« first day (2320 days earlier)      last day (2996 days later) » 
00:00 - 06:0006:00 - 13:0013:00 - 16:0016:00 - 18:0018:00 - 22:0022:00 - 00:00

Semiclassical
Semiclassical
18:00
I have no idea what those mean, so I have nothing more to say than that
meow-mix
meow-mix
$W^{1,\Phi}(\Omega)=\overline{C_0^{\infty}(\Omega)}$
Vrouvrou
Vrouvrou
sorry i mean $W^{1,\Phi}_{0}(\Omega)=\overline{C_0^{\infty}(\Omega)}$
meow-mix
meow-mix
what is $C^{\infty}$?
infinitely differentiable functions?
Adeek
Adeek
hey @arctictern here ?
arctic tern
arctic tern
yeah
Vrouvrou
Vrouvrou
18:09
Bump function
In mathematics, a bump function is a function f : Rn → R on a Euclidean space Rn which is both smooth (in the sense of having continuous derivatives of all orders) and compactly supported. The space of all bump functions on Rn is denoted C 0 ∞ ( R n ) {\displaystyle C_{0}^{\infty }(\mathbf {R} ^{n})} or C c ...
Adeek
Adeek
I am just reviewing some stuff in group theory. If we we classifying groups of order pq. Then there is the abelian one and there is the one given by semi direct product but why are all semi direct product isomorphic ?
@arctictern ?
arctic tern
arctic tern
pretty sure we've covered this
or maybe not all the way
Adeek
Adeek
I don't remember.
arctic tern
arctic tern
the semidirect product comes from homos Z/pZ->Z/(q-1)Z, and all elts of Z/(q-1)Z of order p (if they exist) are related by some automorphism of Z/(q-1)Z which can be extended to an isomorphism between the two semidirect products
Adeek
Adeek
oh
MickLH
MickLH
18:19
@meow-mix Trying to answer this question has led me to an interesting conjecture! much appreciated :) I believe that if we were to assume the existence of an imaginary element $i = 2^{-1}$ then the set and operators would form a full field, though I'm not provably sure about that
Though it's very consistent with the intuition that spawned the idea in the first place, so my gut is telling me to just conjecture it lol
meow-mix
meow-mix
@MickLH write out your full conjecture; i'd like to see it :)
arctic tern
arctic tern
@MickLH $\Bbb F_{2^n}$ is not the notation for integers mod $2^n$
SAWblade
SAWblade
If some $H \leq G$ is non-Hopfian, does that imply that $G$ is also non-Hopfian? :0
Anybody have an idea? xD
MickLH
MickLH
@arctictern pls halp
arctic tern
arctic tern
what's your question
meow-mix
meow-mix
18:22
you would write $\Bbb Z / 2^n\Bbb Z$
MickLH
MickLH
@arctictern "What do I call it?" is one of the biggest parts of the question :P
arctic tern
arctic tern
what do you call what?
MickLH
MickLH
@meow-mix I've encountered this notation before, but I've always had to confirm the meaning from context in each situation. I'm not sure how I'm supposed to read it.
meow-mix
meow-mix
@MickLH it's the quotient group of the integers over the left coset $2^n$
arctic tern
arctic tern
nevermind
MickLH
MickLH
18:25
@meow-mix Thank you! this seems like exactly what I'm looking for, though of course give me a second to review some terms
arctic tern
arctic tern
@MickLH https://en.wikipedia.org/wiki/Modular_arithmetic#Integers_modulo_n
meow-mix
meow-mix
@MickLH the left coset $gH$ of $g \in G$ with subgroup $H$ is the set of all $gh$ for $h \in H$
MickLH
MickLH
@arctictern In simple, it's the set of odd natural numbers less than $2^n$, endowed with + and * operators
meow-mix
meow-mix
@MickLH hmm
arctic tern
arctic tern
@MickLH but adding two odd numbers does not give an odd number, and multiplying two numbers less than 2^n may not be less than 2^n.
meow-mix
meow-mix
18:26
^
MickLH
MickLH
@arctictern Right, so the addition is defined like $f(x, y) = x + y - 1 \left(\text{mod} 2^n\right)$
meow-mix
meow-mix
modulo $2^n$, right
MickLH
MickLH
yes, sorry to be ambiguous
arctic tern
arctic tern
then you've just got a set with two operations
SAWblade
SAWblade
better question - is hopficity heriditary?
meow-mix
meow-mix
18:27
@MickLH you want to start a private room investigating the properties of this structure
MickLH
MickLH
Sure, if that's appropriate
arctic tern
arctic tern
doesn't seem necessary
meow-mix
meow-mix
@arctictern i don't want to spam chat
with proving associativity and what not
Vrouvrou
Vrouvrou
with this definition can i say that $u\in W^{1,\Phi}_0$ impies that $u=0$ on $\partial\Omega$ ?
user image
?
arctic tern
arctic tern
sure, your f(-,-) is commutative and associative, but it's not distributive so it's not clear there's any nice interaction between f(-,-) and multiplication, so ... it's a set with two binary operations
Semiclassical
Semiclassical
18:30
f(cx,cy)=c(x+y)-1 doesn't seem particularly nice, no.
meow-mix
meow-mix
nope
MickLH
MickLH
@arctictern I've also defined * in a non-standard way though to match, namely $g(x,y) = \frac{(x-1)(y-1)}{2}+1$
Semiclassical
Semiclassical
:/
meow-mix
meow-mix
@MickLH you may also consider the usual multiplication of integers
arctic tern
arctic tern
@MickLH perhaps you should call it g(x,y)
Semiclassical
Semiclassical
18:32
could also do $\oplus$ and $\otimes$.
Adeek
Adeek
@arctictern can you use semi direct product to classify groups of order 8. I classified it normally didn't use semi-direct product.
arctic tern
arctic tern
iunno
Semiclassical
Semiclassical
Doing $x\oplus y=x+y-1$ also makes sense because that's how binary OR works.
SAWblade
SAWblade
okay hopficity is not hereditary
meow-mix
meow-mix
@Semiclassical no it isnt?
Semiclassical
Semiclassical
18:34
But I feel like this is just the usual integers with + and *, taken mod 2^{n-1}, under the mapping $n\mapsto 2n-1$.
$1\oplus 1 = 1,1\oplus 0=0,0\oplus 1=0,0\oplus 0=1$ (-1 = 1 in boolean)
yeah, not OR
meow-mix
meow-mix
exclusive or
Ted Shifrin
Ted Shifrin
Hi @Semiclassic, @meow, tern.
meow-mix
meow-mix
hello @TedShifrin
Semiclassical
Semiclassical
actually, it's the negation of XOR
meow-mix
meow-mix
XNOR
Semiclassical
Semiclassical
18:36
NOT XOR = XNOR ?
Ted Shifrin
Ted Shifrin
I feel like I stepped into a logic spaceship ... sort of the opposite of the real world around us.
meow-mix
meow-mix
@Semiclassical yes
Semiclassical
Semiclassical
mmkay
Ted Shifrin
Ted Shifrin
NOT XOR = either both or neither
meow-mix
meow-mix
similarly, negation of OR is NOR, and negation of AND is NAND
Semiclassical
Semiclassical
18:37
NAND is fun to say
Ted Shifrin
Ted Shifrin
Anything projective to discuss, @meow, before I disappear? :)
Semiclassical
Semiclassical
@TedShifrin Well, if you want a touch of familiarity, I've got this stack of lab reports I should be grading right next to me :)
Ted Shifrin
Ted Shifrin
That sounds reassuring, @Semiclassic.
Semiclassical
Semiclassical
Hah.
I should at least count how many I have
meow-mix
meow-mix
@TedShifrin just pondering the harmonic-y questions
Semiclassical
Semiclassical
18:39
31 reports.
That...actually seems small. :/
Which is worrisome.
Ted Shifrin
Ted Shifrin
@meow: They're not super important.
Maybe some were stuck together, @Semiclassic.
Semiclassical
Semiclassical
Maybe.
Ted Shifrin
Ted Shifrin
Gluons, you know.
Semiclassical
Semiclassical
riiiight
Ted Shifrin
Ted Shifrin
shrug ... I tried
meow-mix
meow-mix
18:41
oh, @ted!
how do you take the cross ratio of 4 lines?
Semiclassical
Semiclassical
Amusingly, the phrase 'cross ratio' came up in a physics talk this week, albeit in passing
It was on conformal field theory, albeit at a very sketchy level.
Okay, my first section has all of their reports in. So that's good.
And my second is missing two, neither of which are a huge surprise.
Danu
Danu
Hey @Ted
Hey @Semi
Semiclassical
Semiclassical
Hey @Danu
Ted Shifrin
Ted Shifrin
@meow: You only do that if they live as four points on a line in $\Bbb P^2{}^*$, right?
Hi @Danu
Semiclassical
Semiclassical
@MickLH The thing I mostly notice is that your addition and multiplication satisfy $f(2n+1,2m+1)=2(n+m)+1$ and $g(2n+1,2m+1)=2(nm)+1$
Danu
Danu
18:46
@TedShifrin So while I'm waiting for my supervisor to come up with a precise problem to look at, I thought it'd be a good idea to read the references of his paper to get some better backgrond info. I'm debating what to start on...
meow-mix
meow-mix
@TedShifrin so how do we define cross ratio in $\Bbb P^n$?
Ted Shifrin
Ted Shifrin
Ideally, you should read and ask questions rather than waiting for him to pose them. He can always say, "good," "bad," or "totally understood."
You don't, @meow. It's only defined for four points on a $\Bbb P^1$.
meow-mix
meow-mix
oh wait
Semiclassical
Semiclassical
Hence why it's interesting for Mobius transforms.
Sophie
Sophie
Palmyra fell
Ted Shifrin
Ted Shifrin
18:47
But note that it's projectively invariant, so you get a well-defined thing.
meow-mix
meow-mix
so you consider
in $\Bbb P^2$
4 points that are collinear
Ted Shifrin
Ted Shifrin
The world is a mess, @Sophie. I am sorry.
Right, @meow, for example.
meow-mix
meow-mix
so that you have this "copy" of $\Bbb P^1$ intersecting those points to perform the cross ratio on
Kasmir Khaan
Kasmir Khaan
Hi @TedShifrin I have this question about line integral in complex plane , integral dz/ (z-a ) over Y, when Y = circle in C , centred at a with radius R
Danu
Danu
I'm tempted by Thom's 1958 big paper, but hesitant because it might be not-most-efficient. Other options include other papers (not directly related, but on characteristic numbers and stuff) by my supervisor, one paper by Gromov, one by Gromov & Lawson...
Ted Shifrin
Ted Shifrin
18:48
containing those points, yes, @meow.
Semiclassical
Semiclassical
50 years later, and this song seems as relevant as ever
Barry McGuire - Eve of Destruction
Ted Shifrin
Ted Shifrin
@Kasmir: So?
Danu
Danu
My preference goes out to:
Bob Dylan- Masters of War
Sophie
Sophie
@TedShifrin are you watching the conflict? ISIS took the SAA completely by surprise, Assad really scrapped the bottom of the barrel bomb to end Aleppo
Kasmir Khaan
Kasmir Khaan
@TedShifrin can you explain to me what am supposed to do ?
Ted Shifrin
Ted Shifrin
18:49
No, @Sophie, I was listening to the news all morning, but I'll catch up later. The next years are going to be horrible everywhere.
Semiclassical
Semiclassical
Yeah.
Ted Shifrin
Ted Shifrin
Parametrize the circle and do the integral, @Kasmir. This is one that shows up thousands of times and you'll just know it after this.
Semiclassical
Semiclassical
"this whole crazy world is just too frustrating"
Danu
Danu
Let's see how many European countries will be taken over by right-wing populists in the coming years...
Semiclassical
Semiclassical
Ugh.
At least Austria held that off this year?
Danu
Danu
18:51
Yeah, that's a good start I guess?
Semiclassical
Semiclassical
It's something.
Sophie
Sophie
the previous austrian election was much closer, I think it was 49.5% for the right wing party
Semiclassical
Semiclassical
But I dunno what counts as better or worse nowadays.
I mean, my feelings re: Trump were/are ... not positive, to put it lightly
Mike Miller
Mike Miller
What are we doing?
Semiclassical
Semiclassical
Sighing about geography while doing geometry, I guess.
Ted Shifrin
Ted Shifrin
18:53
Other than ruminating over the state of the world, trying to decide what @Danu will read.
Danu
Danu
About specific questions, @Ted, I am assuming the most feasible thing to do for me is to somehow try to construct some spaces which (i) satisfy some interesting criterion (ii) satisfy/violate an interesting condition on characteristic numbers.
Ted Shifrin
Ted Shifrin
Oh, and meow is pondering cross-ratio.
Semiclassical
Semiclassical
random question, @Danu, but how much do you know about conformal field theory?
Ted Shifrin
Ted Shifrin
@Danu: First you need to assemble a menagerie of example spaces for which you can compute things. Complete intersections are a great source of examples.
Danu
Danu
The way to do it will probably be analogous/related to my supervisor's recent papers.
@Semiclassical I'd say a lot for a master's student.
Mike Miller
Mike Miller
18:54
complete intersections are good, as are their resolutions
Semiclassical
Semiclassical
neat.
Danu
Danu
I took a course specifically on CFT. I only know anything about stringy CFT though.
So only d=2
Mike Miller
Mike Miller
in general resolutions of singularities (incl quotient singularities) are good examples
Semiclassical
Semiclassical
Virasoro algebra stuff?
Danu
Danu
@TedShifrin I'm supposed to be using bundles, I think.
Semiclassical
Semiclassical
18:55
The guy who was talking here this week was working on higher dimensional stuff.
Ted Shifrin
Ted Shifrin
When they talk about characteristic numbers, that's usually referring to the tangent bundle, @Danu.
Danu
Danu
@Semiclassical Yeah, and extensions ($\mathcal W$-algebras, currents)
Semiclassical
Semiclassical
right.
Kasmir Khaan
Kasmir Khaan
@TedShifrin are line integrals on plane same as line integrals on complex?
Ted Shifrin
Ted Shifrin
yes, @Kasmir. But use complex arithmetic/calculus to make life easier.
Semiclassical
Semiclassical
18:56
The most I've had to deal with CFTs myself is that certain systems act like them when they go through a phase transition.
Danu
Danu
@TedShifrin Sure; I should clarify: Kotschick's paper computes characteristic numbers of (the tangent bundle of) some total spaces of vector bundles.
meow-mix
meow-mix
@TedShifrin projections preserve cross-ratio?
Ted Shifrin
Ted Shifrin
hmmm ...
Kasmir Khaan
Kasmir Khaan
@TedShifrin what do you mean ? been 2 years since we last used complex numbers
Danu
Danu
$\Bbb P^{2k}$-bundles over $S^4$.
Semiclassical
Semiclassical
18:57
which isn't terribly surprising, since at a phase transition you find that various quantities either diverge or become zero, and that includes the correlation length diverging
Ted Shifrin
Ted Shifrin
@Kasmir: If you're doing complex functions and integrals, you're using complex numbers!
Semiclassical
Semiclassical
^
Ted Shifrin
Ted Shifrin
Ah, ok, @Danu.
@meow: You mean you have two lines in $\Bbb P^2$ and you project from a fixed point from one line to the other?
Kasmir Khaan
Kasmir Khaan
@TedShifrin hmm if i let Y :z=a+Re^it is that good parametrization ?
Ted Shifrin
Ted Shifrin
If so, you should work it out, but isn't that a projective transformation, @meow?
Yes, @Kasmir, perfect.
Semiclassical
Semiclassical
18:58
So if you sit at the transition point and let the system volume go to infinity, it'll behave like a CFT. You also see it showing up if you allow the system volume to go to infinity while also moving closer and closer to the transition i.e. an appropriate scaling
Danu
Danu
It's just because there is a theorem that tells you they admit a metric of non-negative sectional curvature @TedShifrin. I guess there are a lot of theorem about metrics on bundles?
Kasmir Khaan
Kasmir Khaan
@TedShifrin thanks again Ted! :) ill keep working on the problem
Semiclassical
Semiclassical
blah blah blah holographic law
Ted Shifrin
Ted Shifrin
Ah, @Danu, I don't know all the Gromov-Lawson stuff I should.
Mike Miller
Mike Miller
Beautiful stuff.
Ted Shifrin
Ted Shifrin
18:59
Maybe Danu should run a seminar in here on it :)
Danu
Danu
That's one of the papers that's referenced. Do you think I stand a chance of understnading any of it?
Ted Shifrin
Ted Shifrin
I dunno. There's a fair amount of geometry and analysis, but jump in and take some stuff as black-boxed (even though you hate to do that, you need to).
Danu
Danu
@Semiclassical Yeah. In my course, this blahblah relevant to phase transitions blahblah was just introduced as a way to rake in funding ;)
Semiclassical
Semiclassical
lol
meow-mix
meow-mix
@TedShifrin but it maps to a line, not the projective plane... and don't projective transformations have to be in GL(3,R)?
Semiclassical
Semiclassical
19:00
we did some calculations for it, in the case of a topological phase transition of a particular 1D system
Which was neat, as mathematical physics
Mike Miller
Mike Miller
also, Gromov-Lawson is a number of papers
Danu
Danu
@TedShifrin I'll probably retake Riemannian geometry next year... HOpefully no characteristic classes in disguise this year :P
Ted Shifrin
Ted Shifrin
@meow: Choose coordinates on each of the lines and write down a formula for the projection as a map from the line to the other line.
Semiclassical
Semiclassical
but I won't pretend any of the stuff I do actually matters :P
Danu
Danu
@MikeMiller Classification of simply connected [...]
Mike Miller
Mike Miller
19:01
I hated the class on Riemannian geometry I took even though I find much of the geometry beautiful
Ted Shifrin
Ted Shifrin
Of course you both would have loved my course :P Except for all those damn differential forms.
Danu
Danu
From the talks I've attended on Riemannian geometry, it sounds too analytic to me to really love it.
meow-mix
meow-mix
@TedShifrin soy confuzled
Ted Shifrin
Ted Shifrin
@Danu: Parts of it have become very analytic. But it's not all.
meow-mix
meow-mix
@TedShifrin "lines" there are more than one line in a projection?
Ted Shifrin
Ted Shifrin
19:01
LOL @meow
Danu
Danu
@TedShifrin Just today I took a look at the paper by Chern and Simons on the Chern-Simons form (which is heavily used in physics). Lots of forms :P
meow-mix
meow-mix
i should say "confuzlando"
Ted Shifrin
Ted Shifrin
Read what I typed up there. I talked about fixing a point $P$ in the plane and two lines. You get a map $\ell_1\to\ell_2$ by sending $Q$ to the intersection of $\overleftrightarrow{PQ}$ and $\ell_2$.
meow-mix
meow-mix
and i feel like i just made a fool of myself.. :P
Danu
Danu
Are there any widely accepted "good texts" on Riemannian geometry?
Mike Miller
Mike Miller
19:03
@TedShifrin Would I? Maybe.
Ted Shifrin
Ted Shifrin
Yes, Chern is always forms, and Chern-Simons is one of the most basic examples of transgression.
Mike Miller
Mike Miller
@Danu Find the French book. Ted will know the authors.
My favorite book is not suitable for a first course.
Danu
Danu
@TedShifrin Transgression being... a technical term?
Ted Shifrin
Ted Shifrin
Oh, three authors. I never looked at the book.
Mike Miller
Mike Miller
Actually, Danu will hate it, since half of the book is exercises.
Ted Shifrin
Ted Shifrin
19:04
Yes, @Danu, it's like when a form on a bundle gives you a well-defined form downstairs of a lower degree.
Danu
Danu
@MikeMiller Yo screw you too :P
Balarka Sen
Balarka Sen
@Danu Great song.
Semiclassical
Semiclassical
@TedShifrin I don't suppose there's an easy simple example of that?
meow-mix
meow-mix
@TedShifrin im going to re-read some of this... my brain is having a confuzled party
Vrouvrou
Vrouvrou
@TedShifrin please i have this definition , can we say that $u=0$ on $\partial\Omega$ ?
user image
Danu
Danu
19:05
All those colors
Ted Shifrin
Ted Shifrin
Chern-Simons is the most interesting basic example. I can try to give you something more explicit later, but I have to leave now.
LeGrandDODOM
LeGrandDODOM
@Ted salut
Balarka Sen
Balarka Sen
Rather violent at the end for a successful artistic protest against violence, but great.
Ted Shifrin
Ted Shifrin
@Vrouvrou: I have to leave and this is too technical. You need to ask your professor.
@LeGrandDodo: Salut et à bientôt.
Bye all.
Semiclassical
Semiclassical
bye @ted
Danu
Danu
19:06
bye
Simple Art
Simple Art
What in the world are you guys talking about?
LeGrandDODOM
LeGrandDODOM
@SimpleArt hi
Simple Art
Simple Art
Lol, ok
Danu
Danu
@BalarkaSen Let out the rage!
It's not really against violence, per se. More against war :)
Balarka Sen
Balarka Sen
Sure, sure.
Simple Art
Simple Art
19:08
I don't like violence unless it's meaningful
Semiclassical
Semiclassical
Eh, for a more violent rage against war, I prefer Black Sabbath :)
Simple Art
Simple Art
What are we raging about? I'm so confused
Semiclassical
Semiclassical
(I have no idea what the video itself in there is from)
Simple Art
Simple Art
So I recently learned about multivariate chain rule, and I find it a bit sad that most of the single variable derivatives rules are special cases of it.
Danu
Danu
It's Gallot, Hulin, Lafontaine, @MikeMiller @TedShifrin.
Balarka Sen
Balarka Sen
19:13
I have heard praises of G-H-L.
No new and interesting math today?
Simple Art
Simple Art
Idk
Mike Miller
Mike Miller
No. I'm not doing math for another three days. Then I'll be doing uninteresting math.
Semiclassical
Semiclassical
Not unless you count the Biot-Savart law as interesting :/
Balarka Sen
Balarka Sen
Taking a break is good, I am going to do that after my exam. And by uninteresting math did you mean algebra? :)
Semiclassical
Semiclassical
Though you can use the Biot-Savart law in conjunction with Ampere's law to get a physical derivation of Gauss's formula for the linking number :)
meow-mix
meow-mix
19:21
is $\Bbb P^{2*}$ isomorphic to $\Bbb P^1$?
Adeek
Adeek
@arctictern is $Aut(H \rtimes K) = Aut(H) \rtimes Aut(K)$ ?
Mike Miller
Mike Miller
No. That's not even true for products.
$\text{Aut}(G \times G)$ always has an automorphism swapping the two factors, for instance.
Balarka Sen
Balarka Sen
Look at say Z/2 x Z/2
Mike Miller
Mike Miller
You might stand a chance of it being true if $H$ and $K$ have coprime orders or something?
Adeek
Adeek
Yeah I guess
arctic tern
arctic tern
19:22
If $H$ and $K$ have no common direct factor then $\mathrm{Aut}(H\times K)$ can be described as a matrix group with entries in $\mathrm{Aut}(H),\hom(H,Z(K)),\hom(K,Z(H)),\mathrm{Aut}(K)$
Arrow
Arrow
Sorry if this is very trivial. In a group, can anything interesting be deduced from the equation $abc=b$?
Mike Miller
Mike Miller
cool @arctictern
well, one learns that $abc = b$
Adeek
Adeek
also for example $Z_n \rtimes Z_n^{\times}= Aut(D_2n) = Aut( Z_n \rtimes Z_2) \neq Z_n \rtimes Z_2$
Balarka Sen
Balarka Sen
@Arrow You get stuff like that in knot groups.
But I don't know what specifically you can learn.
Adeek
Adeek
lol @MikeMiller
brb computer is crashing have to restart
I have a habbit of having like million tabs
brb
arctic tern
arctic tern
19:24
@Arrow yes, a^-1 = bcb^-1 tells us a^-1 and c are conjugate by b
Arrow
Arrow
Suppose $f:A\to B$ is a monoid homomorphism and $s$ is a section of $f$. Suppose moreover the kernel of $s$ and the image of $f$ generate $A$. I'm wondering whether one can deduce that every element $a\in A$ is a product of kernel elements times the element in the image of $s$ in the same fiber as $a$.
arctic tern
arctic tern
@Arrow the kernel of s:B->A and the image of f:A->B are subsets of B, how can they generate A?
Arrow
Arrow
sorry, typo
Balarka Sen
Balarka Sen
Unrelated question. Suppose you have a group $G$ finitely generated (say by $g_1, g_2, \cdots, g_n$) with all the relators of the form $hg_ih^{-1} = g_j$ where $h$ is a word on $g_1, \cdots, g_n$. Need that be a knot group? I see that you can build the knot locally around the crossings, but how the picture will patch up is not clear to me.
Arrow
Arrow
meant the kernel of $f$ and the image of $s$
Mike Miller
Mike Miller
19:29
@BalarkaSen no, you further need $H_2(G) = 0$
actually hm
i think that's only known for sufficiently high-dimensional knots, and is open for dim 1
Balarka Sen
Balarka Sen
interesting; nonetheless good point bringing up that criterion
Mike Miller
Mike Miller
(of course one has $H_2(G) = 0$ but there should be further restrictions - for instance, the binary icosahedral group times Z is not the fundamental group of a knot complement)
Balarka Sen
Balarka Sen
ah. funny.
I should also have said there's a relator like that for all $i, j$. You'd want to have the right abelianization.
Mike Miller
Mike Miller
you can probably check that $\Bbb Z \times 2I$ does that
(it does have the right $H_1$, which is why I chose it)
Balarka Sen
Balarka Sen
yep, agreed.
Mike Miller
Mike Miller
19:44
so it does appear as a knot complement in dimensions 5 and up, but not 3 (and idk about 4)
Balarka Sen
Balarka Sen
Why does it appear as a knot complement in dimension => 5?
Mike Miller
Mike Miller
kervaire proved it
maths.ed.ac.uk/~aar/papers/kervhknt.pdf
oh there's one more necessary fact
you can find an element that normally generates the group
which i guess automatically disqualifies $\Bbb Z \times 2I$ :(
oh no nvm, it's satisfies for that, since $2I$'s only normal subgroup is order 2, so it seems like picking $x$ to be any element with order larger than 2 $(1,x)$ normally generates the group? maybe? worried about this
but i'll let you think about it
Balarka Sen
Balarka Sen
if $\Bbb Z \times 2I$ has the property that for all $i, j$ you have a relator $g_i = hg_jh^{-1}$ like you claimed, it should be normal closure of a single element just fine, I think.
Mike Miller
Mike Miller
you can try to prove it if you like
i think it doesn't tho
Adeek
Adeek
hey @arctictern is it true that when we have a group G such that $|G| = n\phi(n)$ and we have a subgroup of index $\phi(n)$ then it is normal
I am classifying $Aut(D_{2n})$ where this is true but I was wondering if it is true in general.
Mike Miller
Mike Miller
19:56
i would guess no. try groups of order 20.
Adeek
Adeek
alright
Tobias Kildetoft
Tobias Kildetoft
The form $n\varphi(n)$ does not seem like it is "special" enough to say much about things like this
arctic tern
arctic tern
@MikeMiller the sylow thms say n|4 and n=1mod5 for n the number of conjugates the the cyclic group of order 5 in any group of order 20
Mike Miller
Mike Miller
dang
Tobias Kildetoft
Tobias Kildetoft
Yeah, as long as all prime divisors of $n$ are greater than $\varphi(n)$ then the result works out
(such as when $n$ is prime)
Balarka Sen
Balarka Sen
20:00
@MikeMiller I pass; that's too much algebra for me on antibiotics.
Neat results on that paper however.
Mike Miller
Mike Miller
ok, take $n=8$ and you're probably fucked there
Tobias Kildetoft
Tobias Kildetoft
Agreed
Semiclassical
Semiclassical
For reference: groupprops.subwiki.org/wiki/Groups_of_order_32
meow-mix
meow-mix
im feelin stupid
Alessandro
Alessandro
Why?
meow-mix
meow-mix
20:07
i can't do this exercise :(
Alessandro
Alessandro
What exercise?
Adeek
Adeek
hey @arctictern so I am little bit confused about this so I proved that $Aut(D_{2n}) = Z_n \rtimes (Z_n)^{\times}$. But I was wondering I am trying to compute the map here this gives the semi direct product. So, I proved that the maps given by $r \mapsto r^k$(gcd(k,n) = 1) and $s \mapsto s$ and $s \mapsto sr^l$ (fixes r) where $0 \leq l \leq n - 1$ gives this classification where the second one is normal in $Aut(D_{2n})$.
meow-mix
meow-mix
@Alessandro i have to prove the medians of a triangle in projective $2$-space are concurrent using desargues' dual
Adeek
Adeek
to get the explicit automorphism map we conjugate the normal group by the non-normal one. But the problem here we don't have explicit generator for the $Z_n^{\times}$
I guess I can transfer everything to $Z_n$ and $Z_n^\times$ and work with them ?
yeah I think it is easier that way coz I think the maps picture are confusing me.
Semiclassical
Semiclassical
@meow-mix How're you setting it up?
meow-mix
meow-mix
20:16
i don't knowwww
i have to prove these 3 points collinear to use desargues dual
Semiclassical
Semiclassical
Hm
I don't know projective geometry, so I can only say stuff that's likely uninformed
Adeek
Adeek
maybe I should compose them and see relations among the powers @arctictern ?
Semiclassical
Semiclassical
But, you start with three vertices $[\alpha],[\beta],[\gamma]$ in P^2.
Alessandro
Alessandro
Wait isn't Desargues theorem its own dual?
meow-mix
meow-mix
@Semiclassical ok so let me give an outline
so we have points $P,Q,R$ forming the triangle
$P'$ is the midpoint of $QR$, $Q'$ is the midpoint of $PR$, $R'$ is the midpoint of $PQ$
i have to prove that $\vec{PQ} \cap \vec{P'Q'}$, $\vec{QR} \cap \vec{Q'R'}$, and $\vec{PR} \cap \vec{P'R'}$ are collinear
those are lines by the way
Semiclassical
Semiclassical
20:19
Collinear, or concurrent?
meow-mix
meow-mix
collinear
to apply desargues' dual
Semiclassical
Semiclassical
Am confuzed. Do PQ and P'Q' intersect in that case?
meow-mix
meow-mix
all line in projective $2$-space intersect
Semiclassical
Semiclassical
Yes, you're right
Makes more sense now.
I guess my mentality is rather brute-force. If you've got points a,b,c in P^2, then their midpoints are the 3 pairwise averages of those points.
Adeek
Adeek
yes so I think I figured it out. So here is the explicit way to construct $Aut(D_{d2n})$
Semiclassical
Semiclassical
20:23
And from that you get three lines.
But this probably isn't the Desargues' route.
Adeek
Adeek
Suppose that $Z_n = <a>$ and $Z_n^{\times} = <b>$ then $Aut(D_{2n}) = <a,b : a^n = e, b^{|Z_n|^{\times}} = e, bab^{-1} = a^{|Z_n^{\times}|}>$
haha that is some crazy group @arctictern
Mahmoud
Mahmoud
Hi.
meow-mix
meow-mix
20:39
@Semiclassical i have another problem i dont know how to do
Balarka Sen
Balarka Sen
21:17
"Between the idea / And the reality // Between the motion / And the act / Falls the Shadow: for Thine is the Kingdom
Between the conception / And the creation // Between the emotion / And the response / Falls the Shadow : life is very long"
Rüdiger
Rüdiger
no spam plz
Semiclassical
Semiclassical
for thine is/ life is/ for thine is the
(I know a lot of TS Eliot by memory) @BalarkaSen
Balarka Sen
Balarka Sen
@Rüdiger You consider that spam? Pshaw. I can do better.
Semiclassical
Semiclassical
Though I should really have done
between the desire / and the spasm / between the potency/ and the creation/ between the essence/ and the descent
falls the shadow / (for thine is the kingdom)
Balarka Sen
Balarka Sen
@Semiclassical Cool. I only started reading Eilot very recently.
Rüdiger
Rüdiger
21:29
Thou
shalt
Semiclassical
Semiclassical
I've been reading him since high school
Rüdiger
Rüdiger
not spam*
Semiclassical
Semiclassical
If this is what you consider spam, you need better taste in literature.
So...about 12 years?
@BalarkaSen Which of his stuff have you read so far? Early or later?
"The Hollow Men" is right at the end of early TS Eliot, I suppose
with "Ash Wednesday" at the beginning of late TS Eliot
Balarka Sen
Balarka Sen
I read two (The Hollow Men and Love Song of J Alfred Prufrock) about 2 days ago :)
Semiclassical
Semiclassical
Ahh.
Balarka Sen
Balarka Sen
21:32
Our high school syllabus isn't nearly as good to include Eliot. Oh well.
Semiclassical
Semiclassical
Pfff
Fun fact, while I was in St Louis (for reasons) I went to see the house he grew up in. It's not marked as historical---someone owns it nowadays---but it was still neat.
Balarka Sen
Balarka Sen
I don't know much about his personal life either except that he was post-WWI.
MickLH
MickLH
I'm afraid that one company I tend to buy pre-processed food from lacks any real engineer on their product development team :/
(I mean the recipes are great! but it's the small things, like this frozen meal that is marketed on its short prep time, yet it's frozen into a brick when clearly it could have much higher surface area)
Balarka Sen
Balarka Sen
I wouldn't have read him if I didn't hear J Alfred Prufrock being recited by someone a few days ago; it immediately sounded like something I could connect to (what came to mind was Dostoyevsky in poetry :P).
Alessandro
Alessandro
@Balarka I can draw the trefoil on a torus so I can cut its (or a?) Seifert surface from the surface of the torus, it looks something like a Möbius strip with more twists I'd guess, I need to get better at drawing :P the Hopf link is painful because its surface can't be embedded in R^3
Balarka Sen
Balarka Sen
21:43
@Alessandro Good approach on trefoil. You're wrong about the Hopf link!
Alessandro
Alessandro
Ah, that's a surprise
Balarka Sen
Balarka Sen
Actually, more rigor is needed on your trefoil thing. If you remove a trefoil from the torus you still got a 2-manifold, noncompact, but without boundary.
I am not sure anymore if that approach works.
Alessandro
Alessandro
If my drawing is right removing a treefoil from the torus divides it into 2 connected components
Balarka Sen
Balarka Sen
That sounds right. So you take one of those connected components, together with the boundary knot at the end, yeah?
Alessandro
Alessandro
Yes
Perturbative
Perturbative
21:58
Hey everyone, has anyone here used Lang's 'Algebra'?
00:00 - 06:0006:00 - 13:0013:00 - 16:0016:00 - 18:0018:00 - 22:0022:00 - 00:00

« first day (2320 days earlier)      last day (2996 days later) »