Qntm's Power Tower Toy

(qntm.org)

59 points by ravenical4 days ago

6 comments

AnotherGoodName6 hours ago
Fun fact with arrow notation, if you put it under a modulus it quickly converges to the same value no matter how high in exponents you go!Eg. 2^2^2 = 2^4 mod 35 = 16Let's go one higher2^2^2^2 = 2^16 mod 35 = 16 too!and once more for the record2^2^2^2^2 = 2^65536 mod 35 = 16 as well. It'll keep giving this result no matter how high you go.<a href="https://www.wolframalpha.com/input?i=2%5E2%5E2%5E2+mod+35" rel="nofollow">https://www.wolframalpha.com/input?i=2%5E2%5E2%5E2+mod+35</a> for a link of this to play with.I could do this with any modulus and any exponent too.2^3^3 = 2^3^3^3 = 7 mod 11 etc.The reason is that the orders of powers are effected by the totient recursively and since totients always reduce, eventually the totient converges to 1. This is where the powers no longer matter under modulus. Eg. the totient of 35 is 12 (the effective modulo of the first order power), the totient of 12 is 2 (the effective modulo of the second order power), the totient of 2 is 1 (the effective modulo of the third order power) and so after 3 powers under mod 35 it converges.
- ashivkum5 hours ago
 I'm pretty sure there was a project Euler problem premised on this property but I can't find it at the moment.
 - AnotherGoodName5 hours ago
 A classic would be quickly computing such big numbers under a modulus. You just compute the carmichael totient recursively till it hits 1, disregard higher orders and then going backwards calculate the powers, reducing by the modulo of the current order (this way it never gets large enough to be a pain to calculate). The totients reduce in logn time and each step is logn so it’s merely logn^2 to calculate.
konmok6 hours ago
I'm a big qntm fan. I highly recommend their "antimemetics" SCP stories and articles.
- jdpage5 hours ago
 There's a new, professionally-published book version of "There Is No Antimemetics Division" out as well[1], if you want to support Sam's work that way. I have print copies of both the self-published V1 and the new V2. I'm very excited about the latter, though I haven't finished it yet.[1]: <a href="https://qntm.org/antimemetics" rel="nofollow">https://qntm.org/antimemetics</a>
 - patleeman5 hours ago
 I loved this book. The audiobook is available on spotify and was a great listen.
- solid_fuel4 hours ago
 I really enjoyed one of their other stories - Ra <a href="https://qntm.org/ra" rel="nofollow">https://qntm.org/ra</a>
 - riffraff4 hours ago
 I'll add that Lena/MMAcevedo[0] is both a wonderful story and terrifying[0] <a href="https://qntm.org/mmacevedo" rel="nofollow">https://qntm.org/mmacevedo</a>
 - moss_dog3 hours ago
 One of my favorites!
 - LoganDark2 hours ago
 I love Ra -- Fine Structure is also great!
1122335 hours ago
As someone from time to time peeking into googology.fandom.com , my favorite big number device probably still is loader.c, simply because of how concrete and unreachable it feels.Too bad most Friedman's work has linkrotted by now...
Sharlin4 hours ago
Is it buggy for at least 2^(n)^2? It gives 4 for any n, but surely for example 2^^2 = 2^(2^2) != 4?
- OgsyedIE3 hours ago
 2^^2 != 2^(2^2). Instead, 2^^2 = 2^2.This will make more sense if you look at how the inputs a,b,n in the toy (2,2,3) and (2,3,3) present differently.
 - Sharlin9 minutes ago
 Yeah, got it now, thanks!
piskov5 hours ago
Ah, for a second I hoped it is another novel.If you haven’t read “There is no antimemetics division”, do it now. Easily one of the top science fiction out there.However buy the Penguin books 2025 edition, not the self-published free one — that version has a meh ending and suffers from not having an editor.
- Yossarrian221 hour ago
 Wait! The ending is improved in the new version!?
analog83746 hours ago
Hey he does good scifi too