Mathematics - 2020-12-04 (page 1 of 2)

Joe Shmo

12:23 AM

@user2103480 oh I thought you were a probabilist for a moment

copper.hat

@geocalc33 why not? just the matrix of the transforms of the individual elements.

user2103480

@JoeShmo well, I'm still a master's student, so technically I'm nothing of that professionally - but probabilist was essentially right, since I'm mostly doing probability theory at the moment (and what's necessary to do it, like a bit of fourier analysis, pde and such)

user2103480

12:57 AM

lmao my lecturer's handwriting is so good, automatic latex copying software can read it

Joe Shmo

nice

Edward Evans

@user2103480 more acurate description is nerd

user2103480

@EdwardEvans says the one in the math chat at 2am

wait

Edward Evans

wait

user2103480

damn

Edward Evans

1:06 AM

can't sleep so I'm listening to my own shitty midi music

user2103480

uhh like separate tones?

what do you mean by that

video game style?

Edward Evans

you know guitar pro?

Mike Miller

Hi @SayanChattopadhyay, not much, nearing the end of the semester.

user2103480

@EdwardEvans I have now searched for the stuff on youtube and am horrified

youtube.com/watch?v=ZY6h3pKqYI0 bruh

Edward Evans

wtf

user2103480

1:09 AM

eerie

Edward Evans

I cannot make out the lyrics

user2103480

tfw you wake up in an abandoned 18th century house and you hear this playing in the next room

Edward Evans

rofl

what's with the sudden nerd influx

Thorgott

tfw 2am and still TeXing

Edward Evans

In the Hall of the Mountain King - Edvard Grieg | Impossible Piano Remix | Black MIDI @Sir Spork

►

user2103480

1:11 AM

@EdwardEvans listen to it again, after hearing the original at like 1:30

it'll get even more creepy

Edward Evans

jetzt neu 28 black hanf

listening again

user2103480

want to listen to some way better music, very original from germany?

Edward Evans

if it's david hasselhoff then no

user2103480

it's something I'd call "eastern german hardbass"

at least the second part of it

Edward Evans

jesus christ I can hear the lyrics

@user2103480 as in, Kalkbrenner style?

user2103480

1:16 AM

youtube.com/watch?v=iUk4iqbjENs&t=1s enjoy

@EdwardEvans no, like in russian hardbass style

from 8:48

Edward Evans

standard Alpha Industries shirt

makes me wanna bomb a gram and chew my cheeks out

user2103480

yeh. the whole video lol

user193319

Let $M$ be a module over a PID $R$ such that $M_{(p)} \neq 0$ or infinitely many primes $p$. Show that $M$ is not f.g. Proof: If $M$ is finitely generated, then $M = M_t \oplus F$, where $M_t$ is the torsion part and $F$ is free. Since $M$ is finitely generated, $M_t$ is finitely generated (this is b/c we're working in a PID). Then $M_t = \oplus_{p} M_{(p)}$, where the summation is over finitely many primes $p$ for which $M_{(p)} := \{m \mid \exists \mbox{ s.t. } p^n m = 0 \}$.

user2103480

let's see when berlin clubs open again haha

user193319

Question: Is there anything else to prove?

Edward Evans

1:18 AM

We have Ausgangssperre in Mannheim

10pm - 5am

user2103480

That's harsh. Gonna be like that most of the winter I'd assume

Edward Evans

bleh

user2103480

numbers aren't going down for some reason

user193319

Hmm...I feel like there should be more to prove...but I don't see it...

Edward Evans

Reichsbürger obviously

user2103480

1:19 AM

definitely not helping

Edward Evans

lol this is cool

Lukas Heger

@user193319 won't $M=R$ have $M_{(p)}=R_{(p)} \neq 0$ for all primes $p$?

wait, so $M_{(p)}$ is not the localization?

that's nonstandard notation I think

$M[p^\infty]$ is more standard I think

Edward Evans

$M_t := \varnothing$ should become standard notation

Lukas Heger

wat

Edward Evans

The M T set

weeeeyyy

Lukas Heger

1:23 AM

...

Edward Evans

hahahaha

I keep proving stuff for p-adic Hodge theory by just smashing tensor products together but I don't feel like I'm getting any feel for why stuff is happening

I'm just formally tensorplaying

I mean, I got $\mathcal{O}_{\widehat{K^{ur}}} \otimes_{\mathcal{O}_K} T^G \cong T$ for $T$ a f.g. $p^n$-torsion $\mathcal{O}_{\widehat{K^{ur}}}$-module and then extended that to all $T$ by STFGMPID but I don't feel like I actually know what's going on, I just algebra'd

just expects Lukas to remember wtf I'm talking about

geocalc33

what is $\mathcal{O}_{\widehat{K^{ur}}}$

Edward Evans

the integers of the completion of the maximal unramified extension of a local field K

geocalc33

1:50 AM

I don't know much about tensor products

user193319

@LukasHeger No, it is defined as $M_{(p)} := \{m \mid \exists \mbox{ s.t. } p^n m = 0 \}$.

Does the proof seem correct? Something about it seems off.

Lukas Heger

@user193319 I see nothing wrong but I guess you could be more explicit about why there are only finitely many primes for which $M_{(p)} \neq 0$

user193319

@LukasHeger Okay. Thanks! For that part I was just citing theorem, but I'll definitely go back to the proof to see why that's the case.

Lukas Heger

you can reduce to the case of a cyclic torsion module since $M \to M_{(p)}$ plays nicely with direct sums

user193319

2:34 AM

If $M$ is a f.g. torsion module over a PID such that there exists $m \in M$ with $ann(m) = (r)$, where $r = order(M)$, what exactly is $order(M)$? Is it that element that annihilates everything in $M$? I.e., $rM = 0$?

AfronPie

Been working on this problem for a couple of hours. Any hints would be appreciated.

I tried to use law of cosines/sines to write a system of equations but it's not working so well.

Ted Shifrin

3:08 AM

Did you try law of sines? I have not even drawn a picture, but it seems more promising.

AfronPie

I did but am not getting anywhere

Leonhard Euler

@EdwardEvans thank you very much for this gift.

I loved it. Truly loved it :)

AfronPie

Anyone can help me with my problem?

AfronPie

3:29 AM

@TedShifrin Sorry to badger you, but just wondering if you drew it or thought of how to do it.

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 $order(M)$?

Ted Shifrin

4:39 AM

@AfronPie Did you try following my hunch? Work on it. It is exactly right.

One last hint: You have two triangles with a common side.

Leonhard Euler

zeta(x) and pi(x)

delicious!

EM4

4:58 AM

what book is this from @LeonhardEuler

Hello @TedShifrin

Leonhard Euler

@EM4 titchmarsh's theory of the Riemann zeta function

really good book

but sometimes his reasoning is hard to understand

EM4

I am not ready for that book.

Leonhard Euler

@EM4 why?

EM4

what you believe the preq to study for that book.

Leonhard Euler

analytic NT, complex and real analysis

EM4

5:00 AM

what is NT?

I am taking complex right now.

Real next semester.

Leonhard Euler

NT=number theory

EM4

ohhhh

not ready for yet it, just yet.

I have this little problem in AA.

is driving me nuts. LOL

Leonhard Euler

ah, I know only a few (two or three) people who are interested in analytic NT

Ted Shifrin

Howdy, EM4

EM4

I would learn it until i can't do any more STEM.

How are you Ted?

Ted Shifrin

5:07 AM

Still kicking, and what are you up to?

Leonhard Euler

here are more:

this is what I call "attractive math"

lool

EM4

you are crazy (in a good way) my friend @LeonhardEuler.

Leonhard Euler

ask titchmarsh to prove RH and he will promptly do it

EM4

I am dying @TedShifrin

Ted Shifrin

I sorta warned you, EM4

Leonhard Euler

5:10 AM

@EM4 why am I crazy?

just wanted to know why you called me crazy

EM4

crazy in good way....this is cool math and you find it attractive.

Leonhard Euler

want more?

EM4

you did warned me, is my mistake that professor is nuts in teaching.

please do :)

Ted, I have Abstract problem...which is driving nuts.

Ted Shifrin

What is it?

Leonhard Euler

he literally gave 7 proofs of this

seven

EM4

5:14 AM

number 8.

I know those two cycles are disjoint.

is it better to make those cycles into permutations and do the product?

feynhat

@SayanChattopadhyay w h a t.

Ted Shifrin

I don’t know what they want, EM4.

feynhat

There's no way any of those are core courses (except probably Riemannian geometry). They all look like electives. Why are there 7 electives in one semester?!?

Ted Shifrin

You can write the formula telling where each number goes.

feynhat

That's insane.

Ted Shifrin

5:18 AM

He's not doing them all, feynhat.

feynhat

@SayanChattopadhyay Katz's book is supposed to be elementary. He doesn't even assume knowledge of manifolds and bundles.

EM4

that was I thinking about.

Ted Shifrin

Just give the mapping element by element. I find this exercise silly.

Ordinarily we aim for a product of disjoint cycles and say we're done.

EM4

yes

i find this problem waste of time.

Ted Shifrin

5:34 AM

Agreed.

But you could write the answer in 30 seconds and we’ve wasted 10 minutes.

EM4

yes! I did by turning into permutation and do it that way.

which took seconds to do.

Ted Shifrin

OK, move on.

EM4

yes, sir!

what you think about Laurent Series?

Leonhard Euler

0

Q: A special constant arising from upper bounds for the $n$th prime number with a conjectured value of $\frac{3}{\log 4}$

It is well known that $$p_n>n\log n$$ for all positive integers $n$. I wanted to flip this inequality: i.e., I wanted the inequality $$p_n<A\,n\log n\quad\forall n\ge2$$ where $A$ is some constant. I wanted $A$ to be as small as possible. I don't think much is known about this constant. According...

prime-numbers upper-bounds

Related to my last question on MSE

Ted Shifrin

5:50 AM

I like Laurent series.

Leonhard Euler

I too like Laurent series because I like series

Sayan Chattopadhyay

@feynhat Yeah man, the have something called an overload semester. It has 6 courses anyway, compounded with the fact that I want to if possible do my thesis outside the institute, so I also have to try to either shift the courses from my last year to this semester, or shift them to the last semester of my degree. I am contemplating which one to go with

EM4

Laurent Series is making me to like series Haha.

Sayan Chattopadhyay

Because if my thesis extends a little, I would not be able to finish the degree in time because of a not finishing the credit requirements. And all the six courses are electives and I have anyway finished the number of humanities electives that I had to take. So it's all math

Leonhard Euler

love series. love products. love special integrals. love special functions. love analysis.

the key to a good life

EM4

5:56 AM

what classes you taking @SayanChattopadhyay

this correct @LeonhardEuler

Leonhard Euler

okay let me do smth that I do here daily

Arief Anbiya

6:27 AM

Example of induction that cannot work: youtu.be/CEUSRxvsrS8

Leonhard Euler

6:39 AM

how can I prove that $$p_n<\frac{3}{\log 4}n\log n\quad\forall n\ge2?$$

$p_n$ being the $n$th prime?

please help this is very important

any idea?

copper.hat

why is it very important?

Leonhard Euler

@copper.hat this helps me in deriving a theorem for prime numbers

copper.hat

do you know it is true and are looking for a proof or are you trying to determine if it is true?

Leonhard Euler

it is true

very probably

copper.hat

so you are asking for someone to find a proof for you?

true and very probably are quite different things.

Leonhard Euler

6:46 AM

@copper.hat uhh.. yes

I dunno a proof but it is true

copper.hat

math.stackexchange.com/questions/1270814/bounds-for-n-th-prime might have some direction?

Leonhard Euler

ty

this is what I wanted

but I have an idea

weird idea

use induction

I know what to do

there are many ridiculously hard theorems that were proved using induction

do you know any upper bound for prime gaps?

ah I found smth

but I don't want to assume the RH :(

@copper.hat I have shown that it is true for all n till 17. Now I use the principle of strong induction:

oh sorry it is too long can't mention here.

bye let me do smth. sorry for wasting your time (if I did so)

feynhat

7:22 AM

@SayanChattopadhyay Yikes. That many courses is already too much, but doing them online would perhaps be even more burdensome.

I hope it works out for you.

123

Hi All...

feynhat

7:41 AM

@SayanChattopadhyay Who is teaching EG, btw?

Sayan Chattopadhyay

Alok Maharana, I would have preferred shane or Kapil, but Shane is taking Hom Cohom

Sardar taking GGT is the only incentive I have for GGT

feynhat

Any chance I could get the zoom (or whatever) link for EG?

Sayan Chattopadhyay

The course structure for EG is Kapil's initiative apparently, he designed the course.

@feynhat Sure as soon as I get it, but it would be great if you drop in an email to Alok

feynhat

Sure. I will write to him. When does the course start?

Sayan Chattopadhyay

I think sometime in January

Leonhard Euler

8:04 AM

Just wanted to know

How to write the citations in an article?

copper.hat

it depends on the journal.

Leonhard Euler

So, for example, how would I cite this:

emis.de/journals/JIS/VOL22/Axler/axler17.pdf

123

Why a^0 = e in group theory. If there is no operation we are taking for order, why it is equal to identity???

Leonhard Euler

3

Q: Does an element of a group to the 0th power equal the identity?

My textbook doesn't explain this well at all. I was thinking about how a group follows the axiom that $xx^{-1} = x^{-1}x = 1$, where $x$ is some element of the group, $1$ is the identity and $x^{-1}$ is $x$'s inverse. The book says that the powers of some $x$ work with the binary operation on it...

abstract-algebra

123

@LeonhardEuler Thanks. But it not clear the point $a^0$ means no operation is taking for identity. If there is no operation why we take identity.

Leonhard Euler

8:17 AM

This is an operation

We are still raising it to a power

It's just the same as x^0=1 for a real number x

123

$xx^{-1} = e$ It is an operation. but we can not write it $a^0$ , here $0$ shows no operation take place

what about multiplication?

$0$ shows no operation. because power shows how many times we take operation to get identity.

Leonhard Euler

Ok

I am not much good in algebra

123

@LeonhardEuler Okay No prob frnd.

user193319

12:19 PM

When I am giving a system of equations representing the generators and relations of an abelian group, I have to put it into Smith normal form to get a direct sum description of the abelian group. When I'm putting it into Smith normal form, am I allowed to perform row reductions or am I only allowed to do column operations?

Edward Evans

1:00 PM

Brainfart: If I have a PID $R$ and an f.g. $R$-module $M$ and an extension $S \to R$, is the following a thing

$$M \cong R^r \oplus (R \otimes_S \bigoplus_i R_i) \cong R \otimes_S (R^r \oplus \bigoplus_i R_i)$$

where the $R_i$ are the torsion part of $M$. Basically I'm brainfarting because i've swapped around the tensor product with the direct sum (cuz the CoMmUtE) but for some reason my brain doesn't like it

erm

it doesn't look like a thing

ergh there's information missing

Thorgott

no clue about your specifics, but $A\oplus(B\otimes C)\cong B\otimes(A\oplus C)$ is not what it means for direct sum and tensor product to commute

Edward Evans

yeah

thanks

lmao

I can give slightly more context if ya want

minus arithmetic bullshit

Thorgott

so assume $M$ is torsion-free, then the iso just reads $R^r\cong R\otimes_SR^r$ and surely that's sometimes wrong?

Astyx

hi chat

supinf

Hello Astyx

Edward Evans

1:11 PM

I've proved inductively that an f.g. p^n-torsion R-module $T$ is isomorphic to $R \otimes_S T^G$ where $G$ is a group acting semilinearly on $T$. Now I'm trying to extend this to all $R$-modules via STFGMPID. Then I have

$$T \cong R^r \oplus \bigoplus_i T/(p^i) \cong R^r \oplus \bigoplus_i R \otimes_S (T/(p^i))^G \cong R^r \oplus R \otimes_S \bigoplus_i (T/(p^i))^G$$

woops

err

ffs

Astyx

If I want to prove a formal power series $P\in k[[X]]$ such that $P(0) \ne 0$ is invertible, is it sufficient to say there's a valuation v on k[[X]] such that v(P) = 0 ? It feels too easy

Edward Evans

In the context of $\Bbb Z_p$, your element $(a_n)_{n \in \Bbb N}$ is a unit iff $p\nmid a_0$

now translate that into the language of valuations and replace $\Bbb Z_p$ with your favourite power series ring over a field

I guess

Thorgott

I mean, that sounds reasonable to me modulo details

Edward Evans

Right, now obviously I just pretended that that oplus and otimes could be swapped around because in that case I get what I want lmaooo

Thorgott

@Astyx you can also invert it by hand fwiw

Edward Evans

1:19 PM

note that $k[[X]]\cong \varprojlim k[X]/(X^n)$

Astyx

How do you do it by hand ? It sounds super technical

Thorgott

write down another power series and multiply them out, then equate that to 1

Edward Evans

that's lame

Thorgott

you'll find that if the leading coefficient of the first one is invertible, this determines the coefficients recursively

it's one line of arithmetic, nothing scary

Astyx

Oh yeah that makes sense

Thorgott

1:22 PM

@EdwardEvans what does that tell me about units

Edward Evans

Tbf I'm representating an element as compatible sequences and then hitting it with the relevant valuation and wildly assuming this will work exactly the same as for Z_p

Thorgott

man who cares about Z_p

damn algebraists

Edward Evans

I'm not gonna be offended because I agree

Astyx

How the turns have tabled

Edward Evans

hahaha

The thick plottens

Hmm the $(-)^G$ is zeroth Galois cohomology and the category of those reps is additive (I think abelian but idk) so I can at least change $\bigoplus_i (T/(p^i))^G \rightsquigarrow \left( \bigoplus_i T/(p^i)\right)^G$

err H^0 is additive* lmao

I suck at category theory

Thorgott

1:35 PM

what does that have to do with cohomology

just have the group act component-wise on the sum

and then that's obvious,no?

Edward Evans

idk, in my group we had some problems because G acts semilinearly

but idk I'm lame at this

Thorgott

idek what semilinearly means, that should work for any group action

ok nvm not all

yeah ok youre probably right

Edward Evans

But the fact that (-)^G is H^0 clears that up anyway

ergh this needs details to make any sense, G is a Galois group and the T/p^i are vector spaces over the fixed field of G

I'm gonna just ask in my group lol

err I mean (T/p^i)^G are vector spaces over the fixed field of G lmao

user193319

2:06 PM

Suppose I start with a system of equations representing the relations on generators of an abelian $A$, and then convert this into a matrix. If I find the Smith normal form of it and find that it is $$\begin{pmatrix} 1 & 0 & 0 \\ 0 & 7 & 0 \\ 0 & 0 & 0 \\ \end{pmatrix},$$ does this mean that $A \cong \Bbb{Z}/(1) \oplus \Bbb{Z}/(7) \cong \Bbb{Z}_7$?

...because $(1) = \Bbb{Z}$.

user193319

3:10 PM

I think this is right. Now I asked to find generators $x,y,z$ of $M$ such that $ax=0$, $by=0$, and $bz = 0$, where $a,b,c \in \Bbb{Z}$ are given integers. But I don't think this is possible. If my calculations are right, the above matrix is the Smith normal for the matrix I was given, and so $A$ is indeed isomorphic to $\Bbb{Z}_7$.

Hence, question is equivalent to finding $[x],[y],[z] \in \Bbb{Z}_7$ which generate $\Bbb{Z}_7$ (the notation $[x]$ denotes the equivalence class of $x \in \Bbb{Z}$) satisfying the relations. But if $a=b=1$ and $c=2$, then $c[x]=0$ is equivalent to $0 = 2[z] = [2z] = [2][z]$, which means $\Bbb{Z}_7$ has zero divisors, which is impossible.

Btw the way, the matrix I started with is $$\begin{pmatrix} 2 & 1 & -3 \\ 3 & -2 & -1 \\ 1 & -3 & 2 \\ \end{pmatrix},$$ but I believe the above is the correct normal form of this matrix (I used a Smith normal form calculator to verify my answer).

Does my reasoning sound correct?

user193319

3:48 PM

Suppose $f,g,h \in \Bbb{Q}[x]$ such that $f | gh$ but $f$ doesn't divide $h$. Does it follow that $f | g$?

Edward Evans

@Thorgott all of my above considerations are dumb and the result fell out of the ass of $T \cong \varprojlim T/p^nT$

Thorgott

duh

Edward Evans

if Galois cohomology commutes with limits then I'm done lol

Thorgott

@user193319 ask yourself the same question for integers instead

user193319

@Thorgott Oh, wait, it works for prime elements, so no it doesn't hold in general, right?

That is, if $f$ is prime, then $f | gh$ implies $f | g$ or $f | h$.

Thorgott

3:57 PM

that alone doesn't yet mean it's wrong

come up with counter-examples

Turbo

4:16 PM

Hi

Is anyone there?

I'm doing a very basic geometry problem

I get the answer A which is correct if I assume that ABD and DBC are similar triangles. The trouble is I can't see how they are similar triangles?

Any help would be greatly appreciated

user193319

4:31 PM

Okay, so I have a 4x4 matrix (I know it's entries) and I was able to find its minimal polynomial, which is $x^3 + x$. Is it possible to get the rational canonical form from this much information? I know the minimal polynomial is the largest invariant factor and the others divide it in a "sequential" manner.

Astyx

@Turbo Can you find a relation between the angles ABD, DBC and ABC ? Can you find one between DCB and DBC ?

Turbo

@Astyx Well DBC+DCB=90 degrees and ABD+DBC=ABC?

Astyx

Yes, now what is the angle ABC ?

Turbo

90 degrees

Astyx

So can you find a relation between ABD and ACB ?

Turbo

4:40 PM

I'm trying, but I can't :/

Astyx

Subtract the equations you wrote above

Turbo

DCB-ABD=0

so DCB=ABD

so that's one angle down

Astyx

I claim that that's enough

Turbo

Because they both have 90 degrees angle?

So all three angles are the same?

Astyx

yes

Turbo

4:48 PM

So it has nothing directly to do with the fact that they both share BD?

Astyx

I'm not sure what you mean by that

Turbo

They both share the length BD

but they're different sides of the respective triangles

Astyx

right

Turbo

I was trying to see if I could use that side to show that they were similar but I can't then right?

Astyx

no

Turbo

4:51 PM

So I can?

Astyx

No, I meant you're right, you can't use that side to show this

Turbo

Great, thank you so much!

:)

user193319

The rational canonical form is a direct sum of its companion matrices. The largest invariant factor $x^3+x$ is a 3rd degree polynomial, so the companion matrix is 3x3, which means there can only be one other invariant factor---namely, $1$. Does this seem right? The matrix is a direct sum of $[1]$ and the companion matrix associated to $x^3+x$, right?

There can only be one other invariant factor because the matrix is 4x4.

Is there any flaw in my reasoning?

user193319

5:16 PM

Wait...Isn't the product of all invariant factors equal to the characteristic polynomial? The characteristic polynomial is $x^4 + x^2$, which means that $x$ is also an invariant factor. So, what's the companion matrix of that? I think it's still $[1]$, right?

Thorgott

if $X,Y$ are homotopy-equivalent top spaces, are there points $x_0,y_0$ such that $(X,x_0),(Y,y_0)$ are pointed homotopy-equivalent?

user193319

Oh, wait...maybe the companion matrix of $x$ is $[0]$...Does that seem right?

Alessandro Codenotti

5:57 PM

@Thorgott what does homotopy equivalence mean for pointed spaces exactly?

Thorgott

the same as regular, but basepoint gets fixed throughout

more precisely, pointed homotopy equivalence means you have pointed maps in both directions whose compositions are pointed homotopic to the respective identities. pointed map means preserving basepoint. pointed homotopy between $f,g\colon(X,x_0)\rightarrow(Y,y_0)$ is a map $H\colon X\times I\rightarrow Y$ such that $H(-,0)=f$, $H(,-1)=g$ and $H(x_0,t)=y_0$ for all $t$.

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$Mathematics$ Mathematics