@TedShifrin i.gyazo.com/34a9be0aad5af0d7bb30c9a7b8e1fa36.png 'We only have column operations' Why don't you just do Gauss Jordan's rref then tadaam ?

Yeah, I don't think it was one particular stupid question.,

@Ted This is the proof I'm reading. It's wonderfully organized and easy to follow.

@MikeMiller One more bookmarked page to add to my long list :D

Huh? @Hippa. We haven't yet deduced that we have the same properties with row operations. Our axioms were only column ops. We shall soon, however.

@TedShifrin Then do ccef :D

No, rcef, @Hippa.

Oh wait

That's what you actually do

-_-

Yes, right.

So don't watch that crap.

@Mike: This is stuff I definitely never learned.

Well we've finished stuff on determinants like a week ago so

@Mike: Are you really turning into a topologist?

I'll skip to the end ov the video :D

@TedShifrin This isn't the standard proof, which uses Schoenflies. But I don't like Schoenflies.

@TedShifrin I have no idea what I'm turning into. Whatever discipline I end up doing will have "topology" or "geometry" in the title, and that's all I can say at present.

Well, cool, @Mike. I'm glad.

Glad that I know that I don't know?

Seems like most of the students I've taught the most have all ended up in some flavor of geometry/topology.

@Hippalectryon off-topic : it took me 5 hours to do the prime number theorem on board.

@BalarkaSen on board ?

Starting from where, @Balarka?

@TedShifrin One of the main reasons I was interested in number theory was because of its interplay with geometry. There's a paragraph or so in the introduction of one of Silverman's books that I wasn't able to read about how geometry determines arithmetic - and that paragraph hooked me.

on the board @Hippa

@BalarkaSen What's the prime number th ?

@TedShifrin what d'you mean where?

But the number theory at UCLA is generally not very geometric, and thus, one moves one.

What knowledge do you assume, @Balarka?

@BalarkaSen You've seen Zagier's 4-page proof, right?

@TedShifrin almost pretty much nothing. basic calc.

@MikeMiller hate it. nt doesn't interact at all

If one has to develop complex analysis I can see how it would take that long...

Hmm ... you doing the complex analysis from scratch? Tauberian theorems? What?

That doesn't sound like @Balarka.

@Mike: We need to put @Balarka on ignore for his narrowness.

@TedShifrin i should've said basic complex analysis too.

@hippa, it discusses the asymptotic distribution of primes. If you denote pi(x) as the number of primes less than or equal to x, then pi(x) ~ x/ln(x)

@TedShifrin Pants on fire.

@KajHansen Oh ok

@Kaj: You can use LaTeX and MathJax in here. See the "LATEX in chat" to the right above.

please don't ignore, @TedShifrin @Mike

@TedShifrin I'm not sure why I'm bringing this up, but someone the other day said that $\pi$ was a roughly arbitrary choice of "angle" for the circle. I'm still offended.

Hmmm ... I don't know about offended. I'm not sure I understand, though.

@ted actually, you'd be surprised to hear that basic calc and analysis would do it too.

There is a common ratio $C/d$ ... what is arbitrary?

i don't like the proof, but yet a breakthrough : Erdos and Selberg rules the world!

some Fourier analysis, @Balarka?

@TedShifrin nope.

elementary proof

@TedShifrin Doesn't a change of basis involve a $Q^{-1}AP$ rather than a $P^{-1}AP$ ? Or if not, where is $Q^{-1}AP$ used ?

I guess I don't know that.

@TedShifrin, I suspect it was in a discussion regarding why $e^{i\pi} = -1$ is beautiful. Because it seems that one could just as easily write $e^{i*180^\circ} = -1$.

@TedShifrin The context was an $e^{i\pi}$ question, and they quoted the formula $e^{ix} = \sin x + i\cos x$, and then said that $\pi$ was an essentially arbitrary definition of the angle. But that's so far from true, unless one says it's arbitrary vs. $2\pi$ which would be more natural.

@Hippa: You get $Q$ when you have a linear map $V\to W$. I'm doing only $V\to V$.

@TedShifrin Oh ok

@KajHansen it's beautiful because there is no other such identity in $\Bbb C_{\exp}$, assuming Schanuel.

@KajHansen Counterclaim: it's not beautiful.

It seems like I've lured @Kaj into yet another big time sink :P

Heya @Karl.

@TedShifrin indeed. chat is addictive.

It seems you have. Now I'm reading a wikipedia article regarding Schanuel's conjecture.

Hi @Ted

@KajHansen HAHAHA

LOL, sorry, @Kaj. At least you're no longer ever stuck in my classes :D

@Karl

Why isn't it beautiful @Mike?

@TedShifrin You don't have school because of some snow ? >8O

@TedShifrin Does it look anything like the young Lauren Bacall?

What @DanielFischer said.

@KajHansen wiki is one of the best places for a math diorreah. i had one once upon a long time ago. the symptoms includes babbling a lot of names without knowing the math behind them.

Don't get me started, @hippa ... I grew up in real snow. But, truth be told, I couldn't get out of my driveway or street or neighborhood.

smacks @DanielF

@TedShifrin I forgot to mention : we got extra holidays!

@TedShifrin Ah ok -_-

@BalarkaSen, that is true in a lot of cases. I've actually found it pretty readable for certain algebra topics though.

You told me, @Balarka.

@TedShifrin no, that was only for 7 days. we got extra 10 days.

holy cow (or holy lamb) @Balarka.

holidays after holidays dreamy look

plus, it started raining!

@TedShifrin How do you see determinant at the beginning ? (i didn't watch the 1st video) With the permutations $\sigma$ ?

@TedShifrin Do you mind answering a question about that article?

No, in terms of multilinearity properties, @Hippa, which is what I'll need for differential forms in a bit. I did the permutation formula in the last lecture.

I don't know that stuff, @Mike.

@BalarkaSen All that water wasted .... when i think to all the dolphins so thirsty in the ocean .... :P

@KajHansen i've found it skip most of the important details mostly.

@TedShifrin Well, it's about a specific detail. Will you give it a shot?

Well, maybe. It's almost dinnertime!

Ok, I'd better hurry.

@TedShifrin Oh btw... why are your books so expensive :O

Let $T'$ be the punctured torus. Fact: there is a compact set in $T'$ whose complement is diffeomorphic to $S^1 \times \mathbb R$.

My diff geo book is not expensive, @Hippa. It costs $0 or 0 Euro.

@Hippa a better question would be why his books aren't in blah.

Claim: "This allows us to extend the smooth structure on $T'$ to a smooth structure on $T$."

Question: how does that claim follow?

@TedShifrin I'm missing something trivial again?

Oh, they mean complement in $T$?

No, that wasn't what I meant.

They shouldn't mean complement in $T$, @TedShifrin

@BalarkaSen Generally it's not polite to promote piracy in front of a book's author :P

Thank you @Mike for that.

OK, you're right.

Believe it or not, it's a lot of work to write a good book.

Heya @Kevin

It may be up for debate whether any of mine are any good, but that's a separate issue.

Howdy @Ted Doin well this evening?

Being confuzled by @Mike at the moment.

@TedShifrin You're not serious right :C

@Hippalectryon Publishers often fight very, very hard to get the book prices up.

$180

@TedShifrin Apologies.

That's absurd, @Hippa. I tried making deals with the publishers to keep costs low, and they pretended to agree and then didn't.

Those prices aren't Ted's choice, I can almost guarantee without asking him.

@TedShifrin Aww :c

@TedShifrin If I can't figure it out in the next couple hours, do you think Hatcher would welcome an email?

@TedShifrin Where can I get the diff geo one ? :D

You spend a LOT more than that for some worthless chemistry books. The multivariable book, at least, is a year's text.

(He wrote the article.)

On my webpage, @Hippa. Download it.

@DanielFischer I was wondering, have you heard of a "Cauchy transform"? I'm reading a paper where they call something like $$\tilde f(z) = \frac{1}{2\pi i} \int_{-\infty}^\infty \frac{f(\zeta)}{\zeta - z}\,d\zeta$$ one and say such and such relation follows from "standard properties of the Cauchy transform".

@TedShifrin Don't call them worthless chem books >:o

I dunno, @Mike. Better to post on main first.

You're right.

@AntonioVargas Never even heard it.

@TedShifrin best year ever :D i.gyazo.com/de53cd89a4b34244de4634ba4ca0d1a8.png

@AntonioVargas Yeah I have seen it used before but I've never odne os myself

@AntonioVargas I've seen the term mentioned, but never really encountered it or learned its definition or properties.

@Mike: So maybe the point is that we can smoothly compactify $S^1\times \Bbb R$ (a cylinder) as a paraboloid.

I am getting too addicted by the chat. I think I'll need everyone's opinion about deletion/suspension of my account for sometimes to get rid of this habit.

I need to do a lot more math, I reckon.

Just use will power. Don't do Jasper's deletion crap, @Balarka.

@Hippa: No need for such sarcasm :D

@TedShifrin It's my birth year :D

Ahhh ... of course; that explains it.

@TedShifrin You're right. Keep reminding me about my math everytime I enter chat when you're in it.

(Deleted it; I'm not done writing yet)

Why did you remove @Mike?

Oh

I'll just ignore you, @Balarka. Much more efficient.

@TedShifrin

@TedShifrin Oh, noes. Snif

@DanielFischer Yeah, I'm scratching my head trying to think where I'd find a reference for its properties.

Reminds me of my math course yesterday

@Hippalectryon is this guy some new math meme?

@BalarkaSen Me neither until recently.

or is this an old one Ive missed?

We were reminded that our proofs only work if $1\neq0$ and $2\neq1$

:3

@KevinDriscoll Do you happen to remember where?

@KevinDriscoll Not yet :D

@Hippalectryon But those follow directly from the axioms of Peano arithmetic.

@MikeMiller true

@TedShifrin You've been made object of memes by @Hippa! Enjoy!

can someone take a look at this please, I think I made a mistake, but I don't see where math.stackexchange.com/questions/838963/…

I made jokes about that several times in my diff geo class, @Hippa ... using the fact that $\Bbb R$ is an integral domain.

Um, yes, @Balarka: I'm well, well aware.

@TedShifrin, are you planning to film your geometry course next spring?

Ok I stop

:3

Nope @Kaj ... Not unless you're volunteering.

@Hippalectryon HAHAHA

@Hippa: Peut-être que tu as 13 ans? :D

@TedShifrin So, I think the point has to be that, under the injection $T' \hookrightarrow T$, the copy of $S^1 \times \mathbb R$ plus the deleted point is $D^2$. If that's the case, we can easily smooth it.

@AntonioVargas I think it was in a text on singular integral equations, but I cant remember which (I've read parts of at least 10 in the last year)

@TedShifrin 16 -_-

But I don't see why the deleted point must be a "point at infinity" of the copy of $S^1 \times \mathbb R$. Surely this follows from compactness of its complement.

Right, @Mike: I was thinking geometrically of the paraboloid, but, sure, a disk.

With any luck, your current film guys will end up in that class as well.

Yes, I think that should be precisely the point @Mike.

Um, well, @Kaj, Cameron Z. is planning on auditing, but I don't know about the others.

It's not a good idea for a filmer to be an enrolled student, @Kaj.

@TedShifrin Well if you consider that $1=0$ then $2014-1997<16$, yeah :P

@Kaj: After all this abuse, I'm thinking the filming was a horrrrrid idea.

@Hippalectryon If $1=0$ then $2014-1997=16=0$, so that's false.

Hi guys :-)

@KevinDriscoll Hmm, thanks, adding integral equations to the google search gave me some promising hits

@MikeMiller That's false ... therefore that's true :D

I didn't realize that was @Ted

@Mike: I am confident you'll figure it out. I'll check in later after dinner.

I apologize for your nightmares @Kevin.

@Antonio yeah there is a whole class of so-called 'Cauchy type' integral equations

I can't really wrap my head around it @MikeMiller

@TedShifrin I just did. It's simpler than anything I thought.

Better to think than to bother famous authors @Mike.

Yes :(

@TedShifrin That set is compact, so we can cover it with finitely many charts. We can also put a single smooth chart in a neighborhood of the punctured point. Since we have finitely many of these we can smooth "near the edges" appropriately to make them compatible with the smooth structure on $S^1 \times \mathbb R$.

I have to admit I get annoyed when people send me emails informing me I have mistakes in my book when they are totally NOT mistakes and they're just being sloppy.

Thus giving us a smooth structure on $T$.

You might have a point. The videos are a good compliment to the textbooks though. Having the 3500 videos would make up for the book's price, considering its binding :P

@TedShifrin Well, I wasn't making an accusation of a mistake. I was trying to figure out why I was being stupid.

:P

@KevinDriscoll Awesome, this is pretty much exactly what I was looking for :)

I've bitched more times than you know about the binding, @Kaj. You guys should all write my editor.

@Ted I make it a point to never send e-mails ot people I don't know telling them they're wrong. Seems a good way to get a bad reputation.

I know, @Mike. But, still, you need an all-out concerted effort before you bug Hatcher.

Yes, I agree. I shouldn't have said that.

OK, I'm outta here.

@Hippa: Try not to massacre me too many times.

Me too

@TedShifrin Was what I said sensical?

Well i'm gtg to bed so i'm out too :)

Yeah. I would have just put the differentiable structure on the disk coming from the one on the cylinder, and saved one patch, @Mike.

Thanks, @Hippa, then I'm safe until tomorrow.

Can someone check this combinatorics answer for me plz? math.stackexchange.com/questions/838963/…

@KarlKronenfeld I'm beginning to. It feels like it's worthwhile to wrap my head around.

@Ted You may be pleased ot know that a number of people made to look really dreadful by the memes that carry their faces have parlayed that attention into modest sums of money

away

@Hippalectryon When the person you're poking fun at politely asks you to stop...

Bye Professor @TedShifrin

16 year olds gonna 16 year old....

How dramatic @chris

@skullpatrol Well, if you wanna become the best one, then you need to sacrifice things ...

Yes, up to a point.

@skullpatrol Moreover, to be the best one is a state of mind first. The rest follows soon ...

I wanna be the best one in everything I do. Yeah, that might be dramatic for some.

;)

I was talking about the presentation

Nothing personal pal :-)

@robjohn Yet another 3 downvotes today.

@skullpatrol I know. I was only referring to the effort itself (required) that is simply crazy. :-)

True, hard work means a lot.

Can you please answer my question?

hi pal

hi pal :D

how are you?

Fine thanks. How are you doing?

@Pedro All 3 were me.

good, I'm in finals

busy, busy :-)

@MikeMiller You serious? =D

I find it funny how a rng is like a ring but without the i, the identity element.

@PedroTamaroff I got one, and I know from whom >8(

@Alizter Makes me wonder what an "ing" would be.

@robjohn You do? Pls do tell.

Maybe its the same person.

It was me.

@skullpatrol No, it wasn't, I checked.

@DanielFischer Maybe without a relation defined on the elements?

@skullpatrol Hey, that's my shtick.

Foiled again

@PedroTamaroff I can't say who, but they are from different people.

@robjohn Oh, you know who downvoted me?

>:(

pal but I'm afraid of not aproving an algebra final exam

I am so stupid :(

I got 100 on my algebra final :D

congratulations

@PedroTamaroff all three from the same person. I will bring it up to the Community team. With the previous activity, they might reverse some.

I want to rush off to the meta and propose a system where all votes must be signed. I don't like the idea that someone can express their opinion but not put their name to it. Im just weird like that

@robjohn what is happening?

@Twink Did you take graduate-level algebra

no nabla

did you?

No @Twink

ok

@Twink Rotman is so hard

Yes but there are some things that really help you

but there's nothing about Galois theory there

I wish there was :(

So what does $R(n)$ mean exactly in terms of ring adjunction? Is it related to $R(x)$ with rational functions over a field?

@KevinDriscoll I wouldn't enjoy the retaliation, so I'd probably stop downvoting altogether.

I don't know

I only saw $F(\alpha)$ with $F$ a field

not a ring

in field extensions

but every field is a ring so

maybe it's the same definition

@Twink I've added an answer.

The proof is rather poorly explained, to be honest.

I hope my answer clarifies things.

thanks Pedro I'm gonna read it but I had already accepted Daniel's answer

Not to offend @DanielFischer but you can always change the accepted answer. =P

I insist that Rotman's explanation is kinda bad.

lol

$R(k)$ is adjoining $k$ to the field $R$ but $R(k)$ is also the field of rational functions with indeterminate $k$ over $R$??

let me read it

Great, I'll go and down vote everything ;-)

@AntonioVargas I didnt consider that people would engage in downvote retaliation. I guess I think 2 things about that 1) If something needs ot be downvoted then its worth being downvoted in return; 2) Im fine with kicking people out who just downvote in response to being downvoted

@KevinDriscoll Hah, I disagree with your first point :)

I'm very cavalier about my rep. I'd trade all 400 points for a hot meal.

I don't know @Alizter I had never seen that definition

maybe you should ask the experts

ask @PedroTamaroff for example

@Alizter Well, if one talks about indeterminates one uses $x$ or $X$, i.e. $R(X)$.

At any rate context will always clarify!

@PedroTamaroff, I don't think the conjecture you gave me is true. Consider, for example, an arbitrarily large $n \times n$ matrix such that odd-numbered columns are all $0$ and even-numbered columns are all $1$.

@KevinDriscoll, Pedro almost has enough rep to retire on.

You can find an $m \times m$ submatrix when $m = 2$. For $m>2$, then you'll never find a submatrix with the desired property.

@PedroTamaroff OK thank you!

@KevinDriscoll, Andre Nicolas could fund a small guerrilla army.

Sorry @KajHansen, meant to ping Kevin.

haha, I figured :P

@AntonioVargas WAT.

I did made a promise that when I hit 1000 consecutive days I take a break,.

@KajHansen Yes, you're right.

@PedroTamaroff I'm honestly scared about doing that myself. 601 today.

To whom did you promise?

@skullpatrol Flying spaghetti monster.

He sees you when you're sleeping, he knows when you're awake.

@KajHansen Oh, no no, wait.

I miscommunicated.

The matrix is to be obtained by deleting columns and rows.

Ohh, interesting

OK, I think I have an induction proof in that case. Let me check some cases.