The mystery of 0.577 - Numberphile

See my question/response above. Thanks Rafael. if the band only expanded in front, the percentage travelled would always be 1%. But because it expands behind as well, the percentage is always growing, albeit very slowly.

It grows in between. Have you ever thought about that?

I just laughed out loud when he said that. Amazed, yet at the same time really had no idea what that meant for the whole problem.
I wish I was smart enough to grasp really amazing ideas like this.

Exactly! It was a mind-blowing moment for sure. I mean, it seems so obvious in hindsight, but I would have been busting my head for days trying to come up with a logical explanation for that.

Your mind shouldn't really be blown realizing that. It's pretty straight forward

I still dont get it :/

ok, let's look at it in detail:
1st second
traversed distance = 0 cm, distance ahead = 100 cm, total distance = 100 cm
ant moves 1 cm from start: traversed distance = 1 cm, that is 1/100 = 1% of the total distance.
2nd second
band is stretched 100 cm: traversed distance = 2 cm (increases with stretching!), distance ahead = 198 cm, total distance = 200 cm
ant moves 1 cm: traversed distance = 3 cm, that is 3/200 = 1.5% = 1% + 1/2% of the total distance.
3rd second
band is stretched 100 cm: traversed distance = 4.5 cm, distance ahead = 295.5 cm, total distance = 300 cm
ant moves 1 cm: traversed distance = 5.5 cm, that is 5.5/300 = 1.83333..% = 1% + 1/2% + 1/3% of the total distance.
and so on...
every second the ratio of the traversed to the total distance increases, until it finally reaches 100%.

+Amphithryon I feel like the guy in the video failed to emphasise this: the part he has already travelled ALSO stretches, and then the ant moves 1 cm independently from that stretch. The way he explained it sounded like wishy washy -1/12 stuff, while it's actually really logical.

I don't think he failed, he used a rubberband for that sole purpose. Just before the words you quoted he says "we are gonna stretch so that..." and then you go to say he should emphasize the stretching... when 3 word prior to your quote he did.
What is probably wrong in this case is the drawing with the ant in the circle, but it should be ok still unless you forget that it's a rubberband and that we are stretching.

@Amphithryon very nice put. Tony clearly gave the correct response to Brady's argument, that what is behind is growing as well. He just didn't mention (or it's cut out) that the growth is exponential to time, and as soon as the ant hits half-way it grows faster than what's in front of the ant. Which is why eventually the 1cm is longer than the growth in front of the ant.

This deserves more likes.

damnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn

Wow!

Is the band expanding smoothly, or in one second increments? Or does it matter?

@@rglrts as far as I guess, bands must expand smoothly

I have got bad news pal.

DidJewNaziMe just add quotation marks
“1”+”2”=“12”
Now it’s correct (:

Tin Can't in Python.
True

1+2=3.

@@super-awesome-funplanet3704 genius

Update: I watched the extra footage, as well as Mathologer's video on it, and things are cleared up now. Both series diverge in the traditional sense, but can be "analytically extended." In other words, if we accept new definitions of sums (Cesaro, Abel, Ramanujan) where traditional sums don't give a finite answer, we can also accept finite answers for divergent sums.
Also a little annoyed that "gamma" is different from the Riemann Gamma function, but who cares lol

I can't see any references for Riemann Gamma function.. do you mean Riemann Zeta function? The extended Zeta function includes the Gamma function though

That function is not called Riemann Gamma function, it's just Gamma function. As far I know, Euler originally gave a version of the Gamma function first as an infinite product, then he represented it with an integral. This was in the 18th century. Riemann would come much later 19th century. The Gamma function and Zeta function are just related, but the gamma function is not the work of Riemann. And I couldn't find any references for "Riemann gamma function":

Whoops yes you're right about that.
I was saying how it's weird that there's a "Gamma function" and there is a "Gamma" as a constant.

There's an older Numberphile video on this, actually one that got them famous. There was a lot of fuss about it commenting on the same thing (the sum of 1+2+3+4+...=-1/12) and the gripe that echoed around was that they didn't really define the extended sum as a function rather than a summation. So that is what they actually refer to at the beginning of the video saying "We're gonna start in a familiar place".

no sh*t sherlock

also, the rubber band would break.

The rubber band wouldn't last a single second.

It would

Yes it would. It'll depend on the band, but would last a few seconds.

It pops up in the estimator of a frequency factor for some statistics, as does a transformed version of π^2/6.

@@andrerenault tan 30 degrees = 0.577 so I'm not surprised.

It's also the inverse of the square root of 3.

"Keep slogging away at your Sisyphean task, until you die or the universe is destroyed."
Somehow I don't feel motivated.

suncu91 well, not sure if that will bode well in popular

Just 2 cm left! Almost there!
*travels 1cm*
*band increases another m"
fuck...

You didn't understand the problem.
At that position, 1 meter scaling will be insignificant, because 99.99999999...% of the path is already behind the ant.
This means that the Ant will finish the last centimeters without noticing any change in path size.

André Canilho I did understand, I was just making a joke. But you're right the last few meters will be adding less than a cm in front of him since 99.9999% will be added behind him

There are only so many numbers, man

numbers are infinite...

David Perrier technically that also incorrect... the interesting numbers that *we know of* are finite. But if there's infinite numbers, there's infinite equations that do something interesting

Yeah, those infinite videos would get a ton of views

Inwë Meneldur Wow, clever

Hi there

@@emmanuelmanu927 Hi here

@@puppergump4117 Hi where

@General12th Hi when

+D but isn't it amazing that of all the values to be uniquely associated (whether by analytic continuation or ramanujan summation) that it is -1/12 - see our gold nugget video all about this.

Numberphile yes, but please let us stop using the equal sign for it. We are missing the point of the "conversion" that happens when we do this. I think that is a lot more interesting than the illogical use of "=", which is simplistic and lends itself to being disproved by counter example.

So the video is incorrect?

+Paul Ahrenholtz
The video interprets [Correction: the notation of series like "1+2+3+..."] in two different ways without telling you. If you know which one they're talking about at which time, everything they say is correct. The vast majority of people don't, which leads them to confusion and/or incorrect conclusions.

Nicolas Bourbaki what 2 different ways?

Euler is pronounced "oiler"

BigBoatDeluxe In my defense it was kinda late when I read it and wrote my reply, nonetheless I still feel like a dumbass.

Don't say oil, USA will invade then XD

nah we just want the macaroni.
also we want you to stop saying mathS

Also, it is pronounced maskeroni.

I wonder could that someone be

Sarcasm is the English way of communication, it's what the foundations of our society is built on

Could you show somewhere how did you do that? I've tried it myself, but it didn't work. Maybe I'm doing it wrong

I don't get it
0cm 2cm
1cm 4cm
2cm 6cm
3cm 8cm
4cm 10cm
5cm 12cm
6cm 14cm
7cm 16cm
8cm 18cm
9cm 20cm
10cm 22cm
It seems to get closer to 100% but say in 10000 increaces the ant has gone fully around, but logically thinking the circle 10000 * 2cm = 20000cm and the ant 10000 * 1cm = 10000cm, so only 50% :0

MV AntDist Cir % traveled
0.00 2 0.00%
1 1.00 2 50.00%
2.00 4 50.00% stretch
2 3.00 4 75.00%
4.50 6 75.00% stretch
3 5.50 6 91.67%
7.33 8 91.67% stretch
4 8.33 8 104.17%
Mv - ant moves
ant Dist- total distance relative to viewer of circle (not ANT)
%traveled - the distance viewer sees him travel.
I made a mistake, it is only 4 moves. Hope this helps

That's how I understood it too

+erikeeper thats an error in your logical thinking
you are at:
0cm 2cm
ant walks 1cm
1cm 2cm
the circle is expanded and since you are 50% you will be moved(the ant) as well, so
2cm 4cm
then ant walks again ending at
3cm 4cm
and so on. with this example the circle is completed very quickly, he uses 1/100th to make it only more confusing

Why do people do this? Doesn't just putting log imply log base 10?

Str8 up Pwnage I know, it annoys me too. There's no point in doing it since ln is shorter than log.

Str8 up Pwnage Not necessarily. I think it should though.

Actually, since base e is far more fundamental (as the logarithm is actually defined as the integral from 1 to x of 1/t dt, which will clearly give you base e), when you don't specify a base it often means base e.
This is highly dependent on context though. In math (especially beyond basic calculus), it's probably base e. In computer science, it could be an arbitrary base (like in big O notation) or base 2. In engineering you will often see base 10 being use.

Log base 10 is not very useful when you do real maths. The context makes it clear whether "log" alone refers to base 10 or so-called natural log.

Unfortunately, "school mathematics" is generally presented in a boring fashion, oddly disconnected from reality.
I can't help but triple facepalm when I hear someone, as they too often do, say "so, what's the use of maths?".
That's how poorly it's presented to most people, as they seem to think that accusing the greatest "transferable skill" there is and basis of all science and technology and engineering - and even music - of being "useless" is not only a reasonable, but even a clever, thing to say.
It's like handing over a suitcase with a million dollars in it to someone, they look inside and then hand it back to you because it's "just full of paper".
Well, yes, but you really have no idea just how much you're totally missing the point there.

Kim Kardashian just got robbed. That's more interesting!

2m is quite a lot.

Thats true, that russian guy on numberphile has a video about why people hate maths.
Maths at school level can be quite dry. Some people think its all about arithmetic, but that's just one of the fundamental tools needed in the majority of math areas.
Maths is interesting cause its like a whole other world that exists abstractly that has so much to be discovered.
But also, maths is the language we use to describe the universe, and also we can use it to solve problems and build things like computers and particle colliders.
So its both interesting and useful and is sort of integrated into reality itself which makes it cool.

ZeanutJam Yes, that's who I was talking about, he seems like a very smart man.

Just commenting to be notified if anyone responds ;)

same

they probably just dealt with patterns and eventually came up with it all the time and went on a binge trying to figure out what it did.

Curiosity.

Makes me wonder. So many purely mathematical constants crop up in nature; gamma, root 2, e, pi, golden ratio etc.. It's like the laws of physics are based around mathematical constants that can be derived without needing any physics. Now maths is going to be the same in another universe, so I am sceptical about the laws of physics being different.

And here I thought I was the only one using this image. Cheers 👍

@@realitywins6457 Seems we're ... Mandelbros!

@@HungryTacoBoy Ha, that sounds like an eclectic, intellectual, indie-hipster band from Seattle

@@realitywins6457 When they tour they have include other players to fill in the missing parts of their sound.

@@HungryTacoBoy It would have to then be an endless tour, forever parsing their rythms into more complicated patterns

very

E to the 100 meters :P

it grows by 1m per second, and it would take the ant around e^100 seconds so I would say around e^100 m.

as many metres as seconds it takes the ant to cross it, so 3 tredecillion metres

if it's 1m long at the start and expands by 1m every second... hmm.. How many seconds till ant gets to the finish?

It´s : "the slowest growing infinite sum"

Take the an infinitely small number and add it to itself an infinite amount of times...?

for d = 1/inf and x=0, calculate x+=d until x=inf

You can always find an infinite sum that grows even slower by increasing the rate by which the denominators grow, so there's no slowest.

The sun of the reciprocals of g_n, where g_64 is the infamous Graham's number.

My head hurts

I think plank's time/ plank's length =light speed
why would you not just say light speed

if one planck length per planck time is the speed of light, then how can anything move slower? Nothing cam move less than a planck length. Like, 1 planck lengths per 2 planck times is half the speed of light, so something moved half a planck length in 1 planck time? That can't happen.

You can't measure anything less than one Planck Length. So to measure something that moves at half the speed of light you would have to wait for it to move at least 2 Planck Lengths which would take at least 1 Planck Time. Essentially it is not possible to observe or measure anything less than a Planck Length or a Planck Time. So likewise we cannot say something moved 1 Planck Length in anything less than 1 Planck Time.

2 Planck lengths in 1 planck time? That would be twice the speed of light, not half.

Since the ant's steps (in the video, with starting step size 1) are 1/100, 1/200, 1/300, etc. of the circumference of the loop, you just have to see how many terms of 1/100+1/200+1/300+... you need to add up until you get to 1. That's equivalent to adding up terms of 1+1/2+1/3+... until you get to 100. Of course it's too many to compute *exactly*, but you can use the approximation that 1+1/2+...+1/n ~ log(n)+ɣ and set log(n)+ɣ = 100 to find n = exp(100-ɣ) = 1.5×10^43 steps. (I know it says 10^50 in the video but I think that's a mistake, e^100 is more like 10^43.) To do this with starting step size 2, 3, 4, or anything else, just replace 100 with the ratio of the original circumference to the step size, i.e. use the formula n = exp(ratio-ɣ) to find the number of seconds:
exp(100/6-ɣ)=9,717,617
exp(100/5−ɣ)=272,400,600
exp(100/4−ɣ)=40,427,833,596
exp(100/3−ɣ)=168,190,380,070,122
exp(100/2−ɣ)=2,911,002,088,526,872,100,231
These will be a little bit off from the true number of steps because the partial sums of the harmonic series are not exactly log(n)+ɣ, so if you wanted to you could redo the math with a better approximation log(n)+ɣ+1/(2n), but it wouldn't change the results by very much and would make it a considerably more difficult calculation.
I know this comment is from years ago but I thought people reading it in the future might like to see the method.

Would be a great video but I suspect it would end up being a bit too complicated.

search for Mertens' theorems if still curious

Thanks I will check it out.

Piqued.

I think irrational numbers are irrational in any rational base

​@@Septimus_ii Irrational numbers are, but there is some interesting math behind how normality acts in different bases.

No, there is no value you can assign to the Harmonic series. In general the infinite sum of 1/f(x) where f(x) is a linear function are the only infinite sums you can't find such a "gold nugget" for. I am not completely sure about that last statement but it should be correct.

not using the analytic continuation of zeta, but the ramanujan sum is gamma

Can one say that 'infinity' is the 'gold nugget' for the harmonic series? On the complex plane, there is only 1 'infinity' after all (unlike the real line which has 2 infinities).

Euquila Wait, why does the complex plane have only one infinity?

I'm sure there is a more rigorous explanation but in complex numbers you don't compare them like z1 < z2. You need to take the modulus |z1| < |z2|, which is true or false for instance. In the same way, it doesn't make sense to say z approaches + infinity, only |z| approaches + infinity (there is more to it than this and I am waving my hands quite a bit). This rules out |z| approaches - infinity because modulus is always positive. Therefore, there is only 1 complex infinity.

I've never heard that before. Is it a Northern or Midlands thing? Or slang from a certain profession?

Lazzy is just what scousers/people from Liverpool call elastic. e-LAZZY-stic.
Dont think it is used in other regions in North/North west, but is popular in Liverpool

Ohh, so that's what he's saying at 3:03 "As we call it in Liverpool."

we call em laggy bands here in yorkshire

and down south

You say that because your intuition is thinking about inequalities of finite sums. For finite sums, A1 < B1 and A2 < B2 implies that A1 + A2 < B1 + B2.
But you shouldn't assume that this property holds true for infinite sums and it's actually not the case.
Order is very important for those kind of sums.
Actually if you did that : (2 + 1) + (4 + 3) + (6 + 5) + (8 + 7) ..... it's no longer equal to -1/12 (it's actually +5/12)

It isn't.
Both are divergent series. And if you have shown, that 1 + 1/2 + 1/3 + ... is divergent, then direct comparison (keyword: direct comparison test) directly implies, that the sum of natural numbers has to diverge as well.
In another numberphile video they (including the physicist in this video) spread the word, that the sum of all natural numbers would be -1/12. And while there are ways to assign a finite value to a divergent sum (see f.e. en.wikipedia.org/wiki/1_%2B_2_%2B_3_%2B_4_%2B_%E2%8B%AF ), in the 'classical' sense both series are simply just divergent and approach infinity.

Actually there's an other example where this happens : every member of 1+2+3+4+.... is greater than those of 0+0+0+0+0....
yet the first sum is negative and thus smaller than the second sum ;)

The problem of this is that in the video it is explained that the geometric series diverges because 1/2+1/2+1/2+... "clearly" diverges.
I can see how this can be confusing for people who watched this and also 1+2+3+...= -1/12

Eagerly waiting for the response on the second channel. That strikes me as a glaring flaw in this logic, given previous insistence that the sum of natural numbers is -1/12. Maybe there's some function out there no one's come up with yet that defines the sum of their reciprocals as -1/11?

I'm glad you found something that interests you.

every one is interesting :)

They're all interesting.

@@General12th Yes most of Numberphile Videos are indeed "Interesting", well that's in "My Own Opinion".
-Q: Do you Agree/ Disagree with Me?

it's consistent in a weird way, but the trick is what kind of 'summation' you use. what is inconsistent is that they don't make that clear in this video

The negatives are greater than infinity.

1+2+3+..... diverges as well, it just has the value of -1/12 attached to it. Watch the video they made if it really interests you. If you then still think about it: the rabbit hole is deep :)

It does diverge in the standard sense. -1/12 is completely different.

@@hybmnzz2658 Dude, I posted that comment five years ago. I can't even remember what I was talking about then. Since you've only been on this platform for a couple of years, let me give you a piece of advice: let ancient comments rest in peace.

"lazzy" - a shortening of "elastic"

"Lazzy" band. Doctor Padilla is a scouse and that's what scousers call them!

Eleven Bottles Thanks. I feel like I should've known that but it just wasn't in the English to American brain dictionary.

looks like a proper scouse lad as well

Its a "laggy" band, in yorkshire. You're whelk.

Can you share your work? It's probably wrong or won't lead to anywhere, but that's not a reason to not have a little bit of fun with it.

Czeckie LOL

I could share it, but its on paper right now.
I basically have gamma = 1.5-D, where:
D = SUM[n=1,inf]SUM[k=1,inf]g(n,k)
Where g(n,k) = h(n,k)/(n^k)
h(n,k) = ((-1)^(k+1))/k - (n-1)/(n+1)
So D is 0.92278433509 approximately.
We can see h(n,k) converges to -1 as n and k tend to infinity.
I have a bit more, but its on some paper somewhere, its based on the proof that shows e is irrational

Have you known this problem since before seeing this?

I actually discovered the number gamma myself after plotting the harmonic series and noticing is was similar to ln x, I took the difference, and it approached 0.577. It was about 4 years later that I heard about this number again, and heard no one knew if it was rational or not.

+ahmadsbRBLX You did it!

Make me.

WongFu4Lyfe thanks

ahmadsbRBLX that's not a nice thing to say to a stranger lol

***** At least it wasn't oncologist.

the band does not grow to infinity.
1 - the ant walks 1 cm - 1% of the distance. The band stretches, to 2 meters, the ant is still 1% of the distance around.
2 - the and walks 1cm. this is 1/2% of the band's length (2 meters). it is now 1.5% of the way around. the band stretches to 3 meters, the ant is still 1.5% of the way around.
3 - the and walks 1cm. since the band is 3 meters long at this point, this is 0.33% of the total distance, so the ant has gone 1.833% of the total distance at this point. the band stretches to 4m, and the ant is still at 1.8333% of the distance
etc etc.
the ant always walks 1cm, when the band stretches this represents a smaller and smaller percentage of the total distance. the thing to realise is that at each step the percentage of the total distance the ant has travelled always increases, and it does so in a way that it can get arbitrarily large (harmonic series), so eventually the ant gets 100% of the way around. he says it takes about e^100 seconds, so the final length of the band is about e^100 m, but the ant did not actually have to walk e^100 meters, each step he gets a little bit of a 'free' boost by the stretching of the band eg at step one he is 1cm along, 1%, then the band stretches to 2m, he is still 1% so after stretching he is 2cm along: he has walked for 1cm but travelled 2cm all up. for step 2, he is at 1.5% and the band stretches from 2 meters to 3 meters, so he walks 1cm but travels from 3cm to 4.5cm.

Once the band stretches the Ant remains at 1cm until it walks another 1cm to get back at 1%

Each value in the series is consistent with the next. The actual value of the circumference doesn't need to come into the problem as long you have the series in front of you and know that each value in the series is correct and represents the percentage of the circumference walked during that second.
If you just had the series and the knowledge that each value in it was 'the percentage of the total circumference walked in that second' you could even assume the circumference constant and that instead the ant is just walking slower and slower each second, you would get the same answer.

the band stretches allover not only in front of the ant. when the band becomes 2m the 1cm behind the ant becomes 2cm

H I missed the stretching part behind the Ant, now its understandable why over time the Ant can get around the band b/c it never loses out on any percentage already covered when the band expands but gains a centimetre after each stretch, while it will take ages to cover the band its now explainable why it can.
I think he did a poor job explaining which is why even Bradypus did not grasp it.

It is theoretically possible IF the space is expanding in the same rate everywhere, so more space is also created before the photon, pushing it forward (relatively).

Space is flat though, so it's not the same.

Pretty much every single math / science video I watch

Well, how about this. An ant that can travel half a meter per second, lets say. Start on the meter long band, just as before. In one second, you are at, naturally, 1/2 of a meter. The band expands by 1 meter, split evenly along its length. So, the 1/2 meter ahead expands to 1 meter, and so does the 1/2 meter behind.
Now, you go again, and you are, again, 1/2 meter away from the finish line. This time, though, the half meter ahead only increases by .25 meters, since it is a quarter of the band. Now you are .75 meters away, which is closer. And now, since the band has grown, the bit ahead of you gets a smaller percentage of that growth, allowing you to catch up, faster and faster.
The same goes for 1 cm on a 1 meter band, but much, much slower.

stellarfirefly But because the distance behind the ant has been expanding the e^100 cm the ant has travelled has also expanded . Take the first iteration. The ant moves a cm, then the band expands by a meter. There is now 2cm behind the ant because the band has doubled in size.

Once the ant reaches the halfway mark, the stuff behind the back stretches more than stuff in the front, essentially pushing it forward.

Think about it this way: even if the ant were to move a certain distance and then stand completely still, it still wouldn't lose its position relatively speaking.
Say the band is 10 m in circumference and the ant has already traveled 10% of it, i.e., 1 m, and then decides to take a break. The next second, the new circumference will increase by 1 m. 0.9 m will grow ahead of the ant and 0.1 m will grow behind it. Therefore, the new proportion is (1+0.1)/(10+1)=1/10 again. You can generalize this like so:
choose 0 < a < b. If the ant has made it a/b times the total circumference, the next second the proportion will be (a+a/b)/(b+1)=(ab+a)/(b^2+b)=[a(b+1)]/[b(b+1)]=a/b.
The ant's progress as a percentage of the total circumference can only increase, and it happens to be the case that it increases just fast enough that it will eventually make it to the end.

I'm bad at math but I find these videos intersting. He said that it moves a centimeter and the band stretches a meter per centimeter moved. And then he says the percent he's gone every time it stretches but wouldn't he stay at 1% each time and go nowhere? 1/100, 2/200, 3/300... ???

I love u

I love u

but it does go forward, the distante it already traveled also increases, so in the second 2, that 1cm (1%) has increased to 2cm (1℅) plus the 1cm it traveled on that second.

After 2 s the ant has more than 2cm behind it, because the part behind the ant stretches as well as the part in front of it.

Ah. Got it. The band isn't only expanding in front of the ant, it is expanding behind as well. So the ant gets some 'free' distance travelled help from the expansion. So although it only travelled 1cm in the first second, during the second second that 1cm expands to 2 cm, PLUS it does another 1 cm. Thanks for explaining.

The space behind it stretches too. So after the stretching it has actually traveled 2 centimeters on the new rubber band.

It doesn't make sense. If the finish line is moving away faster than the ant is walking, it will never get there because its velocity relative to the finish line is negative. What am I not getting?