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Daminark
Daminark
00:05
@BalarkaSen it's pure gold
Leaky Nun
Leaky Nun
00:28
@Daminark could I ask you category?
Daminark
Daminark
I don't know much but do try?
Leaky Nun
Leaky Nun
do we have $\pi_1 \circ f = \pi_1 \circ g \land \pi_2 \circ f = \pi_2 \circ g \implies f=g$ for the diagram $\begin{array}{} &&&& A_1 \\ &&& \overset{\pi_1}\nearrow \\ X & \overset f{\underset g \rightrightarrows} & A_1 \times A_2 \\ &&& \underset{\pi_2}\searrow \\ &&&& A_2 \end{array}$?
@Daminark
Daminark
Daminark
Oh Lord I'm on my phone and cannot read that rn
Leaky Nun
Leaky Nun
so A1×A2 has two projection maps, π1 to A1 and π2 to A2
I also have two maps from X to A1×A2, one called f and one called g
that's basically my diagram
and I'm wondering if π1∘f=π1∘g and π2∘f=π2∘g imply f=g
@Daminark do you get me?
Daminark
Daminark
It should be true in, say, sets
Leaky Nun
Leaky Nun
00:40
sure
it's also true in Grp and Mod and Ring and ...
but is it by construction or by category theory?
Daminark
Daminark
Actually yeah for a categorical product that's the whole universal property business. So I'm guessing by construction
Bob
Bob
I have a new windows machine which version of LaTex should I install?
Daminark
Daminark
I use sharelatex
Leaky Nun
Leaky Nun
@Daminark so you're saying that it's true for all categories with products?
Bob
Bob
is sharelatex free?
Leaky Nun
Leaky Nun
00:45
@Bob I use TeXStudio
@Bob I don't think it is
Bob
Bob
if I download TexStudio is that all I need?
Leaky Nun
Leaky Nun
well sure
Bob
Bob
I tired installing MikTex but the install halted with the followng error:
MikTex Setup Wizard

Inside the box there is a red circle with an X. The box says: The operation could not be completed for the following reasons:

Permission denied:
path="C:\Users\rsherr\AppData\Local\Temp\mik66364\bidi.tar.lzma"

Details:
path="C:\Users\rsherr\AppData\Local\Temp\mik66364\bidi.tar.lzma"
any comments?
Leaky Nun
Leaky Nun
0
Q: Permission denied: path="C/program Files/MiKTeX 2.9\doc/bibitex/apalike/apalike.doc

akash a rWhile installing MiKTeX this error is coming: Permission denied: path="C/program Files/MiKTeX 2.9\doc/bibitex/apalike/apalike.doc My OS version is Windows 7 Ultimate and I downloaded complete MiKTeX files from http://miktex.org using 64bit net installer option. Then, during installation, i...

errors miktex
stfw
Bob
Bob
I saw that link but it does not say how to fix it
Leaky Nun
Leaky Nun
00:50
> First: a path for windows 64 bit has to look like c:\Program Files\MiKTeX 2.9\doc\bibtex\apalike\apalike.doc and not yours path="C/program Files/MiKTeX 2.9\doc/bibitex/apalike/apalike.doc. you missed : and mixed ` and /`.
@Daminark should I ask it on main?
Bob
Bob
the problem is that I did not set the path
could it be bad installation script?
Daminark
Daminark
Maybe a good idea
Leaky Nun
Leaky Nun
@Bob I've no idea; @Daminark might be able to help?
@Daminark I'll ask it now then
Bob
Bob
@LeakyNun if you are asking for me, I thank you very much
Daminark
Daminark
Sharelatex is free and it's online
Just go on sharelatex.com, create an account, and start typing
Leaky Nun
Leaky Nun
00:54
@Bob no, sorry, I'm asking an unrelated question
Bob
Bob
I would prefer something that runs on my machine
Daminark
Daminark
Ah, well I'm not familiar with those, but chances are any one you find will be alright?
Bob
Bob
is there a good spot on any of the stack exchanges to ask about my problem? e.g. why I cannot install miktex
Daminark
Daminark
And Leaky: do let me know how it goes. I'm not sure exactly which categories contain a product, but with those that do, the universal property should guarantee the uniqueness you seek
Leaky Nun
Leaky Nun
@Bob just the site I linked you to
Bob
Bob
00:59
I think I found the problem. It was my anti-virus software
thank you very much
Merry Chrismas
Good Night
Balarka Sen
Balarka Sen
I hate writing
robjohn
robjohn
$\Huge\text{Happy Holidays}\unicode{x1F384}\unicode{x2603}\unicode{x1F54E}$
Leaky Nun
Leaky Nun
@BalarkaSen maybe you can help me?
Balarka Sen
Balarka Sen
If it's category theory I can't
Sorry
Leaky Nun
Leaky Nun
ok
Balarka Sen
Balarka Sen
01:08
Also I have to keep writing
Leaky Nun
Leaky Nun
@Daminark there is an answer
1
Q: Morphisms to categorical product completely determined by composition with canonical projections?

Kenny LauConsider the diagram: $$\begin{array}{} &&&& A_1 \\ &&& \overset{\pi_1}\nearrow \\ X & \overset f{\underset g \rightrightarrows} & A_1 \times A_2 \\ &&& \underset{\pi_2}\searrow \\ &&&& A_2 \end{array}$$ where $X$ is any arbitrary object, $(A_1 \times A_2, \pi_1, \pi_2)$ is the category product o...

category-theory
Daminark
Daminark
@BalarkaSen do I need to repeat my apparent quote?
Balarka Sen
Balarka Sen
what is your apparent quote
Daminark
Daminark
""Category theory is an island..."-Amin"-Mike
Balarka Sen
Balarka Sen
Ohhhhh
Daminark
Daminark
01:11
@Leaky alright so that works but the question is do you always have products
Balarka Sen
Balarka Sen
That was golden
Daminark
Daminark
That's what I don't know
:t h o n k:
Balarka Sen
Balarka Sen
what about category of fields
sounds like a good candidate to me
Mike Miller
Mike Miller
I guess yeah because there's a forgetful functor to Ring
Balarka Sen
Balarka Sen
Oh hm
Leaky Nun
Leaky Nun
01:14
@Daminark of course you don’t always have products
Daminark
Daminark
:blobhyperthinkfast:
Balarka Sen
Balarka Sen
user image
2
Omae wa mou thonkeru
NANI??
Daminark
Daminark
Manifolds with boundary won't have a product
Leaky Nun
Leaky Nun
it seems, in a rather useless manner, that in Sets, $A \times B$ is the categorical coproduct of as many copies of $A$ as $|B|$.
Balarka Sen
Balarka Sen
@Daminark Well
Smooth manifolds with boundary
I think
'Cuz corners are a smooth phenomenon
Daminark
Daminark
01:20
Non-smooth manifolds are fake news
Balarka Sen
Balarka Sen
Kervaire manifold
In mathematics, specifically in differential topology, a Kervaire manifold K4n+2 is a piecewise-linear manifold of dimension 4n+2 constructed by Kervaire (1960) by plumbing together the tangent bundles of two 2n+1-spheres, and then gluing a ball to the result. In 10 dimensions this gives a piecewise-linear manifold with no smooth structure. == See also == Exotic sphere == References == Kervaire, M. (1960), "A manifold which does not admit any differentiable structure", Comm. Math. Helv., 34: 257–270, doi:10.1007/BF02565940, MR 0139172 Shtan'ko, M.A. (2001) [1994], "Kervaire invariant",...
thomas the engine tune plays
DarkRunner
DarkRunner
Hey folks
Daminark
Daminark
Wikipedia is fake news media
Balarka Sen
Balarka Sen
You're right
Alex Jones is where the true news is
Adeek
Adeek
I was attending once a physics talk
somebody had a topological space named fock space
haha
Balarka Sen
Balarka Sen
01:24
well you know what they say
fuck fock
Leaky Nun
Leaky Nun
"fock" is just "fuck" in a British accent
Narcissus jewel
Narcissus jewel
@LeakyNun I think you dualized it friend.
Balarka Sen
Balarka Sen
oi thwats focking roight m8
Was British accent always this destabilized? It seems it has gotten thicker and swirlier after the 80's
What happened?
Daminark
Daminark
I think the northeastern accent in America is closer to how English was spoken in the 1700s than the current British accent
Balarka Sen
Balarka Sen
Trying to figure out where north-east is in America
Daminark
Daminark
01:35
New York and Canada basically
Balarka Sen
Balarka Sen
Hm
Oh yeah Canada speaks decently
Daminark
Daminark
Oh no I was joking Canada is its own thing
Balarka Sen
Balarka Sen
I was confused how Canada was north
4/10 prank
Now I have to figure out the proof of the Shadowing lemma
This doesn't look good
Owh. Owww. This doesn't look good at all
Daminark
Daminark
Which is that?
Oh wait
user image
Is it this?
Balarka Sen
Balarka Sen
That sounds like it
Daminark
Daminark
01:47
It's not that bad to prove if you have the monster theorem
Balarka Sen
Balarka Sen
Is it in your notes?
Daminark
Daminark
user image
This fucker
Yeah it's there. Also in Brin & Stuck, which may have a less shit explanation than I do
Balarka Sen
Balarka Sen
Ah, the $\delta$-conjugacy being $\epsilon$-shadowed thing
Thanks, I shall have to check this out
I've been recommended to read the proof by Bowen because Katok-Hasselblatt does it in such severe generality
Daminark
Daminark
So if you're willing to blackbox this theorem 3
This gives you an open set containing $\Lambda$. Choose some $\delta$ such that $\Lambda_{\delta} \subset O$
Then you want to extend this $x_k$ to a $\delta$-orbit which is infinite on both sides
Balarka Sen
Balarka Sen
Well, need it be?
Daminark
Daminark
01:51
A priori no, it can be a finite or one-sided orbit that you start with
Balarka Sen
Balarka Sen
I was thinking of like the Anosov closing lemma, which says every closed $\delta$-orbit can be shadowed by a periodic orbit
This is a kinda generalization of that I guess
Daminark
Daminark
But that's easy, wherever the sequence terminates (on either side), choose another point close to the last one and just extend by $f(x_k) = x_{k+1}$, then $f(f(x_k))$, and so forth.
Balarka Sen
Balarka Sen
Well that doesn't give you a periodic orbit necessarily
Daminark
Daminark
Not yet
But watch
So you have a delta-orbit, yeah?
And it's doubly infinite
Balarka Sen
Balarka Sen
Ya
Daminark
Daminark
01:55
Okay, so in theorem 3 (using my notation)
You let $X = \mathbb{Z}$, $g= f$, $h(k) = k+1$
And $\phi(k) = x_k$
Balarka Sen
Balarka Sen
oic
Daminark
Daminark
Because we have a $\delta$-orbit, $d(\phi(h(k)), f(\phi(k))) = d(x_{k+1},f(x_k)) < \delta$
Balarka Sen
Balarka Sen
Right, so it's a $\delta$-conjugacy between $h$ and $f$
Daminark
Daminark
Exactly
So you can find some $\psi$ such that $d(\psi(x_k),x_k) < \epsilon$
And $f(\psi(x_k)) = \psi(x_{k+1})$
But then just let your sequence be $(\ldots, \psi(x_{k-1}), \psi(x_k), \psi(x_{k+1}),\ldots)$
(This is why I stretched the sequence out on each side)
Makes sense?
That's just the sequence which shadows your delta-orbit
Balarka Sen
Balarka Sen
So this is like the boss theorem
Daminark
Daminark
01:59
This = theorem 3?
Balarka Sen
Balarka Sen
Yep
Daminark
Daminark
Oh yeah that theorem is a fuck
Balarka Sen
Balarka Sen
There should be geometric proofs of this thing
Using the foliation explicitly
Daminark
Daminark
Like basically the proof amounts to setting up this fixed point problem and then pushing really really fucking hard until you can show that something else is a contraction mapping
Balarka Sen
Balarka Sen
That's how you prove Anosov closing too
Leaky Nun
Leaky Nun
02:01
poll: what's your favourite fixed-point theorem?
Balarka Sen
Balarka Sen
Balarka's fixed point theorem
which says if it's the identity map, every point is a fixed point, and vice versa
Daminark
Daminark
I only know two: Banach and Brouwer
Balarka Sen
Balarka Sen
all our names start with B
there's a connection, see
Leaky Nun
Leaky Nun
conspiracy intensifies
Daminark
Daminark
@Balarka so I dunno about Foliations, I gave a severely abridged proof of the theorem (Brin and Stuck is also quite terse about it but it's 2 and a half pages there instead of a page in my thing, so maybe that'll be easier to understand)
I'm somewhat skeptical of a way of proving it which isn't pure fuckshit
Though I dunno, people are clever
Balarka Sen
Balarka Sen
02:05
@Daminark I don't see why this should imply Anosov closing though. Say you have closed $\delta$ orbit i.e. a sequence of points $x_0, x_2, \cdots, x_n$ i.e., $d(x_i, x_{i+1}) < \delta$ (index is modulo n+1). You can $\epsilon$-shadow it by an actual orbit, but why is that periodic son
Daminark
Daminark
What I proved was shadowing. I could see you doing a similar argument for closing (based on what you just said) by swapping $X = \mathbb{Z}$ in the above with $X = \mathbb{Z}/n\mathbb{Z}$?
Balarka Sen
Balarka Sen
Hm
That's probably right
But there should be a more direct way to see this than pure algebra
Daminark
Daminark
Perhaps
Balarka Sen
Balarka Sen
@Daminark When I say foliations, I of course mean in the case of Anosov diffeomorphisms
There's no foliation for a generic hyperbolic set
That's like a really bad subset of your manifold
You just have a stable-unstable decomposition of the tangent spaces over it
It's fucked
Daminark
Daminark
I just mean that I don't know anything about foliations
user image
That's my operating definition for a foliation but that definition just makes me say "derp"
Balarka Sen
Balarka Sen
02:11
the definition of a foliation makes no sense on face value
Daminark
Daminark
;novathonk
Balarka Sen
Balarka Sen
you don't get it until you see one
Daminark
Daminark
Probably can confirm because I just saw that and was like um... so I only use foliations really briefly and not in a way that failure to understand it is a significant conceptual roadblock so I'll just leave it at that
Like I vaguely have it in mind as "Let's cut up a manifold into sub manifolds in a way which isn't completely stupid"
Buuuut... Yea
Balarka Sen
Balarka Sen
You know
This might follow from the thin waist theorem
The biinfinite shadowing => Anosov closing thing
Hmmmm
Suppose you get your biinfinite shadowing by $f^m(x)$, $m \in \Bbb Z$
Then, starting at $x$, you can find $n$ such that $d(f^n x, x)$ is small.
Because you're shadowing a $\delta$-periodic sequence starting at $y$, something close to $x$
Er
I want to say infinitely many of your biinfinite shadowing sequence hits an $\epsilon$-neighborhood of $x$
Because the shadowing is an $\epsilon$-shadowing
Daminark
Daminark
02:28
Uh... are you sure?
Oh wait hmm
Balarka Sen
Balarka Sen
I am not sure but it feels like it
Daminark
Daminark
So wait you're starting with some $\delta$-periodic sequence
Balarka Sen
Balarka Sen
Right
Daminark
Daminark
And then you're $\epsilon$-shadowing it, so yeah, infinitely many points of the shadowing sequence are within $\delta + \epsilon$ of $x$
Balarka Sen
Balarka Sen
Right, OK
But those points form a sequence inside the closure of the delta+epsilon ball around x
So it converges somewhere
and that somewhere has to be $y$
So the points which are in the shadowing sequence and withing $\delta + \epsilon$ of $x$ are all of the form $g^i(x)$ where $g = f^N$, where $N$ is the length of the $\delta$-periodic sequence.
They loop around $N$ times and hit $B_{\delta + \epsilon}(x)$ each time
Daminark
Daminark
02:38
Yeah
Leaky Nun
Leaky Nun
03:01
I have to say, I have no knowledge of category theory, but I am very impressed by and jealous of that LaTeXing. — TreFox 1 min ago
lol
Balarka Sen
Balarka Sen
@Daminark OK. This about this scenario instead. $x, f(x), f^2(x), \cdots, f^N(x)$ is a $\delta + \epsilon$-periodic orbit. It's an orbit everywhere except when you go from $f^N(x)$ to $x$, and there's a deviation of $\delta + \epsilon$ there. So set up $x_k = f^{k \pmod{N+1}}(x)$ and $\epsilon'$-shadow THIS dude. You get another $x'$ in the game whose orbit shadows this fellow, i.e., $d(x_i, f^i(x')) < \epsilon'$
Akiva Weinberger
Akiva Weinberger
math.mit.edu/~dspivak/files/metric_realization.pdf
I have no idea what that paper is talking about
Balarka Sen
Balarka Sen
Observe: $d(f^i(x'), f^{i+N+1}(x')) < d(f^i(x), x_i) + d(x_i, f^{i+N+1}(x'))$. The first term is bounded by $\epsilon$. The second term is also bounded by $\epsilon$ because $x_i = x_{i+N+1}$.
Akiva Weinberger
Akiva Weinberger
But I feel like one of you guys might
So, if it turns out to be good: enjoy
Balarka Sen
Balarka Sen
So $d(f^i(x'), f^i(f^{N+1}(x')) < 2\epsilon'$ for all $i$
You can of course also choose $\epsilon'$ to be as small as possible, replacing $x'$ by $x''$ if necessary
Daminark
Daminark
03:04
Good Lord this looks aggressive
Balarka Sen
Balarka Sen
By the hypothesis of shadowing arbitrary well
Daminark
Daminark
Fuzzy sets
Balarka Sen
Balarka Sen
@Daminark This would be much easier if I had pen and paper
to explain the picture
But the general lemma after this is if $V$ is a sufficiently small neighborhood of the hyperbolic set $\Lambda$, there's an $\alpha$ such that if two orbits $O_x$ and $O_y$ are $\alpha$-close (i.e., $d(f^i(x), f^j(y)) < \alpha$) then $x = y$ ie the orbits are the same.
i think it's known as expansiveness or something
This immediately implies $f^{N+1}(x') = x'$ up above, which closes our sequence off
Daminark
Daminark
I see
Balarka Sen
Balarka Sen
The lemma is interesting and closely related to the thin waist lemma I was speaking of earlier
You are familiar with $\Bbb H^2$?
How the geodesics look like there?
Daminark
Daminark
03:19
Not quite
Balarka Sen
Balarka Sen
user image
Poincare disk model is easier to explain. So you have an open disk $D^2$
Daminark
Daminark
I do? What a Christmas present
Balarka Sen
Balarka Sen
lmao
It comes with a metric!
But let us not speak of that horrid metric (it's not that horrid, but whatever)
Let us watch the geodesics!
The geodesics of this model are exactly the semicircles perpendicular to the boundary of this disk (in degenerate cases those are diameters)
$D, D_1, D_2$ are all geodesics there
Daminark
Daminark
Is that unique? Like, given two points, is there a unique geodesic connecting them?
Balarka Sen
Balarka Sen
Oh, given any two points, yes.
That is true.
It's a nice exercise in Euclidean geometry
Daminark
Daminark
03:25
Actually wait a sec, so given two points not on the boundary, a geodesic is gonna be some section along a geodesic of boundary points containing them, right?
Xander Henderson
Xander Henderson
I want to speak of the horrid metric!
Can we, please?
Daminark
Daminark
So in that case I'm actually skeptical
Lol, do go for it
Balarka Sen
Balarka Sen
I am not sure what "section along a geodesic of boundary points containing them means"
The geodesic is simply a hemicircle connecting the two points, perpendicular to the boundary
Daminark
Daminark
Perpendicular when you keep extending the hemicircle until it hits the boundary of the disk, right?
Balarka Sen
Balarka Sen
That's right.
Daminark
Daminark
03:28
Okay
Xander Henderson
Xander Henderson
I'm not sure that "hemicircle" is quite the right word here; "circular arc" may be better?
Balarka Sen
Balarka Sen
Yeah
Xander Henderson
Xander Henderson
or "hyperbolic geodesic"? :P
Balarka Sen
Balarka Sen
Tautological, but that works :p
Xander Henderson
Xander Henderson
all the best tautologies are tautological
Balarka Sen
Balarka Sen
03:30
@Daminark You can either do the geometry or use ... differential geometry of surfaces to prove it! Your nightmare mwahaha
Daminark
Daminark
:GWChadThonkery:
Xander Henderson
Xander Henderson
hah
Daminark
Daminark
@BalarkaSen or I could... Not prove it :P
And go back to quasifibrations
Balarka Sen
Balarka Sen
What this model fails to have is uniqueness of a parallel passing through a given point
link
Xander Henderson
Xander Henderson
But that is an advantage of the model, no? Or, at least, motivation for its creation...
Balarka Sen
Balarka Sen
03:32
Yes, it proves that the fifth axiom of Euclid is independent of the other four.
Xander Henderson
Xander Henderson
exactly
Daminark
Daminark
I see
Balarka Sen
Balarka Sen
@Daminark Notice how any two geodesics diverge off exponentially from each other
If $\gamma$ and $\gamma'$ were two hyperbolic geodesics such that $\|\gamma - \gamma\| < \alpha$ for ANY given $\alpha$, then $\gamma = \gamma'$
27 mins ago, by Balarka Sen
But the general lemma after this is if $V$ is a sufficiently small neighborhood of the hyperbolic set $\Lambda$, there's an $\alpha$ such that if two orbits $O_x$ and $O_y$ are $\alpha$-close (i.e., $d(f^i(x), f^j(y)) < \alpha$) then $x = y$ ie the orbits are the same.
This ^ is an analogue of that for hyperbolic orbits/orbits of a hyperbolic dynamics
Although a much looser form. It just says there is some $\alpha$ such that...
(Also I meant $d(f^i(x), f^i(y)) < \alpha$. No $j$ there)
Also notice that if $\gamma$, $\gamma'$ are two hyperbolic geodesics usually the ends diverge off from each other and the middle bit is the closest. That's the analogue of the thin waist lemma I was speaking of for orbits
There's a lot of close parallels
No pun intended
Xander Henderson
Xander Henderson
ouch...
Daminark
Daminark
Kek
Balarka Sen
Balarka Sen
03:41
Well, I guess thin waists are not that much of an attraction point in 2017 anymore. The taste has, er, um, shifted.
Daminark
Daminark
Kek
Balarka Sen
Balarka Sen
Unfortunately, in hyperbolic geometry, that's the best you're gonna get. Savor it!
Daminark
Daminark
No that's the best you're gonna get, I'm gonna get long exact sequences
Balarka Sen
Balarka Sen
such depravity.
absolutely vulgar nonsense
Daminark
Daminark
Lol Xander you're probably just watching our bickering like "Erm..."
Typhon
Typhon
03:46
@AkivaWeinberger all piecewise constant constant function can be written as h(floor(g(x))). I'm limiting myself to things of a closed form so that my algorithm can say "replace _ with a constant". Technically I could say any expression of the specified sort.
in fact cosine is redundant as it can be written as a function of sine
i believe proving it relies on using the left and right hand derivatives somehow
ill think on it more tonight
perhaps it will work out as a surprise christmas gift.
that would awesome considering Ive been trying to prove it works for 2.5 years.
Leaky Nun
Leaky Nun
how do you remember that monomorphism is g1of=g2of implies g1=g2 or fog1=fog2 implies g1=g2?
@Daminark
Daminark
Daminark
I mean I just think about mono as injection and then epi as surjection
Balarka Sen
Balarka Sen
Not true in general categories, dr. algebraist
Daminark
Daminark
I know but like, the analog
Balarka Sen
Balarka Sen
I never think about mono/epis though
Daminark
Daminark
03:52
Because it's easier to remember that and just say okay, which side of cancellation works for injection? Okay that's the mono one
Balarka Sen
Balarka Sen
Oh as an intuition
I see
Daminark
Daminark
Yup
Leaky Nun
Leaky Nun
but which side is it?
oh wait, it actually tells us that injectivity and surjectivity are dual concepts.. can’t believe this gem is hidden there so long and i didn’t find it
Balarka Sen
Balarka Sen
OH WAIT. tHe rOcK is DuAl tO ThE tReE!!111
2
Leaky Nun
Leaky Nun
:p
i do have an obsession with duality
Balarka Sen
Balarka Sen
03:59
I think it's okay. Categorists are too easily excited by it
Daminark
Daminark
Duality sounds dank enough, much as I haven't quite gotten deep enough into things to appreciate it beyond the fact that concepts connect
Leaky Nun
Leaky Nun
so im(phi) where phi:X->Y is B such that X->B epi B->Y mono and triangle commute?
is this a pushout/pullback of some sort?
Daminark
Daminark
I don't know much about pullbacks in general but... I'm not wit getting such a vibe here
Leaky Nun
Leaky Nun
04:22
nlab confirms my epi-mono factorization
Daminark
Daminark
I see
BEHOLD
I am wearing a hat
@Balarka b e h o l d
Balarka Sen
Balarka Sen
user image
2
Daminark rn
Santathonk
Leaky Nun
Leaky Nun
nlab even confirms the pushout
Adeek
Adeek
04:48
@BalarkaSen ....
@BalarkaSen .....
:D
Daminark
Daminark
04:59
Hey @Adeek, @Faust, and @MeowMix!
Meow Mix
Meow Mix
hi
Daminark
Daminark
How've you been?
Meow Mix
Meow Mix
ive been being
Daminark
Daminark
:blobhyperthinkfast:
Adeek
Adeek
05:15
hi @Daminark
Daminark
Daminark
How's it going?
Adeek
Adeek
good just trying to understand few thigngs
Daminark
Daminark
Nice, which things?
Leaky Nun
Leaky Nun
inb4 this thing, that thing, and some other things
Daminark
Daminark
05:35
Seems like you predicted exactly what Adeek was gonna say and he was just like "Aight peace out
 
2 hours later…
Typhon
Typhon
07:48
MERRY CHRISTMAS
00:00 - 08:0008:00 - 16:0016:00 - 00:00

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