1. Be civil
No trolling, bigotry or other insulting / annoying behaviour
2. No politics
This is non-politics community. For political memes please go to !politicalmemes@lemmy.world
3. No recent reposts
Check for reposts when posting a meme, you can only repost after 1 month
4. No bots
No bots without the express approval of the mods or the admins
5. No Spam/Ads
No advertisements or spam. This is an instance rule and the only way to live.
A collection of some classic Lemmy memes for your enjoyment
If anyone is curious, I looked it up and The Guinness Book of World Records currently recognizes Rajveer Meena as the world record holder for Pi memorization. He recited 70'000 digits of Pi while blindfolded in about ten hours in 2015. I can't even begin to understand how someone could actually do that.
Savant
Now I want to see the original letter. For some reason this reminds me of David Thorne (27bslash6)
I like how the filename is "NoFair.webp". Hiding a funny little message in the filename is classy.
This isn't really a meme
During lockdown I had a bit of time on my hands so I memorised all the digits of pi in the right order.
I memorized them in numerical order. First there's a bunch of 0s then a bunch of 1s, followed by 2s, and so on.
I took the opposite approach. All the digits of pi, in the right order, are 3.145926870.
Obviously I had to eliminate any duplicates otherwise this post would have been a lot longer.
Yeah but how many 0s do you have before you get to the first 1? I've been working on it but still don't have a definite answer.
At least 4 or 5
I don't know the exact number but it's quite a few of them
Infinite.
Is that actually true or is that an unsolved problem?
It's believed to be true to a high degree.
Pi is infinite. It's also believed with a high degree of certainty (but not proven) to be a normal number, which basically means all the digits are evenly distributed over the infinite series. So if that is true, there would be an infinite number of 0s. Theoretically it could suddenly turn out to not be normal after a certain amount of digits are found, and then 0 could just stop entirely after a certain point, but this is incredibly unlikely.
Hey, me too! I also did e and the Feigenbaum constant, though.
Yeah, me too. But first I had to count to infinite to make sure the decimal parts of these would fit.
This beats the approximations used in ancient Sumer (3.1065) and China (3). Try contacting their respective records bodies.
Gotta say, using 3 just feels like giving up due to laziness, even in 1200BC.
Also it's interesting how the Chinese entries basically stop between 1400 and 1949, whereas European names are far more present during this era. Some Japanese ones, too. I wonder how comprehensive this page is.
Rounding pi to 3 is just the engineering way. It's close enough to get the job done and then I don't have to worry about decimal places. However, using pi=3 typically undershoots your calculations, so personally I like to use pi=4
An error margin of less than 5% (even better, biased in a known direction) is more than good enough for plenty of use cases.
An error margin of more than 25% on the other hand, is seldom acceptable.
One is an error margin, the other a factor of safety!
Nah, it's fine. Trust me I use pi=4 in every calculation I do that uses pi and I haven't ever run into any issues at all
(I'm not that type of engineer, I never do anything with pi)
Doesn't have the famous
ln(640320³ + 744)/√163
for some reason. Accurate to 14 decimal places I believe which is more accurate than what you need for 99.9% of its applications.
So to avoid memorizing a 15-digit number you'll memorize a 13-digit equation?
More like you memorize that to show off. There are tons of high schoolers that know pi to dozens of digits, it’s not really exciting. But most high schoolers fundamentally don’t understand logs.
It's been said that with 15 decimals, you can calculate the circumference on the observable universe with a precision of the width of an atom.
Not quite, according to JPL https://www.jpl.nasa.gov/edu/news/how-many-decimals-of-pi-do-we-really-need/
15 decimal places, for Voyager 1 - We have a circle more than 94 billion miles (more than 150 billion kilometers) around, and our calculation of that distance would be off by no more than the width of your little finger.
It's also been said that with Pi to just four decimal places you can accurately send a spaceship to one of our nearest neighbouring stars and arrive within one kilometre of your intended target.
In fairness, that was said by me, and I do tend to be full of shit.
Pi is exactly 3!
Three, no more, no less. Three is the number of pi. Four should not be pi, neither two. Five is right out.
I got into a long debate with someone who wouldn't accept my claim that pi is 3.
My reasoning was that 3 is accurate to the number of decimal places it's quoted to, which is all you ever can say of any given value of pi. Like, pi might not be exactly 3, but it's not 3.14159265358979323846 either, because both values still have infinity digits missing.
1, 2, 5!
3 sir!
Oh yes! 3!
3.1 I hold the world record for memorizing the shortest length of pi decimals.
This guy engineers
you won after all
_
I win!
Does anyone else really want to write them now just to get an official rejection letter?
If I write them enough and get enough rejection letters, can I then get accepted as the Guinness World Records record holder for most rejections of Guinness World Record records?
Is there a Guiness world record for classes or categories of individuals with the most rejection letters from the Guiness World Records association?
If you pay for it I'm sure they would gladly add it
3.11
You could say he was all mixed up, and he didn’t know what (else) to do.
Pi for workgroups.
I hold 2 GWR for the Reddit Secret Santa.
Anyone that participated during a couple years qualified.