« first day (587 days earlier)      last day (4730 days later) » 
00:00 - 11:0011:00 - 16:0016:00 - 21:0021:00 - 22:0022:00 - 00:00

Asaf Karagila
Asaf Karagila
16:00
Probably.
I am going to do the dishes.
anon
anon
"In fact, three clouds cover the plane if and only if CH is true." Cool.
Ilya
Ilya
@anon CH? Continuum Hypothesis?
Skullpatrol
Skullpatrol
$\Huge \text{Ilya is back!}$
2
anon
anon
naturally
Ilya
Ilya
@anon naturlich?
anon
anon
16:04
au naturel?
Ilya
Ilya
@anon cosmetique?
phew, finished grading exams. There are moment I hate this signal analysis course
anon
anon
can someone do some numerical experiments to verify what the op says in this question?
code: Integrate[Integrate[(ax-by) Exp[-(x+y)] (a^2 x+ b^2 y+ c xy)^(-3/2),{x,0,Infinity}],{y,0,Infinity}]
Asaf Karagila
Asaf Karagila
@anon Please wear pants when chatting here.
robjohn
robjohn
@anon A single Integrate should be more efficient, I would think.
anon
anon
make me
robjohn
robjohn
16:17
@anon just don't post any pics.
anon
anon
I'm disappointed I can't find any pantsless mathematician porn on google. Where art thou, Rule 34?
Skullpatrol
Skullpatrol
@anon What is Rule 34?
t.b.
t.b.
@Skullpatrol what is Google?
anon
anon
awkward moment to return to chat...
Skullpatrol
Skullpatrol
@tb A rip off from the googolplex.
Googolplex
A googolplex is the number 10googol, i.e. 10^{(10^{100})}. In pure mathematics, the magnitude of a googolplex could be related to other forms of large number notation such as tetration, Knuth's up-arrow notation, Steinhaus-Moser notation, or Conway chained arrow notation. History In 1938, Edward Kasner's nine-year-old nephew, Milton Sirotta, coined the term googol, then proposed the further term googolplex to be "one, followed by writing zeroes until you get tired". Kasner decided to adopt a more formal definition "because different people get tired at different times and it would neve...
t.b.
t.b.
16:27
@anon bleeh, I probably shouldn't be here if I'm in a stinky mood...
I'll try to lighten up before I come back.
Matt N.
Matt N.
Oh. So I'm not the only one who's in a stinky mood. I see. But it still means I said something that made him leave : /
@anon Up for another quick algebra question? : )
Kannappan Sampath
Kannappan Sampath
The most beautiful answer I have ever come across.
@MattN I am ready, but not sure if I'll be of some help though.
anon
anon
why would you think I'm an authority on algebra? yeash.
Matt N.
Matt N.
Well I have two questions actually.
You've helped me before : )
Kannappan Sampath
Kannappan Sampath
And, in that problem, that's actually something like: Since the definition of rings says, $A$ under $+$ is an abelian group. So, closure means supposed to inherit the structure of $+$ and hence, the inverses will be inherited as well.
Matt N.
Matt N.
16:36
Anyway, so here it goes: on page 2 in Atiyah we have:
"Prop. 1.1. There is a 1-1 order-preserving correspondence between the ideals $I$ of $R$ which contain $J$ and the ideals $\bar{I}$ of $R/J$, given by $I = \phi^{-1}(\bar{I})$".
Kannappan Sampath
Kannappan Sampath
Yes.
So, here order preserving means for any ideals $I \subseteq J \subseteq K$ there corresponds ideals $\bar I \subseteq \bar J \subseteq \bar K$.
Matt N.
Matt N.
So I want to write down that bijection. In my own words/notation: Let the set $S$ denote the set of all ideals of $R$ containing $I$. Then I have a bijection $\phi : S \to \bar{S}$, $J \mapsto J/I$. Right?
Or is that bad? I mean for some reason they write $\phi^{-1}$ in Prop.1.1.
anon
anon
$S\to R/I$ um...
Kannappan Sampath
Kannappan Sampath
Well, you are looking for bijections between what?
Matt N.
Matt N.
Oh messed up, sorry.
$J$ is mapped to the coset $(J \setminus I) + I$.
Is that an ok thing to write? I'm asking because it feels kind of clumsy.
Kannappan Sampath
Kannappan Sampath
16:41
No, an ideal $J$ that contains $I$ is mapped to $\phi(J)=J+I$
Matt N.
Matt N.
@KannappanSampath Between the ideals $J$ containing $I$ and ideals in $R/I$ that are of the form $J/I$.
@KannappanSampath Fixed. : ) Thank you.
(all $i$ in $I$ are mapped to zero)
^I see what it looks like, I just can't write it down : )
Kannappan Sampath
Kannappan Sampath
@MattN You really are looking for a bijection for ideals in $R$ that contains $I$ and all ideals in $R/I$.
So, here is how I'd write it down: $R \supset J \mapsto \phi(J)=J+I=\{j+I \mid j \in J\}$ where $I \subseteq J$
So, if $j \in I$ then as you said, then that would go the coset element $\Bbb 0$ in $R/I$.
Now, claim that $J+I$ is actually an ideal.
Matt N.
Matt N.
That's clear to me. I'm thinking about why I get all ideals in $R/I$. : )
Aha.
Kannappan Sampath
Kannappan Sampath
So, to see why you get all ideals in $R/I$ define an inverse map.
I think I have been speaking obvious things so long. I regret it. :/
Matt N.
Matt N.
Let $\bar{J} $ be an ideal of $R/I$. Then $\phi^{-1} \bar{J} = J \cup I = J$ since $I \subset J$
@KannappanSampath What do you mean?
Kannappan Sampath
Kannappan Sampath
16:50
Removed.
Matt N.
Matt N.
: )
Kannappan Sampath
Kannappan Sampath
Cup and cap look confusing if not for the bookmarklet.
Matt N.
Matt N.
I'm not even sure one is allowed to use set theory ($\cup$) to operate on groups...
Kannappan Sampath
Kannappan Sampath
@MattN What does this mean?
@MattN I mean, I have been telling all of that s**t as if you were beginning Algebra! : (
Matt N.
Matt N.
Well if you have two groups $G$ and $G^\prime$ then $G \cup G^\prime$ isn't necessarily a group again.
@KannappanSampath What?! You were helpful!
Kannappan Sampath
Kannappan Sampath
16:53
Yes. But if $I \subseteq J$ are ideals, then $I \cup J$ is an ideal as you observe.
Matt N.
Matt N.
Yes. True dat.
Kannappan Sampath
Kannappan Sampath
(The same goes for groups.)
Matt N.
Matt N.
Also true.
Ok. I'm off again. See you in a bit and thank you!
Kannappan Sampath
Kannappan Sampath
@MattN No second question?
Jonas Teuwen
Jonas Teuwen
@robjohn We just had a nice talk about the Carleson-Hunt theorem in UMD Banach spaces :-).
robjohn
robjohn
16:56
@JonasTeuwen UMD?
Ah, Martingales
Jonas Teuwen
Jonas Teuwen
I think it only holds if and only if it is a UMD space.
Ilya
Ilya
@Jonas: do you remember which lecture notes by your supervisor have you advised me? I can't fund them
Daniil
Daniil
Hey.
Jonas Teuwen
Jonas Teuwen
@Ilya On SPDEs?
Kannappan Sampath
Kannappan Sampath
Is it allowed to ask someone to accept your answer because there are no other answers, it seems quite rude! :-)
Ilya
Ilya
17:06
@JonasTeuwen yes
Jonas Teuwen
Jonas Teuwen
@Ilya fa.its.tudelft.nl/~neerven/publications/papers/ISEM.pdf
Kannappan Sampath
Kannappan Sampath
@Jonas Watched and heard your lecture. Order of examples impressive. If I were in that class, I'd give you a full 5 stars. :-)
Jonas Teuwen
Jonas Teuwen
@KannappanSampath There were very little examples! :-).
Kannappan Sampath
Kannappan Sampath
@JonasTeuwen But, the few were in right order. :-)
Jonas Teuwen
Jonas Teuwen
Oh, nice :-).
Kannappan Sampath
Kannappan Sampath
17:29
A group theory answer after a long time in my life.
Hey @Dylan How do you do?
We recently had a fiasco about subrings of Atiyah!
Dylan Moreland
Dylan Moreland
Hi.
I'm at a conference so won't be very talkative. Did you find another disruptive typo?
Also I thought this guy would know better.
Kannappan Sampath
Kannappan Sampath
@DylanMoreland Meaning Grapth knows about these things better?
Dylan Moreland
Dylan Moreland
I just meant that he seemed like a smart fellow.
But the question is meaningless and will at its worst be pretty offensive.
Kannappan Sampath
Kannappan Sampath
Well, the point is with his definition of a subring.
He says they are subsets closed under addition, multiplication and contain $1$.
Dylan Moreland
Dylan Moreland
I can't imagine that it's important. Subrings should share $1$ unless you're doing something that requires you to relax that condition, like working with semisimple algebras/representations and all that.
Kannappan Sampath
Kannappan Sampath
17:35
No, it's not about $1$, but about $0$. Why will $0$ reside here?
Dylan Moreland
Dylan Moreland
They should have just said additive subgroup.
Kannappan Sampath
Kannappan Sampath
This is what I could come up with:

And, in that problem, that's actually something like: Since the definition of rings says, $A$ under $+$ is an abelian group. So, closure means supposed to inherit the structure of $+$ and hence, the inverses will be inherited as well.
Dylan Moreland
Dylan Moreland
$0$ is in there; don't spend another moment on this.
What's wrong with tb
Ah :(
Kannappan Sampath
Kannappan Sampath
I am sorry, I know you're irritated with that silly question, but why $0$ there?
Dylan Moreland
Dylan Moreland
I'm not irritated! It's advice that's meant to help.
Kannappan Sampath
Kannappan Sampath
17:39
Well, should I assume Atiyah meant that there and move on? (I never even read this defn until Matt brought it up here.)
Dylan Moreland
Dylan Moreland
I mean, for example, if $A$ is a subring of $B$ then you want the inclusion $A \to B$ to be a homomorphism of rings.
Kannappan Sampath
Kannappan Sampath
Yes.
Dylan Moreland
Dylan Moreland
So the zeros had better be the same.
Kannappan Sampath
Kannappan Sampath
Well OK. So, we all agree Atiyah was being imprecise there!?!
(My sloppiness has increased manyfolds that I am failing to distinguish the right from the wrong. ) T_T
Anyway, time to sleep. :=)
Jonas Teuwen
Jonas Teuwen
18:07
@KannappanSampath Night night.
Matt N.
Matt N.
I have another question: A principal ideal in a commutative ring $R$ is defined to be an ideal $I$ generated by one element, $\langle i \rangle$.
I think this only works if $R$ has a $1$ because I need $i + i \in \langle i \rangle $ and that only holds if I can do $i + i = (1 + 1) i$ because then $(1 + 1) \in R$ and hence $(1 + 1)i = i + i \in \langle i \rangle$. Can someone confirm this?
anon
anon
18:31
Um, so why do you need a 1 for $i+i\in \langle i\rangle$ again?
I thought you generally just worked with rings with a 1 anywho..
Matt N.
Matt N.
@anon Only because I don't see how to prove $i + i \in \langle i \rangle$ without a $1$. How do you prove it without $1$?
@anon True but I'm thinking about the general case.
anon
anon
hm. never thought about it.
Consider R=3Z as a commutative ring without unity and the ideal I=3R. I don't see a 3+3 in there, so I don't think it works without a 1.
Anyway your argument seems to boil down to "it holds if I have a 1" but you don't really demonstrate the only part (am I not getting something?). A counterexample does that swiftly though.
t.b.
t.b.
18:48
@MattN you need to be specific what you mean by "generated". The intersection of ideals is an ideal and the ideal generated by an element is the intersection of all ideals containing that element. You lose the explicit description of a principal ideal as $Ri$ if you don't have a unit (note that not even $i$ needs to be included in the set $Ri$ if you don't have a unit).
anon
anon
the $\cap$ of ideals containing the element. that's a novel way to define it. why haven't I read that?
eh, it's on planetmath. for some reason I have outdated understanding.
So anyway if $i$ is in all ideals containing it, then $i+i$ is in all those same ideals (by definition) and thus is in their intersection. cake.
why do I say "anyway" so much? hrm.
Matt N.
Matt N.
Sorry was afk (cooking)
brb
He left again :,(
anon
anon
I told you. Apology letter. Single-spaced, ten pages, with tear stains.
Matt N.
Matt N.
You're funny. But it's no laughing matter : (
Matt N.
Matt N.
19:12
@tb Ah right. Thank you! By generated by one element $i$ I meant $\langle i \rangle := \{ ri \mid r \in R \}$.
@anon I was asking myself the same the other day.
anon
anon
not sure which question you're referring to
Matt N.
Matt N.
Mouse over my reply, then you'll see.
anon
anon
oh
Um, not by your definition of $\langle i\rangle = Ri$ it isn't.
But $\{ri |r\in R\}$ isn't necessarily a subgroup if $1\not\in R$!
Matt N.
Matt N.
@anon True! Because we don't have to have $i \in \langle i \rangle$.
Yep. Getting there. Thanks!
anon
anon
Well dicks. I was editing a rather tedious question in the reviewer tools and my browser froze. Refreshed and poof it's gone, don't even know where the question is.
t.b.
t.b.
19:19
It's quite a general principle: the subthing generated by a set $S$ is the smallest subthing containing the set. What you need is that the subthings are closed under arbitrary intersections
In many cases you can give more or less explicit descriptions of the subthing generated by the set, but this is by no means always so.
@MattN I'm sorry I really didn't mean it the way you seem to interpret it. I'm not having the best of days, that's all. (I found the typo thing a bit exaggerated, but I should simply have ignored it)
anon
anon
ah, found it. random spaces and line breaks and commas and capital letters are always fun to deal with.
Edit Summary: "everything"
t.b.
t.b.
@anon Oh, yes, this person's masterful in producing stuff that needs a lot of editing. Google translate couldn't do worse, even if it tried...
Matt N.
Matt N.
19:37
Yay! You're back!
I think you're right about the thing being exaggerated.
In fact, I think it was quite a dim thing to write.
I was also in an irritable mood so I needed to write something dumb to make me less irritated.
t.b.
t.b.
To get back to your "generation" question: did you see the above? If you think about the topology or a $\sigma$-algebra generated by a set: you have the top-down definition I gave (intersection of subthings) and in good situations you have the bottom up definition (explicit description from the generating set). But if you think about it you have to work harder (and make additional assumptions) for the latter. That's exactly the situation with ideals.
Matt N.
Matt N.
Yes I saw. I actually knew that about the intersection thing but I didn't think of it because the book defined it the way I posted above.
Thank you.
t.b.
t.b.
On a more algebraic level: think about what happens if you don't require your ring to be commutative: a set can then generate a left ideal, a right ideal and a two-sided ideal. They can all be distinct.
Matt N.
Matt N.
Yes.
Asaf Karagila
Asaf Karagila
@anon: I posted this meta thread, but I feel that the title is a bit off.
anon
anon
19:51
little to none = noun, little to no = adjective
dogpile, I love it
Matt N.
Matt N.
: D
anon
anon
wait a minute, was asaf... baiting us?
Matt N.
Matt N.
Probably.
Are you back to normal? Or do you still have to be handled with care? (Just asking, I don't mind either way.)
t.b.
t.b.
Ask again tomorrow :)
Matt N.
Matt N.
Ok : )
anon
anon
19:58
Buy him cupcakes. Those always work.
Matt N.
Matt N.
But cupcakes aren't nice.
anon
anon
they're sweet.
Asaf Karagila
Asaf Karagila
Buy him cocaine and hookers?
Matt N.
Matt N.
I was going to buy him some chalk.
anon
anon
I hate chalk.
Asaf Karagila
Asaf Karagila
20:00
$\textbf{Theorem:}$ Blackboard > whiteboard.
$\textbf{Corollary:}$ Chalk > markers.
anon
anon
after an order-reversing morphism, maybe
Matt N.
Matt N.
If I was a lecturer I'd totally have long fingernails (at least on one hand) just to scratch across the board when the lecture starts and it's not quiet enough.
anon
anon
oh, you decapitalized them too. very thorough.
I am this close to closing this chat tab.
Asaf Karagila
Asaf Karagila
Why? D:
anon
anon
I jest.
Asaf Karagila
Asaf Karagila
20:02
You gestate.
anon
anon
I do.
t.b.
t.b.
Oh, I'm not the only one not getting this answer. Now BJ asked exactly the same question I had...
Matt N.
Matt N.
If you read a book, maths not fiction, do you skip over bits you don't understand or do you think about something until you figure it out? Or a mix between the two?
I'm asking because I've been quite slow reading books because when I get stuck on a tiny detail I try to figure it out.
So I've been thinking about trying the other: just ignore something I don't understand and carry on reading. (as long as it's not a major thing)
Jeff
Jeff
@MattN i do the same thing. i can't move on until I get the detail.
t.b.
t.b.
A bit of both. Sometimes it helps to take something for granted and see how it's used later on in order to figure out what I am confused about.
Hi Jeff
Matt N.
Matt N.
20:14
@Jeff That's quite unproductive.
Jeff
Jeff
hi @tb. i've been here all along, just had nothing valuable to say.
@MattN you're not kidding!
@MattN in fact, i thought i was the only one who doesn't understand the stuff in textbooks! :D
Matt N.
Matt N.
@Jeff Well I do. Sometimes it just takes too long for me to figure out a detail.
Jeff
Jeff
@matt right! when i have a class, or time constraints, i will skip over it and try to get back to it when i can.
Matt N.
Matt N.
I'm too OCD for that. : ) But I think I'll change my strategy.
My cat tore a page in my favourite book today. : /
Jeff
Jeff
@matt damn cat. kick him (or her) out! :D
(what's the book?)
Matt N.
Matt N.
20:19
Gallian's Contemporary Abstract Algebra.
I taped it.
Jeff
Jeff
is it readable? that's all that counts for textbooks (I tend to abuse mine - lots of writing, folded pages, etc.)
t.b.
t.b.
That's a very Möbius-sy transformation
Jeff
Jeff
my "ask a question" tab hung :(
Matt N.
Matt N.
@Jeff Very readable. I abuse mine too, although not as badly as you: I write into them (pencil only though!).
anon
anon
well, it is a mobius transformation
Jeff
Jeff
20:23
@matt yeah, i only write in pencil. except i put my name in pen inside the cover
@matt and then there are times I write a question down and go to the prof to ask it and I'm like "that's a stupid question! why would i ask that". :D
Matt N.
Matt N.
: )
t.b.
t.b.
@anon d'oh what was I thinking. :/
Jeff
Jeff
any number theory people in here who have "Elementary Number Theory" by Underwood Dudley handy?
anon
anon
user image
Jeff
Jeff
my "ask a question" tab froze and I don't want to re-type the whole question.
@anon where is that?
anon
anon
20:33
@Jeff: (a) Did it say it saved a draft of your question? Might want to open a new tab just to check (without closing the frozen one). Otherwise screencap and retype. (b) Dunno, it's just water under a bridge.
Matt N.
Matt N.
@anon : )
t.b.
t.b.
It's depicting the current contents of my head...
Matt N.
Matt N.
Never mind : )
Jeff
Jeff
@anon i don't see a notification of saving draft. i will check now. the image is scrolled out of view too much for a screen cap to be useful.
@anon where would i find a draft? (I opened a new tab)
Matt N.
Matt N.
@tb Maybe you need a bit of massaging.
(I'm not saying by me!)
anon
anon
20:35
just re-click "Ask a Question" - if the draft was saved it will come back up
Jeff
Jeff
@anon yup. it's there. thx
Matt N.
Matt N.
There aren't many questions that I can and want to answer lately.
@tb And a drink maybe?
t.b.
t.b.
Both, I guess.
Oh, Harry's back...
Jeff
Jeff
@matt and then there are the times, like right now, where I figure out a question while (and sometimes because) I'm typing it up.
Matt N.
Matt N.
@Jeff Yes. Does that count as rubber ducking?
Jeff
Jeff
20:44
@MattN hahaha :D.
i'd never heard that term b4
Matt N.
Matt N.
: )
Jeff
Jeff
@MattN and the answer is: yes
Matt N.
Matt N.
@tb Do you have drink at home?
Asaf Karagila
Asaf Karagila
Can you please stop using SMS shortcuts?
Jeff
Jeff
@AsafKaragila who? me?
Asaf Karagila
Asaf Karagila
20:47
Yes.
t.b.
t.b.
@MattN I do have one beer left. And I'm not in the mood for anything stronger...
Jeff
Jeff
OK. Sorry. I didn't even know I was doing it.
Matt N.
Matt N.
@tb phew Although one seems like not a lot.
Asaf Karagila
Asaf Karagila
Any of you guys have plans for tomorrow?
Jeff
Jeff
Picking my dad up at the airport. Does that count?
Asaf Karagila
Asaf Karagila
20:50
No.
Dennis Hayden
Dennis Hayden
it's Pi day so eat pie and meet with NSA recruiters.
Matt N.
Matt N.
@AsafKaragila Yes. Do some CA and some Additive Combinatorics. That's during the day. Then before I'm off to a class towards the evening I'll pop into chat to say hi and after class I'm going out for dinner with a friend of mine.
Asaf Karagila
Asaf Karagila
Will you be going to a pie eating contest?
Matt N.
Matt N.
No.
Asaf Karagila
Asaf Karagila
I see.
t.b.
t.b.
20:52
I wouldn't even have noticed. I tend to go by the reasonable day/month/year convention and fortunately there's no $\pi$-numerology in there.
Dennis Hayden
Dennis Hayden
we need a 14th month
Asaf Karagila
Asaf Karagila
We're gonna bake a pie with the letter pi on top, then watch the movie Pi whilst eating the Pie with the letter pi.
Dennis Hayden
Dennis Hayden
Movie named pi?
t.b.
t.b.
@MattN no it's not a lot, but my liver will thank me...
Asaf Karagila
Asaf Karagila
@DennisHayden Yes.
t.b.
t.b.
20:56
@DennisHayden there
Matt N.
Matt N.
@tb Your liver and your brain and who knows what else : ) But I don't feel bad for suggesting it : )
Asaf Karagila
Asaf Karagila
@tb You should be killing your liver, not making him thank you!
Matt N.
Matt N.
@AsafKaragila Him? Mr. Liver?
Benjamin Lim
Benjamin Lim
Hey
8am now
Matt N.
Matt N.
Hi Benjamin.
Benjamin Lim
Benjamin Lim
20:57
what's the time and temperature now at your place?
Matt N.
Matt N.
10 pm, cool.
Benjamin Lim
Benjamin Lim
cool means...?
Matt N.
Matt N.
Around 10 degrees.
Benjamin Lim
Benjamin Lim
ah ok
I just checked the temperature for Zürich
Matt N.
Matt N.
I was going to make a joke but I don't dare.
t.b.
t.b.
20:59
Go for it!
Benjamin Lim
Benjamin Lim
@tb Have you been here the whole night?
ahahhhhh ...
Matt N.
Matt N.
: )
00:00 - 11:0011:00 - 16:0016:00 - 21:0021:00 - 22:0022:00 - 00:00

« first day (587 days earlier)      last day (4730 days later) »