Lounge<C++>

R. Martinho Fernandes

12:00 PM

Pi is finite. All real numbers are.

3

user1804599

It requires an infinite number of digits when represented in decimal.

thecoshman

@R.MartinhoFernandes well you get a close approximation, but you either need infinite list of fractions or you stop at some point and let the rest be wrong.

R. Martinho Fernandes

It's pretty much the definition of finite number.

thecoshman

@Jefffrey no!

chmod 711 telkitty

@R.MartinhoFernandes I am starring this because it's hilarious

R. Martinho Fernandes

12:00 PM

@thecoshman Well, infinite lists of fractions is what we're talking about.

thecoshman

1/3 <-- real, finite, infinite decimal digits though.

Jefffrey

@R.MartinhoFernandes ok, so I have a problem with a definition

user1804599

If you represent it in base π it's spelled 10.

user1804599

All your base are base 10!

Jefffrey

because I'm not sure 1.999.... is a finite number either

Puppy

12:01 PM

it is.

Jefffrey

I know that all math is based on that and it's probably true

thecoshman

@Jefffrey it is finite.

R. Martinho Fernandes

Let's not use "finite" any more.

Puppy

you're confusing finite number with finite representation.

Jefffrey

I know that you believe is true, as well

user1804599

12:01 PM

@Jefffrey represent it in base 1.999... problem solved.

R. Martinho Fernandes

Use only "real number" from now on.

Jefffrey

wait a second

thecoshman

perhaps an example of a infinite number, such as the number of numbers between 1 and 2

Jefffrey

if I consider x/y finite, then I have to consider 1.999... finite and therefore I have to consider pi finite

thecoshman

what ever list you give me (of numbers between 1 and 2), I can add another number to that list

Jefffrey

12:03 PM

and therefore I have to consider our initial sum finite

R. Martinho Fernandes

@Jefffrey I don't see why, but ok.

Puppy

if x and y are finite, then the result is finite (excluding y = 0, of course)

thecoshman

@Puppy of course, or x being infinite

Jefffrey

@R.MartinhoFernandes because I can get 1/3 which is 0.333...

chmod 711 telkitty

did you guys do maths in uni, sounds like a bunch of primary school kids discussing maths

R. Martinho Fernandes

12:04 PM

@Jefffrey Ah, ok. That works.

@chmod711telkitty Go troll elsewhere.

Jefffrey

@chmod711telkitty I know it's basic math

R. Martinho Fernandes

It's not basic math.

thecoshman

@Jefffrey ... no offence, but you do understand what we mean when we say a 'real number' right?

Jefffrey

@thecoshman any number that is not complex?

like -0.344 is real

sqrt(-1) is not real

chmod 711 telkitty

wtf

Jefffrey

12:05 PM

no?

R. Martinho Fernandes

Well, defining real numbers by exclusion won't work, but that seems fine for now.

chmod 711 telkitty

how long does the effect of a kick last: 1 sec?

user1804599

@Xeo lol

thecoshman

@Jefffrey well... that is true... but perhaps not explaining it well enough.

Xeo

no wait, that's pi

R. Martinho Fernandes

12:06 PM

:20591855 WTF. It's rational by definition.

Rational numbers are those defined as ratios of integers, like... 1/3.

Xeo

oops <3

user1804599

Fuck floating point numbers. Rational numbers ftw!

Xeo

hey robot, when's the game tomorrow and on Friday?

thecoshman

I think that's what @Jefffrey is getting stuck on, pi is real, but not rational.

Jefffrey

@Xeo oh come on, don't remove messages

R. Martinho Fernandes

12:07 PM

@Xeo Tomorrow 2pm, Ben's place (I can text you the address if you need).

Jefffrey

I'm doing the walk of shame too here

keep me company

R. Martinho Fernandes

Friday is from 5pm onwards.

Xeo

oh, 2pm already. k

user1804599

Clojure does integer division nicely.

Xeo

anything I need to bring?

R. Martinho Fernandes

12:08 PM

@Xeo We'll play till 7pm.

user1804599

Hoes.

R. Martinho Fernandes

Bring a pen; paper if you want.

Xeo

dice?

R. Martinho Fernandes

I have enough dice.

Xeo

yeah, but you don't have my dice :P

R. Martinho Fernandes

12:09 PM

Are your dice suitable for RED clearance?

Xeo

lol

Jefffrey

I'm dum

@thecoshman yes, that's probably it

user1804599

Jefffrey

ok, so pi is irrational

user1804599

get real

R. Martinho Fernandes

12:11 PM

@LightnessRacesinOrbit Gosh. The circlejerk is strong with this one: tex.stackexchange.com/a/218570/8694

Jefffrey

ok, 0.333... is finite

@R.MartinhoFernandes pls go on

thecoshman

@Jefffrey which means, we can work out exactly what it is (theoretically, mystical is working on it), we just can't represent it as a nice concise fraction (in base ten)

Jefffrey

@thecoshman ok

but the original proof was about 0.9999... being 1

thecoshman

@Jefffrey or, well that's a different thing :P

user1804599

sexy boost.org/doc/libs/1_57_0/libs/rational/index.html

Jefffrey

12:13 PM

yeah, we diverted quite a bit

R. Martinho Fernandes

@thecoshman Mysticial is working on getting the base ten representation. The exact value of pi has been known for a while (how do you think Mysticial computes the base ten representation?)

Lightness Races in Orbit

@R.MartinhoFernandes hehe yeah I liked that one

had already downvoted it fyi

R. Martinho Fernandes

It's pretty much "the killer feature of LaTeX is that it is LaTeX".

thecoshman

I think for that, you can sort of think, if 0.9999... is not 1, what does 1 - 0.9999... give you?

R. Martinho Fernandes

@Jefffrey OK, so the area of the points of the plane whose distance to the origin is <= 1 is pi, right?

Jefffrey

12:14 PM

@thecoshman 0.000000.... with a 1 at the infinite end

thecoshman

@R.MartinhoFernandes points have no area though, I think you're example is lost in translation.

R. Martinho Fernandes

@thecoshman You just change the problem to showing that 0.(0)1 = 0.

thecoshman

@Jefffrey but there is no end.

Jefffrey

@thecoshman but there's that 1 somewhere at the neverending end

R. Martinho Fernandes

@thecoshman No, it's not. Geometrical figures are sets of points. An infinite number of points has a finite area. Keep up.

user1804599

12:15 PM

I read that as "Shut up."

Jefffrey

any number of points have no area

R. Martinho Fernandes

Oh, dammit.

user1804599

Yo momma has an area

thecoshman

@R.MartinhoFernandes isn't it more that a finite area has an infinite number of points, and thus points have no area

Jefffrey

^

R. Martinho Fernandes

12:16 PM

I don't know why you thought important to rephrase it in a way that is not helpful.

@thecoshman I'm not talking about individual points...

thecoshman

points are perfect singularities. They have exactly zero vlume in any dimensions.

R. Martinho Fernandes

@thecoshman Yes, but infinite sets of points are not.

If it confuses you so much, I'll rephrase.

Jefffrey

> Many two-dimensional geometric shapes can be defined by a set of points or vertices and lines connecting the points in a closed chain, as well as the resulting interior points.

StackedCrooked

but what are the chances of encountering an infinite set of points

Jefffrey

so you need points and lines connecting the points

thecoshman

12:18 PM

@R.MartinhoFernandes a circle or area N has an infinite number of points in it. That circle can be scaled to have any area, with equally infinite points within it.

R. Martinho Fernandes

@thecoshman And? The area is still finite.

thecoshman

@StackedCrooked pretty high here

@R.MartinhoFernandes or yeah... one of those finite infinities

R. Martinho Fernandes

What.

Gosh.

I'll rephrase.

user1804599

@thecoshman If you scale the circle the number of points scales with it.

R. Martinho Fernandes

What's the area of a closed disk of radius 1?

Jefffrey

12:19 PM

@R.MartinhoFernandes It's Cosh.

not gosh

thecoshman

@R.MartinhoFernandes pi (units)...

R. Martinho Fernandes

No explicit mention of points, for cosh's benefit.

Jefffrey

mine too

R. Martinho Fernandes

What's the area of an open disk of radius 1?

user1804599

How about we get rid of the word "point" and all its derivatives?

R. Martinho Fernandes

12:20 PM

Wait!

user1804599

Pointers are confusing too!

R. Martinho Fernandes

You understand that a point has zero area.

That's all I need.

fires mspaint

Jefffrey

lol

holy shit I'm hungry

Lightness Races in Orbit

puts pizza in oven

thecoshman

@R.MartinhoFernandes open disk?

R. Martinho Fernandes

12:22 PM

Jefffrey

@thecoshman circle

thecoshman

ffs lunch time you twats

Jefffrey

@thecoshman mathworld.wolfram.com/OpenDisk.html

R. Martinho Fernandes

That's the line segment defined by 0 <= x <= 1.

Jefffrey

ok

R. Martinho Fernandes

12:23 PM

What's the length?

Jefffrey

1

user1804599

infinity!

R. Martinho Fernandes

Now this is the one defined by 0 <= x < 1.

What's the length?

Jefffrey

dunno

R. Martinho Fernandes

I removed exactly one point from it.

user1804599

12:24 PM

pi/pi

Jefffrey

depends on how much radius you want to give to that "point"

R. Martinho Fernandes

@Jefffrey Points have no radius.

(Right?)

Jefffrey

I know

so a length - a point makes no sense

it's a type error

Xeo

lol

user1804599

You do not do length - point.

R. Martinho Fernandes

12:26 PM

What about a length - the length of a point?

user1804599

You do line segment without point.

Jefffrey

@R.MartinhoFernandes point has no length

R. Martinho Fernandes

It has zero length.

(I can show that too, if you want...)

Jefffrey

nah

it simply doesn't have a length

R. Martinho Fernandes

It's merely a degenerate line segment.

Jefffrey

12:27 PM

oh ok, I see

yeah, a point has 0 length, maybe

go on

R. Martinho Fernandes

So, the length of that second one is 1 too, right?

Jefffrey

yeah

kinda

yes

so, how do we get from this to 0.999... == 1?

R. Martinho Fernandes

Would it be a stretch to tell you can think of 1 - 0.(9) as the length of that point?

Jefffrey

yes

Andy Prowl

I would say in both cases the end points of that segment are 0 and 1, regardless of whether it's an open segment or a closed segment. The length of a segment is defined as the distance between its end points. So in both cases the length should be 1.

Jefffrey

12:32 PM

@R.MartinhoFernandes I don't see why

R. Martinho Fernandes

@Jefffrey The point is the least you can remove from that line segment. Just like 1-0.(9) must be the least you can go down from 1.

Jefffrey

is that a convoluted pun?

R. Martinho Fernandes

No.

Jefffrey

> The point is ...

user1804599

using an ancient borland c++ 5.0 — user123 31 secs ago

Jefffrey

12:35 PM

@R.MartinhoFernandes the least you can go down from 1 is 0.999... yes

R. Martinho Fernandes

@Jefffrey Oh, lol.

Jefffrey

what if irrational numbers weren't true numbers?

R. Martinho Fernandes

That sounds like philosophy.

Jefffrey

ikr

Andy Prowl

there's no such a thing as a "true" number

R. Martinho Fernandes

12:37 PM

0.(9) is not irrational, btw.

Andy Prowl

numbers are abstractions created by humans

R. Martinho Fernandes

Well, that one is 1, so it muddles the point.

Jefffrey

@R.MartinhoFernandes 0.(9) is 0.9999...?

R. Martinho Fernandes

0.(8) is not irrational.

@Jefffrey Right, just a shorter notation.

Jefffrey

never seen it

we use a segment on top of the first 9 usually

R. Martinho Fernandes

12:39 PM

Yeah, that's more common, but less amenable to typing :P

Jefffrey

anyway, that defeats the point

let's go ahead and assume irrational numbers are numbers

we were here:

Andy Prowl

why wouldn't they be?

R. Martinho Fernandes

I don't know why you'd assume not.

Jefffrey

4 mins ago, by Jefffrey

@R.MartinhoFernandes the least you can go down from 1 is 0.999... yes

@R.MartinhoFernandes it's just an idea of mine that just rose up, don't mind it, I haven't had the chance to bash it myself yet

"the least" != 0

R. Martinho Fernandes

@Jefffrey Yet it is for points.

Jefffrey

12:41 PM

nope

never mentioned points

I said that "the least you can down to is 0.999"

sandeep

hi all. I am able to generate logs using log4c.

R. Martinho Fernandes

What I mean is that you can think of it like the points.

Jefffrey

what I can think of it like a point?

R. Martinho Fernandes

You saw the proofs already. I wasn't going for another proof.

Jefffrey

what proof?

R. Martinho Fernandes

12:42 PM

@Jefffrey The difference between 1 and 0.(9).

user1804599

@sandeep cool story

Jefffrey

@R.MartinhoFernandes that would be a segment

a very small segment

user1804599

I feel like helping people.

Jefffrey

infinitesimaly small segment

R. Martinho Fernandes

@Jefffrey A degenerate one. Like a point.

Jefffrey

12:44 PM

a degenerate one is not an infinitesimaly small one

R. Martinho Fernandes

It pretty much means the same.

Jefffrey

would you say that a segment of length 0.000001 is degenerated to lenght 0?

R. Martinho Fernandes

That's not infinitely small.

Andy Prowl

@rightføld there you go. This one seems to need a lot

Jefffrey

@R.MartinhoFernandes infinitesimaly small is still finite, though

so it's a quantity e very small != 0

it tends to 0, but it's not 0

R. Martinho Fernandes

12:46 PM

Oh, don't go that way. If you understand integrals, you can understand this easily.

Jefffrey

the area defined between a curve and another curve/axis?

R. Martinho Fernandes

And compare that with the same area without the curve.

Jefffrey

an integral doesn't define a correct area

it's an approximation AFAIK

R. Martinho Fernandes

No, it's not.

Jefffrey

it's a limit defined by the width of each rectangle tending towards 0

R. Martinho Fernandes

12:48 PM

It's one way of formally defining lengths and areas and volumes.

Andy Prowl

@Jefffrey This may help

R. Martinho Fernandes

@Jefffrey Limits, when they exist, are not approximations.

Jefffrey

depends on what you mean by approximation. what I mean is that lim (x) (with y -> z) -> w doesn't mean that x == w. Pretty much never

R. Martinho Fernandes

@Jefffrey So what. Limits are exact values, and integrals can represent areas .

Jefffrey

@R.MartinhoFernandes I just told you that they are not

R. Martinho Fernandes

12:51 PM

Ooops.

Rerito

The object $\sum_{i=1}^{\infty} \frac{1}{2^i}$ is not a limit

R. Martinho Fernandes

@Jefffrey You told me something irrelevant.

Jefffrey

you are claiming that lim (sum of (1/n)) (with n -> inf) -> 0 means that (sum of (1/inf)) == 0.

R. Martinho Fernandes

@Jefffrey No, I'm not.

Rerito

No absolutely not

Lightness Races in Orbit

12:52 PM

@Jefffrey lolwut

R. Martinho Fernandes

I'm claiming that the values of limits are exact.

Rerito

Easy counter example

Jefffrey

wait a second

R. Martinho Fernandes

I am also claiming that areas calculated using integrals are exact.

No approximations.

Rerito

$\sum_{n \in \mathrm{N}} \frac{1}{n}$ is divergent, despite the fact lim(1/n) (n -> +inf) = 0

Jefffrey

12:54 PM

2

Q: Is area under an integral limit exact or an approximation?

Suppose we need to calculate the area of the the curve $y=sin x$. Then we calculate the area enclosed by the curve from $x=x_1$ to $x=x_2$ as $\int_{x_1}^{x_2}sin x\, dx$. Is the area calculated so exact or approximate?. In case of a linear curve such $y=ax+b$, we do get an exact value (as justi...

sehe

-5

Q: A program to connect and disconnect the network

I need a program that connects and disconnects the network in each 5 seconds infinitely. This helps in boosting up my Internet speed.I need the script in batch file .

batch-file

Epic. That was in boost

Jefffrey

someone else had the same problem I see

Lightness Races in Orbit

> Remark: You seem to be under the impression that limits are somehow imprecise or that they are approximations. This is incorrect. A limit is a number. It is not a process, nor an approximation, nor in any way imprecise. It is a very much fixed number that never ever changes.

Now can we move on?

Rerito

@sehe Dude is high or what ?

Jefffrey

@LightnessRacesinOrbit no

but it's ok, I'll do researches on my own

I'm hard to convince, I know, and it might get boring

R. Martinho Fernandes

12:56 PM

Well, you realized several misconceptions, so it was valuable, I think.

Rerito

@Jefffrey In a way, I agree with you

Andy Prowl

@sehe He probably meant to use the boost-internet-speed tag

R. Martinho Fernandes

Regarding the irrational numbers thing: the square root of two is the length of the hipotenuse of an isosceles right triangle with catheti of length 1. Hard to argue it's not a "true number".

Rerito

The definition of a limit (for a sequence), is that for any real $\epsilon > 0$you can find an index $N_0$ such that for any $n > N_0$, the value of the term will be in a interval around the limit $[ L - \epsilon; L + \epsilon ]$

R. Martinho Fernandes

You do know that things are much harder to read as unrendered LaTeX, right?

Jefffrey

12:59 PM

@R.MartinhoFernandes hey, I know it's a stupid theory

Rerito

But in that case, you do not chose a fixed index, you let the sum "reach" infinity

@R.MartinhoFernandes math.ucla.edu/~robjohn/math/mathjax.html

Hope that helps :)

R. Martinho Fernandes

No.

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