspective).

    • Phoenix3875@lemmy.world
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      3 months ago

      Well, it depends on your definition of truth and it could be the absolute truth by definition. A theorem is absolutely true in the same way that “a bachelor is an unmarried man” is categorically true.

      • barsoap@lemm.ee
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        3 months ago

        “This line on the map is perpendicular to this other line on the map” is not a statement about the territory.

      • Srh@lemmy.world
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        3 months ago

        That just means we can’t know everything about the system. Not that it is not true.

      • barsoap@lemm.ee
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        3 months ago

        That’s computer science alongside with Church/Turing. Maths could have tried to claim it but they doubled down on formalism so they don’t deserve it.

        That said though incompleteness follows from nothing but logical implication itself so it’s more fundamental than physics (try to imagine a physics without cause and effect that doesn’t get you cancelled because Boltzmann) and philosophy (find me a philosopher who wasn’t asleep during their logic lectures).

        • i_love_FFT@lemmy.ml
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          Yeah, I meant to say that the incompleteness theorem proves that math cannot be perfectly pure and fundamental. I don’t exactly care which field claims it, because I don’t like to encourage artificial boundaries between disciplines. It’s nice to use information theory results in physics :)

          • barsoap@lemm.ee
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            3 months ago

            The other way around: As long as you accept that cause and effect are a thing, you must accept that there are things that are, fundamentally, uncomputable. And as our universe very much does seem to have cause and effect that’s a physical law, likewise is complexity theory. Differently put: God can’t sort a list with fewer than O(n log n) comparisons.

  • azi
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    3 months ago

    The confused looking guy from the "you guys are getting paid?" meme

    You guys believe in objective reality?

  • Steamymoomilk@sh.itjust.works
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    3 months ago

    Computer science, we use both of your tools to solve problems. And make an electronic canarys aka AI

    Which dont solve much :/

  • flamingo_pinyata@sopuli.xyz
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    3 months ago

    If someone needs another existental crisis here’s a prompt:

    • Is math universal or is it a system of thought invented by humans and it only makes sense to us?
    • Codex@lemmy.world
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      3 months ago

      Models. Humans hold models of the world in their minds, math helps you understand and create more complex and consistent models. You always exist in a simulation of your own construction to make sense of the universe.

      My feeling is that no model can ever fully capture a complete description of reality, the information isn’t compressible to such a degree that approximations or abstractions can be lossless.

      Most of what we consider to be invention is merely combinatoric novelty.

    • Kwiila@slrpnk.net
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      3 months ago

      How we express math is particular to us, though it’d be commonly decipherable. Math is more and more globally standardized as more of it gets globally acknowledged as “the most useful” way to do math. E.g. place holder 0 vs Roman Numerals. Ratios are conceptually universal to any species that bothers measuring. Quantification maybe less so. Especially if their comprehension of advanced sciences/engineering is somehow intuitive instead of formally calculated.

      If a space faring species has a concept of proportions/ratios, but not individual identity of numbers, presenting Meters as a portion of the speed of light might be a universal way discern the rest of our math. Water as Liters might be more accessible, depending on how they think of water.

      Sets and Axioms are purely conceptually representative and so viable as long as they’re capable of symbolic abstraction at all.

    • Artyom@lemm.ee
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      3 months ago

      Good thing physicists solved that problem already; if everything is made up and can only be observed through our preconceived notions and there’s no way to prove a world beyond them, then it doesn’t matter. The universe we can observe is reality and everything beyond that is beyond meaningful definition and is therefore useless, which is how we define “philosophy”.

    • pumpkinseedoil
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      3 months ago

      Universal. How else would you calculate or solve equations?

        • pumpkinseedoil
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          3 months ago

          The rules are the same. Add 3 to 5 and you’ll always have 8. Geometric calculations can’t change how they work either. Etc.

    • JackbyDev@programming.dev
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      3 months ago

      Math is definitely universal. The math behind things in science wouldn’t suddenly change on different alien planets. Take things like V = IR. That relies on multiplication and division. It’s gonna be the same on other planets. The units, notation, etc. will be different but the concepts would be the same.

      • I'm back on my BS 🤪@lemmy.autism.place
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        3 months ago

        I’m no STEM major, so I may be way off, but this is how I see it.

        V = IR isn’t math. It’s a way of defining the relationship and outcome of two specific physical qualities. It says that we combine the resistance of a medium ( R) with the current flowing through it (I) into another joint emergent quality we call voltage (V). We do this because it makes our understanding of the physical world easier to manage since this relationship has helpful applications.

        Math is simply patterns in the relationships of quantities. It excludes any physical units or qualities. In other words, math is the art of counting.

        • JackbyDev@programming.dev
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          I think you’re misunderstanding my point. I’m not saying the relationship of V = IR means math exists, what I’m saying is that because that relationship factually exists aliens would have a way to quantify that relationship. Because of that they would have a way to express the concepts of multiplication and division.

    • smeg@feddit.uk
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      3 months ago

      BURN THE HERETIC!

      But seriously though, yes, but useless isn’t the same as pointless. Art by some definitions is useless, but it can still have a point, even if that point it just to be fun.

      • atro_city@fedia.io
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        3 months ago

        I agree. I’m pretty sure a bunch of stuff that Euler did was considered useless until it actually was used hundreds of years later. I’m pretty sure topology had a lot of people wondering what the hell to use it for until it was rediscovered multiple times.

        • aoidenpa@lemmy.world
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          3 months ago

          I imagine it like this: First we do the useful stuff as much as we can. But at some point it slows down and halts. Then with that knowledge doing useless stuff is easier. So we widen the search. Maybe most of them are really useless but few that can make a breakthrough is enough. Now back to useful stuff. This process is not discrete of course it’s more dynamic and fluid. Does this make sense?

    • cynar@lemmy.world
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      3 months ago

      Theories can be a stepping stone to other theories. Until we explore those chains, we don’t know if there is anything useful at the end.

      E.g. initially, lasers were a solution looking for a problem. An interesting quirk possible due to some interesting bit of physics.

      Maths explores idea spaces. Much of that is purely of interest to other mathematicians. However, it sometimes intersects with areas of interest to other scientists, at which point it becomes extremely useful.

    • galoisghost@aussie.zone
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      3 months ago

      Theory without application is often the entire point in certain academic circles and if someone comes along and finds a practical use for their mathematically based philosophical musings they delve deeper looking for the pureness

  • hardy@lemmy.ml
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    3 months ago

    Bruh… then imagine how hard a philosopher’s world would be like…

  • Karyoplasma@discuss.tchncs.de
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    3 months ago

    I don’t understand this meme format. Are the speech bubbles the texts received or the texts sent? It looks like they’re typing, so could be both.