Mathematics - 2020-12-05 (page 1 of 2)

12:02 AM

@copper.hat What occasions that remark?

12:15 AM

User 123. I ended up blocking them because I couldn't take it anymore. I observed you being very patient yesterday.

Half of the registers were down at Trader Joe's which blocked aisles and significantly reduced throughput. Decided I didn't need the 40 min. wait right now.

user193319

0

Q: Order of a Module

Here is the problem I am working on: If $M$ is a finitely generated torsion module over a PID $R$ such that there exists $m \in M$ with $ann(m) = (r)$, where $R \ni r = order(M)$, what can you say about the invariant factors? What exactly is $order(M)$?

@robjohn But those aren't matrices over $\Bbb{Q}$.

robjohn

1:26 AM

@TedShifrin They are not singing dogs ;-)

Now we are going to pick up food.

Ted Shifrin

1:37 AM

OK, @robjohn, I recant.

nbro

2:10 AM

1

Q: Is AlphaFold just making a good estimate of the protein structure?

In the news, DeepMind's AlphaFold is said to have solved the protein folding problem using neural networks, but isn't this a problem only optimised quantum computers can solve? To my limited understating, the issue is that there are too many variables (atomic forces) to consider when simulating h...

neural-networks deep-learning deepmind quantum-computing alpha-fold

robjohn

2:30 AM

@user193319 If you don't allow matrices over $\mathbb{C}$, then you can't always find a Jordan form.

user193319

2:44 AM

@robjohn I know, and I'm trying to argue that that example is one which doesn't have a Jordan form over $\Bbb{Q}$. I'm just not sure about my argument; I think it's correct, but something seems off...

Ted Shifrin

3:38 AM

@user193319 Are the eigenvalues in $\Bbb Q$?

Nike Dattani

9

Q: Introduction to protein folding for mathematicians

My background is mostly in (applied) math with healthy doses of physics and computer science. Are there any good introductions to protein folding and its challenges for someone with that kind of quantitative background but very little knowledge of biology, chemistry, etcetera?

reference-request mathematical-modeling proteins biomaterials structural-biology

Leonhard Euler

4:00 AM

hi chat

I proved a fine theorem recently

*derived

here it is:

let $p_n$ be the $n$th prime. Then $$p_n\le\frac{p_x}{x\log x}n\log n\quad\forall n\ge x$$ for any natural number $x$

This gives very wonderful bounds for $n$

for example $$n\log n<p_n\le 1.120904141401622842917499039n\log n\quad\forall n\ge 1000000$$

and 1.120904141401622842917499039 is very close to 1 so this helps to approximate large primes

can't give a proof here

I have many more bounds for functions of primes

my question: is this bound known already?

Leonhard Euler

4:36 AM

this is a 3d one

bye I have to go

Leonhard Euler

5:33 AM

123

6:11 AM

Hi All. Good Morning..

robjohn

6:24 AM

@LeonhardEuler so $\frac{p_n}{n\log(n)}$ is decreasing?

Leonhard Euler

6:55 AM

@robjohn it tends to 1, and is decreasing

robjohn

Have you tried plotting it? I think you'll find out it is not monotonically decreasing.

Leonhard Euler

7:13 AM

Ok thanks

Where are the maximum values?

Do you know anything about them?

For example, the maximums of prime gaps occur at multiples of 6

Pherdindy

Hey guys I need some tips on how to properly write down my math equations

I am usually confused when to subscript or spell out a certain variable

ibb.co/vPf3WWy

Leonhard Euler

8:22 AM

Hey I derived this identity:

robjohn

9:27 AM

According to Stirling, $\frac{x!e^xx^{{\tiny\frac12}-x}}{\sqrt{2\pi}}\sim x+\frac1{12}$

so, $p_x\sim\left(x+\frac1{12}\right)\log(x)$

any idea about the error?

actually, $x\log(x)$ seems closer

Leonhard Euler

@robjohn So here is a better one:

ah I don't have

but I have derived many asymptotics

even for prime gaps

skullpatrol

11:21 AM

@robjohn could you post a link please?

user193319

12:12 PM

@TedShifrin Over $\Bbb{Q}$ the only eigenvalue is $0$. Over $\Bbb{C}$, we also have $\pm i$

Rithaniel

12:28 PM

Anyone know of any rings $R$ with uncountably many primes all of the form $nu$, $n\in\mathbb{Z}$ and $u\in U(R)$? You'd need uncountably many units, clearly, but I don't know a good example of this offhand

Mike Miller

12:44 PM

Power series ring over Z in uncountably many variables? Each p(1+x_i) is prime

robjohn

12:57 PM

@skullpatrol there

skullpatrol

1:13 PM

thanks

RewCie

Hey

skullpatrol

yo

RewCie

I'm reading An Introduction to Systems Programming, by Leland Beck

It's pretty difficult book

struck in first chapter itself

SIC/SE Model Machines are very hard tho!

robjohn

@skullpatrol was that what you wanted? or did you want a specific link?

skullpatrol

@RewCie ask here

RewCie

1:21 PM

@skullpatrol Thanks Pal. Helpful!

skullpatrol

@robjohn I thought the webinar was on YouTube

RewCie

I 💚 JAVA!

skullpatrol

@RewCie you'll have to wait for professor Buffy

robjohn

@skullpatrol Ah, you wanted the link to the webinar...

RewCie

@skullpatrol Which room? here or The Classroom?

skullpatrol

1:27 PM

@RewCie yes

RewCie

Oh I see him

@skullpatrol Should I tag him?

or wait?

skullpatrol

tag

RewCie

@robjohn Your cat ran across the keyboard

skullpatrol

@robjohn yes! Thank you, sir :-)

RewCie

Yesterday I mistakenly uninstalled NetworkManager and wpasupplicant from Debian Buster...

Had to reinstall everything

4 hours wasted!

skullpatrol

1:29 PM

:-/

RewCie

💔

Rithaniel

@MikeMiller Danke schön. That's a good one.

Whenever I think about this stuff, I start wondering if what I'm looking at is isomorphic to anything that you'd see in the hyperreals or surreals or anything like that. I'm still super-unfamiliar with anything in nonstandard analysis

RewCie

Sir is online now

Mike Miller

@Rithaniel I never do the nonstandard stuff

Rithaniel

Yeah, I don't think anybody does, at least officially

But, that's the crux of the wondering. Maybe when we look at this stuff, we're working with something from that field without realizing it

But then again, it's really just an abstract thought about labels

Leonhard Euler

1:48 PM

hi chat

RewCie

Hi

Rithaniel

Hey Leonhard, check out that one

Leonhard Euler

how can I prove this:

Aaaaa @Rithaniel how you got that

Rithaniel

I unfortunately didn't write down the formula

Leonhard Euler

I shouldn't have told the name of that software

Rithaniel

1:52 PM

But I'll see if I can recreate it

Leonhard Euler

secret came out :P

skullpatrol

Tag professor Buffy with your book recommendation @RewCie

Rithaniel

Why not? I could have easily made my own fractal rendered

Well, maybe not easily, but the information is out there

RewCie

@skullpatrol Oh okay..

Leonhard Euler

I was just joking @Rithaniel

Rithaniel

1:53 PM

Gortcha

Leonhard Euler

this one is z^2+sin(c)

okay could anyone solve my problem?

okay a book arrived today

RewCie

@LeonhardEuler sho us

Leonhard Euler

dickson's history of theory of numbers vol. 1

uh it's bought rather than arrived

here's the cover:

bought that book because of apostol's book

RewCie

Wow! Cover is cool!

Leonhard Euler

apostol's book said:

Note. Every serious student of number theory should become acquainted
with Dickson's three-volume History of the Theory of Numbers [13], and
LeVeque's six-volume Reviews in Number Theory [45]. Dickson's History
gives an encyclopedic account of the entire literature of number theory up
until 1918. LeVeque's volumes reproduce all the reviews in Volumes 1-44 of
Mathematical Reviews (1940-1972) which bear directly on questions commonly regarded as part of number theory. These two valuable collections

2

skullpatrol

2:05 PM

coolio

Leonhard Euler

that " Every serious student of number theory" line caught my attention

yup serious

Serious

serious

60 courses in college... 4 years...

I'm damn nervous!

They have called us on 9th of Dec.

skullpatrol

2:10 PM

@RewCie prof Buffy has answered

RewCie

@skullpatrol I see... He gave a books on OS

skullpatrol

yup

RewCie

@skullpatrol I already had both... I'll later read Minix and Linux Dev ones...

Leonhard Euler

60 courses =4 years
1 year=15 courses
1 course$\approx$24 days
that was my speed of learning calc 1

Okay that book looks fine

any serious number theory student here?

RewCie

@LeonhardEuler Yep. Sed. One course = 4 books (atleast), one book 1200 pages :-(

During my JEE time, I used to read hardcore mathematical books, around 120-125 pages a day with 300+ problems a day!

skullpatrol

2:14 PM

@RewCie ok

Leonhard Euler

$\sqrt{-1}\,8\,\sum\,\pi$

decipher this...

RewCie

@LeonhardEuler I ate some pie....

Leonhard Euler

yes

RewCie

Xenioux!

Leonhard Euler

if an odd perfect number exists, it must be of the form 12k+1 or 36k+9

proof?

RewCie

2:22 PM

Proof has been left as an exercise for the reader

2

Leonhard Euler

I can find one but the main problem is that mathematical associations require login (which requires institution name) but I am an independent researcher

The proof is trivial, easy to see, a corollary of Theorem 1, and left as an exercise to the reader.
The thing to be proved: RH
Theorem 1: 2+2=4

the truth of all books

RewCie

@LeonhardEuler I'm glad Euler is not alive today here in this chatroom...

Leonhard Euler

I am Euler

I am alive

Rithaniel

Nah, the big Euler

RewCie

@LeonhardEuler Check page 51, theorem 3.3.2 for the proof

Leonhard Euler

2:29 PM

Not big Euler, not small Euler, I am just Euler

the same Euler who liked to prove everything

Ah don't say that it kills me

RewCie

Euler is pronounced as /'oI'lr/

Leonhard Euler

@skullpatrol ty

RewCie

Note that the first one is Capital I and second one is small l

font! damn font!

skullpatrol

@LeonhardEuler np, pal

Leonhard Euler

I am neither called Wheeler nor Youler; I am eeler

eel (fish)+er

Leonhard fisher

so I am fisher

Leonhard fisher

RewCie

2:33 PM

You seem to be a lot of things at once.

skullpatrol

^

Leonhard Euler

I am perfect, I am prime, I am even

I am better than that little boy Gauss who solved 1+...+100 and thought that he was a superhero

RewCie

I think Apostol was not talking about this serious student...

skullpatrol

lol

Leonhard Euler

I am better than fermat, who had to make an excuse because he couldn't prove a simple theorem

I am better than pythagoras; he did nothing

I am supreme

What I am is the opposite of all this

skullpatrol

2:37 PM

ok ok calm down pal

:-)

Leonhard Euler

okay

skullpatrol

start reading your new book!

Leonhard Euler

Okay now let me discuss actual math

@skullpatrol I have some questions so I will probably stay here till I get the answers

RewCie

Here's the proof to your theorem

10 mins ago, by RewCie

@LeonhardEuler Check page 51, theorem 3.3.2 for the proof

Leonhard Euler

There are more

does anyone know the reason why maximums of prime gaps occur at multiples at 6?

This math is beyond the era of Euler

RewCie

2:41 PM

@skullpatrol Okay pal, I'll have to go.... reading :-)

Bye everyone :-)

Leonhard Euler

bye

skullpatrol

cya

:-)

Leonhard Euler

@skullpatrol following your advice, I too am going

skullpatrol

later, pal

Sayan Chattopadhyay

4:08 PM

Why does the multiplicity of a holomorphic map not depend on the charts on that point of the riemann surface.

Thorgott

multiplicity as in least non-vanishing coefficient of a taylor expansion in coordinates?

user193319

4:23 PM

If $M$ is a simple $R$-module, why does $J(R)$, the Jacobson radical, act trivially on $M$? Clearly $J(R)M$ is a submodule, but why can't it be that $J(R)M = M$?

Thorgott

what's your definition of the Jacobson radical

Sayan Chattopadhyay

@Thorgott It's the order of the zero when I write the taylor expansion in coordinates

So if you have $f : C \to \Sigma$, where $\Sigma$ is the Riemann sphere, the you have given coordinates on $C$ centered at $p$, $f = a_nz^n + O(z^n+1)$ , this $n$ is said to be the multiplicity. So locally any holomorphic $f$ looks like $z \to z^n$

Thorgott

If you know that such a map will look like $z\mapsto z^n$ in suitably chosen charts, then coordinate-independence is clear, cause it can't look like $z\mapsto z^n$ and $z\mapsto z^m$ for $n\neq m$ simultaneously

but you can also see this directly: a change of centered coordinate charts is a biholomorphic map mapping zero to zero, so looks like $\sum_{n\ge1}a_nz^n$ with $a_1\neq0$, so if you plug that power series into the other power series, the lowest non-zero term (which is the order of the zero) won't change

123

Hi All..

user193319

4:39 PM

@Thorgott J(R) equals the intersection of all maximal right ideals of the ring

Sayan Chattopadhyay

Right! Nice

user193319

Or r is in J(R) if 1-rx is invertible for every x.

Perhaps we can show it is contained in the annihilator ideal.....

Thorgott

every simple right $R$-module has the form $R/\mathfrak{m}$ for some maximal right ideal $\mathfrak{m}$

user193319

Oh, so that's pretty much the proof. I have to check if that theorem is in my book.

Actually, maybe it is easy to prove.

user2103480

For the physical interpretation of a holomorphic function (satisfying cauchy-riemann) as a fluid flow: do I understand correctly that the real part describes how much the fluid is "dragged" into a point, in such a way that the the fluid flows into the direction of steepest ascent of the real part (the gradient), satisfying the laplace equation, so that what flows out is equal to what flows in

And that the imaginary part gives the amount of fluid that flows through a streamline, meaning the line that we get when we follow the gradient of the real part

physics wikipedia really doesn't satisfy me as much as maths wikipedia, meh

Mike Miller

4:47 PM

@user2103480 I'm not thinking very hard about this but let me rephrase CR in a useful way

A holomorphic function is a vector field <u, v> so that the two "reflected vector fields" <v, u> and <u, -v> are irrotational

So your job is to understand the reflected vector fields in terms of the first

feynhat

Let $f : M \to N$ be a smooth map and $p\in N$ be a regular value of $f$. Then is there a relation between $\text{PD}_M(f^{-1}(p))$ and $f^*(\text{PD}_N(p))$.

user2103480

irrotational does mean what exactly intuitively? I know it means that the curl is zero, but that's just the formalisation

feynhat

Obviously, $M$, $N$ are compact and orientable.

Mike Miller

@user2103480 Bro draw a picture

What's different about <x,y> or <x,-y> from <-y, x>

(Or appeal to Green's theorem)

Irrotational means the line integral along every tiny loop is zero

AKA the vector field does not rotate around any point

Thorgott

whats PD

feynhat

5:02 PM

Poincare dual. If S is a k-submanifold of M. PD_M(S) is the unique (n-k)-form $\eta$ such that for any $\omega \in H^{k}(M)$, $\int_S \omega|_S = \int_M \omega \wedge \eta$.

(such a thing exists because Poincare duality)

*unique upto cohomology

Mike Miller

Bruh

This guy writes $PD_N(p)$ instead of `pairing with the fundamental class'

Same thing

One lives in homology and the other is cohomology but in top degree universal coefficients canonically identifies them

So whatever

user2103480

@MikeMiller there are enough pictures on wiki; I'm pretty dense when it comes to diff geo and most things related to differential forms. Same holds for complex analysis, for probably very similar reasons. That's why I asked for someone to weigh in on my above interpretation

Mike Miller

Yeah but I didn't want to think about it

Just gave you what I have

user2103480

fair fair

Mike Miller

@feynhat These are probably equal

I think I'd need more time than I have right now to prove it from first principles.

Maybe look in Bredon, but I can't promise it's in there

It's definitely true and the proof is "clear to me" but chasing through details seems to be a serious headache

feynhat

5:23 PM

Does it involve some heavy result?

Mike Miller

I dunno what a heavy result is

It should reduce to knowing that cup product is poincare dual to intersection product

and knowing how to make sense of intersection product of homology classes

Probably everything is more easily phrased in terms of a slant product or something but I never think about that stuff

And that fact comes from Thom iso in the end

user193319

What exactly does "pullback of a module" mean in the following: "Since the Jacobson radical
acts by zero on an irreducible module we see that any irreducible $U_n(\Bbb{C})$−module
is a pullback of irreducible $\Bbb{C} \oplus ... \oplus \Bbb{C}$−module."

Note: $U_n(\Bbb{C})$ is the ring of all $n \times n$ upper triangular matrices over $\Bbb{C}$.

And we are considering an irreducible (simple) module over $U_n(\Bbb{C})$. I am trying to show they are all 1 dimensional.

EM4

Contour integral of tan(z) , C = |z| = $\frac{3\pi}{4}$

would the poles be pi/2 and -pi/2

then use cauchy or what?

robjohn

around the circle $|z|=\frac{3\pi}4$?

What are the residues of $\tan(z)$ at $\pm\frac\pi2$?

Thorgott

5:38 PM

@user193319 it's saying the same thing as what Lukas told you a couple days ago: a simple $R$-module is the same thing as a simple $R/J(R)$-module

feynhat

I don't even know what is homology. I am doing forms and integration.

Thorgott

$U_n(\mathbb{C})/J(U_n(\mathbb{C}))\cong\mathbb{C}\oplus\cdots\oplus\mathbb{C}$

pullbacks just restriction of scalars, ig

Mike Miller

Fine, then prove it using forms and integration

EM4

@robjohn , yes around $|z|=\frac{3\pi}4$.

Ted Shifrin

6:20 PM

@feynhat: If $N$ is $n$-dimensional, take an $n$ form supported in a neighborhood of $p$ (with nonzero integral, of course) over which $f$ looks like a local product. It will boil down to Fubini.

Ted Shifrin

6:30 PM

(My English sentence structure in that last penultimate sentence is just awful. But I think it's clear what I meant.)

Karim Mansour

7:33 PM

Raghvan Narasimhan YVES complex analysis

is a beautiful book

Khallil

8:17 PM

Does anybody know a decent resource to read about directional (Frechet) derivatives of maps like $f \colon x \mapsto Ax$ where we use coordinates instead of doing things generally?

Ted Shifrin

Why would you use coordinates?

Khallil

Maybe I worded my question poorly

I found a question on main and it confused me a lot

0

Q: Jacobian of trace of matrix product

I would like to compute the following Jacobian with respect to $x$: $$\frac{\partial trace[A(x)A(x)^{T}]}{\partial x}$$ where $A(x) \in \mathbb{R}^{n\times m}$, $x \in \mathbb{R}^{m\times 1}$. The result should be a vector in $\mathbb{R}^{m\times 1}$. So far I have something like: $$\frac{\partia...

linear-algebra derivatives partial-derivative

Ted Shifrin

8:32 PM

First of all, you wrote $Ax$, not $A(x)$. Totally different animals.

Khallil

Ah yea I was hoping reading up on $Ax$ would give me an idea on how to tackle $A(x)$

Ted Shifrin

I would approach that problem by differentiating the matrix function $f(A) = \text{tr}(AA^\top)$ . And I would do that with the chain rule.

No. $Ax$ is a simple linear function. The derivative of a linear function is itself.

Thorgott

how, in general, does one determine if an $n$-manifold without boundary is the boundary of an $(n+1)$-manifold with boundary

Ted Shifrin

Ah, cobordism groups.

I'm sure @MikeM can give you a nice lecture on this. It's a beautiful topic.

Take a look at Hirzebruch's Topological Methods in Algebraic Geometry. This might also be in Milnor's Characteristic Classes.

user193319

0

Q: Applying Pompeiu formula for large disc R

Let $g(z)$ be a continuously differentiable function on the complex plane that is zero outside of som compact set. Show that $$g(x)=-\frac{1}{\pi}\iint_\mathbb{C}\frac{\partial g}{\partial \overline{z}}\frac{1}{z-w}dx\,dy,\quad w\in \mathbb{C}.$$ Remark. If we integrate this formally by parts...

complex-analysis

Thorgott

8:40 PM

ah, this is cobordism theory, I see

I just read that every closed 7-manifold is the boundary of an 8-manifold and this seems really surprising to me

Ted Shifrin

I guess the easiest example, if I remember right, is that $\Bbb CP^2$ cannot be a boundary. Characteristic classes tell you that. Or I misremember.

Joe Shmo

Mumford writes in Curves and their Jacobians: “[Algebraic geometry] seems to have acquired
the reputation of being esoteric, exclusive, and very abstract, with adherents who are secretly
plotting to take over all the rest of mathematics. In one respect this last point is accurate.”

cute. Does anybody know what he meant?

Ted Shifrin

LOL, not exactly. Of course, he ultimately switched to applied math stuff.

Joe Shmo

bummer, I thought there was an exciting conspiracy

Ted Shifrin

If someone explained it to me, I would probably say, "Oh," but I don't know off-hand. Maybe the Grothendieck-Bourbaki school ... I dunno.

Khallil

8:48 PM

Oh yea the trace is linear so $\text{d}(\text{tr} \circ f)(x)v = \left( \text{d}\text{tr}(f(x)) \circ \text{d}f(x) \right)v$

Ted Shifrin

Right, @Khallil. Now what's the derivative of $AA^\top$? Best way is to compute $d(AA^\top)(B)$.

Thorgott

is RP^2 a boundary?

Ted Shifrin

Hmm, non-orientable.

I've forgotten the non-oriented cobordism groups.

Oh, duh. $\Bbb CP^2$ cannot be a boundary because it has $p_1\ne 0$.

Khallil

Is there a neat way to write out $\text{d}(AA^{\top})(B) = AB^{\top} + BA^{\top}$, @TedShifrin ?

(I imagine commutators might come into a nice expression but not sure)

Ted Shifrin

Just write the directional derivative as a limit definition ... piece of cake.

Khallil

8:56 PM

Oh sorry I meant re-writing $AB^{\top} + BA^{\top}$ in a neater way

(already worked it out with the directional derivative defn)

Thorgott

I don't even know: is the Möbius strip a boundary?

Ted Shifrin

It has boundary (or is non-compact).

No, no nicer way to write it, @Khallil, but when you use tr you can play a little.

Shaun

Hi all. Things are looking bad for my PhD. In less than a week, I might be moved down to the Master's degree. (I've struggled with my mental health these last few years, so my life has not been conducive to studying.) I feel like a failure and I don't think I'll ever get on to another PhD programme.

Ted Shifrin

I think Stiefel-Whitney class will tell us that $\Bbb RP^2$ cannot be a boundary and actually generates the non-orientable cobordism group in dimension 2.

The question, Shaun, ultimately is, might you be happier and healthier not trying for the Ph.D. For a lot of people, I know the answer turned out to be yes.

OK, it's late for lunch for this bonzo. Back later.

Khallil

Thanks for the help as always, @TedShifrin

Enjoy your lunch <3

Shaun

9:05 PM

Maybe, @TedShifrin. I don't know. I'd like to be an academic, so, as far as I'm aware, a PhD is required. I enjoy studying. I don't think I'd be happy if I just tried the once.

Enjoy your lunch!

user2103480

9:18 PM

@AlessandroCodenotti I just spent more than an hour trying to prove that a strongly continuous semigroup is continuous in the operator-norm just to learn that its false in general

I thought that the strong operator topology is just the usual norm topology

whack

Alessandro Codenotti

@user2103480 Wait isn't it?

Anyway the thing you wanted to prove should be equivalent to being a uniformly continuous semigroup

user2103480

Strong operator topology

In functional analysis, a branch of mathematics, the strong operator topology, often abbreviated SOT, is the locally convex topology on the set of bounded operators on a Hilbert space H induced by the seminorms of the form T ↦ ‖ T x ‖ {\displaystyle T\mapsto \|Tx\|} , as x varies in H. Equivalently, it is the coarsest topology such that, for each fixed x in H, the evaluation map ( T , x ) ↦ T x {\displaystyle (T,x)\mapsto...

The SOT is stronger than the weak operator topology and weaker than the norm topology.

@AlessandroCodenotti yeah which implies that the domain of the generator is the whole space, I've since learned

Alessandro Codenotti

Ah ok

But then the uniformly continuous thing should be equivalent to continuity wrt the norm topology I think? Maybe I'm getting confused

Hi @Balarka

user2103480

@AlessandroCodenotti yes yes this is the case I think

Alessandro Codenotti

9:33 PM

unif. cont. implies continuous wrt the norm topology pretty much by definition

Ted Shifrin

Howdy, confused demonic @Alessandro.

Alessandro Codenotti

I guess the question is whether there are semigroups that are continuous wrt the strong operator topology but not the norm one then

hi @Ted, analysis often has that effect on me

Ted Shifrin

Logic always has it on me.

Alessandro Codenotti

I don't do much logic either, it's too dry

Ted Shifrin

Wait. You've forsaken?

Alessandro Codenotti

9:36 PM

I think I use logic in a much stricter sense than you do, I consider it as a different thing compared to set theory or model theory

Ted Shifrin

Oh. I really liked model theory when I took my one grad logic course.

Balarka Sen

Hi everyone

Alessandro Codenotti

Model theory is very neat

Ted Shifrin

You are picky as I am when people refer to everything with a manifold in it as differential geometry. It is utter balderdash.

Heya a @Balarka!

Alessandro Codenotti

The things I'm working on for my PhD are a very interesting mix of topological dynamics, descriptive set theory and model theory

user2103480

9:38 PM

@AlessandroCodenotti grrrrr

Ted Shifrin

Balarka: You can talk to Thor about cobordism :)

Balarka Sen

Was there a question unanswered

I know very little about cobordisms

Alessandro Codenotti

I attended a couple of interesting seminars on hyperbolic groups earlier this week, Balarka

Ted Shifrin

Balarka: What's the one-line proof that if $w_2\ne 0$, then a surface cannot be a boundary?

user2103480

waves angrily with his arms and mumbles something about modal logic formalizing theological arguments

Ted Shifrin

9:39 PM

I am like Hippa's meme. I've forgotten everything.

Balarka Sen

Double the 3-manifold it's the boundary of, I think.

Ted Shifrin

How does that show $w_2=0$? You know that it's just $2$-torsion to start with.

Balarka Sen

Suppose $S = \partial M$. Consider $M \cup_{\partial M} M$. This is a closed $3$-manifold, so has $0$ Euler characteristic modulo $2$. That means $2\chi(M) - \chi(S) = 0$ modulo $2$... so $\chi(S) = 0$ modulo 2.

Ted Shifrin

Oh, I see. Very cool.

Balarka Sen

@AlessandroCodenotti Nice. What seminars?

Ted Shifrin

9:43 PM

I remembered about Pontryagin numbers for oriented cobordism, but I don't remember those proofs either.

Balarka Sen

@TedShifrin I suppose if $W$ is a cobordism between $M$ and $N$, then the tangent bundle on $W$ restricts to $TM \oplus \varepsilon$ and $TN \oplus \varepsilon$ on the two boundary components $M$ and $N$ of $W$ respectively. So by naturality and stability of characteristic classes, $TM$ and $TN$ must have the same char classes.

Characteristic numbers, rather.

Ted Shifrin

Right, I get it.

Balarka Sen

I wish I knew how the various converse of such theorems are proved

Thom's theorem(s)

Ted Shifrin

I guess if $M$ bounds $X$, then Stokes's Theorem says that any Pontryagin number of $M$ has to vanish (because of your argument on restricting the tangent bundle of $X$).

I was reviewing that a little. It's all classifying space stuff you love.

Balarka Sen

That makes sense

Ted Shifrin

9:48 PM

Hirzebruch gives a two-sentence summary.

Thorgott

@TedShifrin what's the issue with being non-compact

Ted Shifrin

We only do cobordism in the compact setting, @Thor. How could a Möbius strip be a boundary?

Boundaries of manifolds with boundary have no boundary.

Thorgott

for all I know (read: nothing), the Möbius strip could be the boundary of a non-compact manifold

open Möbius strip, that is

Balarka Sen

Take cone on the open Mobius strip, and throw away the vertex?

Anything is a boundary if you allow noncompact crap

Take cone on it and throw away the vertex

Ted Shifrin

Right. Balarka beat me to the punch.

Balarka Sen

9:52 PM

I guess taking cone and throwing away vertex is really my idiosyncratic way of saying $M \times [0, \infty)$

Ted Shifrin

@Balarka:

Balarka Sen

Oh thanks! That looks surprisingly readable. Maybe I can try to fill in the details

Thorgott

right...

Alessandro Codenotti

@BalarkaSen Here in Muenster. First one was about the classification of different types of actions an hyperbolic group can have, the latter was about showing that every hypernolic group admits an affine isometric action on $\ell^p$ for some $p$

Thorgott

so I guess restricting to boundaries of compacta is the only sensible thing

Balarka Sen

9:55 PM

@Alessandro Ah ok interesting

Ted Shifrin

@Thor: Yup, but good to think that through!

And Balarka's proof that $\Bbb RP^2$ cannot be a boundary is elementary (Euler characteristic argument).

Balarka Sen

Yeah. I remember being very surprised that $\Bbb{RP}^2 \# \Bbb{RP}^2$ is nonetheless boundary of something.

Ted Shifrin

Mike would know in a millisecond.