xkcd: Coordinate Precision but pi (π)?

I tried looking for some answer but found mostly

  • People reciting pi
  • People teaching how to memorize pi
  • How to calculate pi using different formula
  • How many digits NASA uses

Update question to be more specific

In case someone see this later, what is the most advanced object you can build or perform its task, with different length of pi?

0, 3 => you can’t make a full circle

1, 3.1 => very wobbly circle

2, 3.14 => perfect hole on a beach

3, 3.142 => ??

4, 3.1416 => ??

5, 3.14159 => ??

Old question below

In practice, the majority of people will never require any extra digit past 3.14. Some engineering may go to 3.1416. And unless you are doing space stuff 3.14159 is probably more than sufficient.

But at which point do a situation require extra digit?
From 3 to 3.1 to 3.14 and so on.

My non-existing rubber duck told me I can just plug these into a graphing calculator. facepalm

y=(2πx−(2·3.14x))

y=abs(2πx−(2·3.142x))

y=abs(2πx−(2·3.1416x))

y=(2πx−(2·3.14159x))

Got adequate answer from @dual_sport_dork and @howrar
Any extra example of big object and its minimum pi approximation still welcome.

  • dual_sport_dork 🐧🗡️@lemmy.world
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    1 year ago

    On the NASA front, I believe I read somewhere that NASA determined that only 40 decimal places of pi are required to define a sphere the size of the observable universe to the accuracy of +/- the width of one hydrogen atom. It seems like you could file that under “close enough.”

    Just using 3 is certainly too low of a precision – unless you’re writing a major work of religious literature, of course. 3.1 is likewise unlikely to result in acceptable accuracy on a terrestrial scale. I’ve always used 3.14159 which is conveniently exactly what I can remember without looking it up and it’s always been good enough for me. I don’t think I’ve ever in my life needed to scribe a circle much larger than a couple of feet across at any rate.

    You may be interested in reading this: https://blogs.scientificamerican.com/observations/how-much-pi-do-you-need/

    • user45178@lemmy.world
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      1 year ago

      Then why did we need to put in so much effort to get to the 100 billionth or so? When all we could ever need are 40, maybe 50 if you want?

      • Pons_Aelius@kbin.social
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        1 year ago

        It is not about actual use when they calculate pi to tthese numbers.

        It is about finding out if pi is actually irrational or is it recurring on some level.ie: does it start repeating at some point.

        • vrighter@discuss.tchncs.de
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          1 year ago

          nope, just for testing computers. We know pi is transcendental. Which implies it is irrational. This has been mathematically proven.

          We don’t need to check. We know that it does not repeat.

          • Chobbes@lemmy.world
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            1 year ago

            There’s facts about pi we don’t know, though. We have not proved whether or not pi contains every finite sequence of digits. A breakthrough about this will probably have little to do with brute force computing billions of digits of pi, but maybe there can be a clue there. As far as I know we basically just calculate a bunch of pi to flex. It’s the mathematical equivalent of walking around shirtless to show off your abs.

        • jasory@programming.dev
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          10 months ago

          Nope. Alexander Yee literally just wrote the program for shits and giggles. (Even the mathematical routines aren’t generally useful).

          Pi can be proven to be irrational with a pen and paper.

      • AlataOrange@lemmy.world
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        1 year ago

        In addition to what @Pons_Aelius replied, it is also used as a benchmark/flex for computers, as to who can build a beefy enough machine or good enough card to calculate more digits of pi.

        • jasory@programming.dev
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          10 months ago

          Nobody optimises their computer build by targeting pi computation. LAPACK benchmarks are far more useful, because linear algebra is actually extensively use; nobody calculates transcendental constants beyond IEE754 precision.

          Additionally that’s not how hardware is designed.

    • AmidFuror@kbin.social
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      1 year ago

      Upvoted for religious text reference. Another way to put it would be if you are OK with being off by 33% for insect leg count, you can use 3 for pi.

    • g6d3np81@kbin.socialOP
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      1 year ago

      Thank you, I already skimmed through that article before posting. Maybe I failed to put my question into words properly.

      I want examples similar to pool/fence circumference in the article. Along the line of “We’re building x, and this is the worst rounding we can go, one fewer digit and it will be off by y

    • AA5B@lemmy.world
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      1 year ago

      When we round pi to the integer 3 … to estimate the circumference of an object with a diameter of 100 feet, we will be off by a little over 14 feet.

      It seems like ‘3’ is sufficient for real life. It’s probably more precise that I can freehand draw a circle. If I really did need to measure the fencing for a circle with diameter 100’, it’s within the window of padding I would estimate

      • For those still in the dark, I’m referencing the bible in 1 Kings 7, 23-26:

        And he made a molten sea, ten cubits from the one brim to the other: it was round all about, and his height was five cubits: and a line of thirty cubits did compass it round about. And under the brim of it round about there were knops compassing it, ten in a cubit, compassing the sea round about: the knops were cast in two rows, when it was cast. It stood upon twelve oxen, three looking toward the north, and three looking toward the west, and three looking toward the south, and three looking toward the east: and the sea was set above upon them, and all their hinder parts were inward. And it was an hand breadth thick, and the brim thereof was wrought like the brim of a cup, with flowers of lilies: it contained two thousand baths.

        Those measurements would only work if either the cauldron were not actually circular, or if Pi were equal to 3.

  • howrar@lemmy.ca
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    1 year ago

    You can calculate this yourself. For example, if you’re working on an object that’s 1m in diameter and you use 3.14 to compute the circumference, then you can expect errors of up to 1m * (3.142 - 3.14) = 0.002m = 2mm.

    • Urist@lemmy.ml
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      1 year ago

      This is almost the real answer, only in reverse. Find what the appropriate error bounds of your problem is and use continuity (it probably is continuous) to find what decimal expansion you need. Or you could probably just find a solution expressible in pi and pick the decimal approximation needed. Either way, who cares about pi?

    • g6d3np81@kbin.socialOP
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      1 year ago

      Thank you. After thinking about it overnight, I realized I asked a wrong question. Your answer still helps greatly and get me more than half way to satiate my curiosity.
      Tolerance grade and example objects that require different grade/minimum pi accuracy is what I was looking for.

  • Magister@lemmy.world
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    1 year ago

    Not a lot, and this is why to speedup thing on some architecture, when working with (unsigned)integer you multiply by 355 then divide by 113 (it’s like 3.14159292035)

      • Kogasa@programming.dev
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        1 year ago

        There are infinitely many. Any sequence of rational numbers converging to pi contains infinitely many. 22/7 and 355/113 are just particularly good ones for their small denominators. You can find such good approximations (“the best rational approximations of a given size”) by truncating the continued fraction representation of pi:

        pi = [3;7,15,1,292,1,1,1,2,1,3,1,14,2,1,1,2,2,2,2,…]
        pi = 3  + 1/(7 + 1/(15 + 1/(1 + ... )))
        

        These approximations yield:

        pi ~ 3
        pi ~ 3 + 1/7 = 22/7
        pi ~ 3 + 1/(7 + 1/15) = 333/106
        pi ~ 3 + 1/(7 + 1/(15 + 1)) = 355/113
        pi ~ 3 + 1/(7 + 1/(15 + 1/(1 + 1/292))) = 97591/31065
        

        and so on. Note that by pure coincidence one of the first few terms is quite large (292), so the difference between the corresponding partial expansions is small (1 + 1/292 is close to 1). That’s why 355/113 is an unusually good approximation for such a small denominator.

    • deegeese@sopuli.xyz
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      1 year ago

      I’m not sure that’s a great trick. You have to remember 6 digits to calculate an approximation accurate to 8 digits.

      How many architectures in 2023 still lack a FPU? They were getting pretty rare when I last worked with this stuff 15 years ago.

      • Magister@lemmy.world
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        1 year ago

        you have to remember 11 33 55 and put the bar in the middle. It is mainly small MCU like ATMEGA and co. lacking FPU, and yes old stuff like Z80 ,6502, etc.

  • AlataOrange@lemmy.world
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    1 year ago

    The answer to your question is as simple as it is unsatisfying. Additional degrees of precision in construction are only as useful as your means to use them.

    If you using your saw can only cut to an accuracy of 1/8 of an inch, than any precision beyond that point is lost as you are unable to actualize it

    However if you are using a saw and you’re now at the point of your personal skill that you’re measuring to the inside or outside of the mark on a ruler, then it is likely time for you to graduate between more precise form of measurement.

    https://youtu.be/qE7dYhpI_bI?si=HCtTbklCA18ZieCh

    This video covers a lot of the interesting points around measurement and how we can never truly be perfectly accurate with any measurement of any non-discreet metric.

    To give a real world example if you are off by a millimeter diameter when building a car engine cylinder it will likely fail.

  • sadcoconut@lemm.ee
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    1 year ago

    Not a direct answer to the question but one thing not noted in other answers is in computing you often work at a higher precision than you need for your final answer as the errors tend to increase each time you do a mathematical operation.

    In the world of reasonably powerful hardware (laptops, desktops, servers, smart phones etc.) we’d typically work with 64 bit floating point numbers which gives pi to 15 digits (I think, not at a real computer now so can’t check). because it’s simple to do so even though we don’t need the full precision.

  • surewhynotlem@lemmy.world
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    1 year ago

    It’s been about 20 years since my engineering degree, but we used to memorize to six decimal places. Anything more than that is never used.

        • magnetosphere@kbin.social
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          1 year ago

          Yes. I had a science teacher devote a significant portion of a day’s lecture to that exact subject: the difference between accuracy and precision. You got it right.

          For example, if you have a digital scale that displays weight to five decimal points, it’s precise. If that scale hasn’t been properly calibrated, though, it will give you a very precise number that isn’t accurate.

      • Chobbes@lemmy.world
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        1 year ago

        It is kind of weird that real world measurements always have error to them so you only really know something to a few digits of precision… but mathematical constants like pi can have effectively have unlimited significant figures (but it’s kind of pointless to have more because any real world applications only need a rather small amount of them). I feel kind of similarly about integration. It’s nice to find a closed form solution for an integral, which can make certain calculations a lot faster and more accurate… but in reality if you’re just solving an integral or two for an engineering project you’re probably better off just computing it numerically to the correct number of sig figs. There’s something a little sad about that to me.

  • HobbitFoot @thelemmy.club
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    1 year ago

    So, in terms of accuracy required, an old structural book I have includes a “functions of numbers” section which has various things including the square, the square root, the log, and the circumference of a circle with that diameter. It shows pi as 3.142. Outside of alignments, I would expect that to be good enough for most civil engineers.

    • relevants@feddit.de
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      1 year ago

      The community is called “No Stupid Questions”, maybe you could adjust the tone of your answer accordingly.

      • Pistcow@lemm.ee
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        1 year ago

        Maybe rule one should include, “Google it first”? Not a stupid question, but it is a lazy one.

        • relevants@feddit.de
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          1 year ago

          The link you provided doesn’t even answer the question because it only tells you what NASA uses and then what would happen if you used no decimals at all. So your answer is not only rude, but also lazy and unhelpful.

          • Pistcow@lemm.ee
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            1 year ago

            It is helpful because its the definative answer. There’s no authority that would use a higher number of decimals, and their scope is beyond magnitude for any other application.

            • relevants@feddit.de
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              1 year ago

              There’s no authority that would use a higher number of decimals

              Cool, but that still doesn’t answer OP’s question.

              • Pistcow@lemm.ee
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                1 year ago

                Never, the highest needed ever in any situation concerning the entirety of humanity is 15.

                You’re the type of person that needs to be told /s for a comment dripping in sarcasm to understand its sarcasm, right?

                Or the type of person that posts in movie communities about narrative foreshadowing as being an Easter egg, right?

                A+B=C

                If 15 digits is the highest number of used by the one agency responsible for all things concerning the highest need of detail than no, there is never an instance of needing to use all the known digits of Pi.

                • relevants@feddit.de
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                  1 year ago

                  That isn’t what they asked! They asked about when it is tolerable to use fewer digits and at what point the loss of precision becomes a concern again. Your responses have nothing to do with that question.