• ILikeBoobies@lemmy.ca
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    4 months ago

    “I may be a staunch atheist,” said Richard Stallman, creator of the GNU + Linux operating system and self-proclaimed architect of the modern world, “but any decent analysis in comparative religion would conclude that the universe is a copyleft creation, thereby pi should automatically fall under the terms of the GNUv3 license.”

    Lol, he would actually say that

  • livingcoder@programming.dev
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    4 months ago

    Is there an algorithm or number such that we could basically pirate data from it by saying “start digit 9,031,643,679 with length 5,345,109 is an MP4 of Shrek”? Something that we could calculate in a day or less?

  • Semi-Hemi-Lemmygod@lemmy.world
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    4 months ago

    If pi is truly infinite, then it contains all the works of Shakespeare, every version of Windows, and this comment I’m typing right now.

    • driving_crooner@lemmy.eco.br
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      4 months ago

      That’s not how it’s works. Being “infinite” is not enough, the number 1.110100100010000… is “infinite”, without repeating patterns and dosen’t have other digits that 1 or 0.

      • Fubber Nuckin'@lemmy.world
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        4 months ago

        If it’s infinite without repeating patterns then it just contain all patterns, no? Eh i guess that’s not how that works, is it? Half of all patterns is still infinity.

          • Ultraviolet@lemmy.world
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            4 months ago

            However, as the name implies, this is nothing special about pi. Almost all numbers have this property. If anything, it’s the integers that we should be finding weird, like you mean to tell me that every single digit after the decimal point is a zero? No matter how far you go, just zeroes forever?

      • HatchetHaro@lemmy.blahaj.zone
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        4 months ago

        to be fair, though, 1 and 0 are just binary representations of values, same as decimal and hexadecimal. within your example, we’d absolutely find the entire works of shakespeare encoded in ascii, unicode, and lcd pixel format with each letter arranged in 3x5 grids.

          • leverage@lemdro.id
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            4 months ago

            You can encode base 2 as base 10, I don’t think anyone is saying it exists in binary form.

        • CanadaPlus@lemmy.sdf.org
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          4 months ago

          Actually, there’d only be single pixels past digit 225 in the last example, if I understand you correctly.

          If we can choose encoding, we can “cheat” by effectively embedding whatever we want to find in the encoding. The existence of every substring in a one of a set of ordinary encodings might not even be a weaker property than a fixed encoding, though, because infinities can be like that.

        • Kogasa@programming.dev
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          4 months ago

          Still not enough, or at least pi is not known to have this property. You need the number to be “normal” (or a slightly weaker property) which turns out to be hard to prove about most numbers.

            • barsquid@lemmy.world
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              4 months ago

              “Nearly all real numbers are normal (basically no real numbers are not normal), but we’re only aware of a few. This one literally non-computable one for sure. Maybe sqrt(2).”

              Gotta love it.

              • CanadaPlus@lemmy.sdf.org
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                4 months ago

                We’re so used to dealing with real numbers it’s easy to forget they’re terrible. These puppies are a particularly egregious example I like to point to - functions that preserve addition but literally black out the entire x-y plane when plotted. On rational numbers all additive functions are automatically linear, of the form mx+n. There’s no nice in-between on the reals, either; it’s the “curve” from hell or a line.

                Hot take, but I really hope physics will turn out to work without them.

    • Naz@sh.itjust.works
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      4 months ago

      shaves the sphere down with a sculptor’s knife

      There. 3.1416. Not perfectly round but it’ll bake in the oven just fine.