Mathematics - 2012-07-15 (page 3 of 3)

anon

21:03

The $p$-adic sphere should just be $S(a,p^r)=a+p^{-r}\Bbb Z_p^\times$. If you combine this fact with the tree diagram interpretation of the $p$-adics this should help one visualize the boundary of balls. (Spheres are boundaries of balls in general metric spaces, right?)

Though I don't know that this applies to general ultrametric spaces.

Old John

@anon Thanks, Anon - I am not planning in going very far with general ultrametric spaces - I mainly want to know about the specific case of the $p$-adics - as I want to get to the understand why they are so useful in number theory. The topology thing is a bit of a side avenue, although it is interesting.

So your hint could be extremely useful - thanks!

Jonas Teuwen

@OldJohn Pretty kickass. Bit related to my stuff. Who was your advisor?

I wonder why @anon is anonymous, he(?) is really skilled.

If you're a moron, it is understandable that you want to be anonymous although I do not really care, I am what I am. But,...

Old John

@JonasTeuwen This guy at the Open University in the UK: mcs.open.ac.uk/People/p.j.rippon one of my examiners was a guy called Walter Hayman

Jonas Teuwen

@OldJohn Oh! You can get a PhD at the Open University? Cool!

Old John

@JonasTeuwen Yep - sure can!

Peter Tamaroff

21:12

@anon Reveal yourself. The power of Peer Review compels you!

Old John

Bloody hard work though as a part-time external student :-(

Jonas Teuwen

But you are now Dr. Old John, so it was worth it? 8-)).

Old John

@JonasTeuwen Yes - but if I had know how hard it was going to be, I don't think I would have started (being called Dr has been no use to me)

Jonas Teuwen

@OldJohn So, retrospectively you would not have done it?

Old John

but in retrospect I am glad I did it

Jonas Teuwen

21:15

Ah! Then no problem, dr. John.

I think I would do it anyway, no matter how hard.

Old John

@JonasTeuwen Yes - I enjoyed getting the feeling that I had something to say that (a very few) other mathematicians might find worth reading

Jonas Teuwen

@OldJohn :-). The pleasure of finding things out...?

Old John

and proving to myself that I could do it - even though I was so old by the time that I finished that I could make no real use of it :)

anon

Where I live, Dr. John's refers to the local sex shops.

Jonas Teuwen

But you are 59 and retired. You were a maths teacher?

Henry T. Horton

21:17

@anon I've been meaning to ask you, are you from Omaha? I thought I read somewhere you are from Nebraska

Old John

@JonasTeuwen Yes - I have taught maths (and computing sometimes) all my life - even when I was doing the PhD

Henry T. Horton

And I was about to mention Dr. John's myself

anon

@HenryTHorton Yep.

Jonas Teuwen

@OldJohn Cool! So, what do you do now? Just... enjoy?

Old John

@HenryTHorton ROFL at Dr John's sex shops! - never heard of them!!

Jonas Teuwen

21:18

You should walk in, show your business card and demand free goodies, uh...

Old John

Yep - enjoy watching my bonsai trees grow - and do some number theory for fun :)

Henry T. Horton

@anon Are you able to disclose where you went to high school?

Peter Tamaroff

@OldJohn Though I mainly want to investigate, I think I can't resist teaching maths. I help many of my friends in math and I really enjoy teaching maths.

anon

A Jesuit one ;)

Old John

@JonasTeuwen Daren't think what those "goodies" might be

Peter Tamaroff

21:19

@anon What's a Jesuit school?

Jonas Teuwen

@PeterTamaroff Cool! Good lecturers are necessary. My students run away.

So I have to teach linear algebra for engineering.

And I'm like: "But bros, this is like crazy right? Just remember: a matrix is just a linear map".

Two classes after that: no more students.

anon

@PeterTamaroff http://en.wikipedia.org/wiki/Society_of_Jesus

Henry T. Horton

@anon I see. Then there's about 0% chance I ever met you back in the day

Peter Tamaroff

@JonasTeuwen Hahahaha OK.

anon

@HenryTHorton Back in the day? How old are you?

Peter Tamaroff

21:21

@anon You're a "God's Marine"?

Henry T. Horton

@anon A couple years older than you

anon

@PeterTamaroff Nah, I was one of the infamous atheists of my high school (eventually anyway).

Old John

Need to go inside - too dark and cold out here now - back later

N3buchadnezzar

Hey guys =)

Peter Tamaroff

@anon Hahaha well, I went to a Parish school. Some companions asked me why I was going to a parish school being an atheist.

(They didn't know they are also atheists w.r.t. +2000 other gods.... but welll)

N3buchadnezzar

21:24

@PeterTamaroff But they are not gods, they are things to stray ones heart away from the one and only god ;)

Jonas Teuwen

@OldJohn :-).

Peter Tamaroff

@N3buchadnezzar Which is the one and only God?

Henry T. Horton

Math!

Peter Tamaroff

@HenryTHorton +1

Jonas Teuwen

"What are you working on?" A: "Math?"

N3buchadnezzar

21:26

@PeterTamaroff Whichever you choose to believe in ;)

@JonasTeuwen You know your work is serious business when you can not explain it to others,

Jonas Teuwen

@N3buchadnezzar Maybe I can but I don't want to! 8-).

I'm disillusioned.

N3buchadnezzar

@JonasTeuwen Its like lambdas and deltas, it is quite complicated.

Jonas Teuwen

@N3buchadnezzar "Stuff with Greek letters, bro."

N3buchadnezzar

Physicists have a much easier time "explaining" what they are doing.

anon

I still don't know how to write down $\xi$. I just scribble something random for it.

4

N3buchadnezzar

21:30

@anon You could write \xi in your work..

anon

much funner to scribble

Old John

@anon I can hand-write $\xi$, but have a real hard time with $\Xi$

anon

I don't think I've ever written $\Xi$ down.

Peter Tamaroff

@OldJohn I find it utterly impossible to write down $\zeta$ properly.

anon

$\zeta\ne\xi$

Old John

21:31

@anon I tried once - won't ever try again - there are plenty of other letters to choose from :)

Jonas Teuwen

@PeterTamaroff Practice.

anon

I can do $\displaystyle\Huge\zeta$ well now.

Peter Tamaroff

@anon You don't say.

anon

I do say.

Peter Tamaroff

@JonasTeuwen Maybe it's because I'm a lefty.

Old John

21:33

I once won a bottle of wine in a Greek taverna - for knowing the whole of the Greek alphabet :)

Peter Tamaroff

@OldJohn Hahah cool. I know almost all. They are fun letters.

Jonas Teuwen

@PeterTamaroff So am I. (Hence: bullshit).

N3buchadnezzar

I tend to use more Greek than Norwegian characers so far.

Peter Tamaroff

@JonasTeuwen Interesting. Jasper Loy is also left handed. It is quite the coincidence.

Old John

Isn't the symbol for the empty set actually a Norwegian letter originally? (maybe Danish)

Jonas Teuwen

21:34

@PeterTamaroff Well, were you able to write the Latin alphabet immediately?

Peter Tamaroff

Anynone heard of Boya's identity?

N3buchadnezzar

I had some papers from something I had been working on left on the table. And my niece asked me what it was for. I tried explaining that it was to calculate the between a function and a woobly surface. She looked oddly at me and asked why I ever wanted to figure that out.

2

Peter Tamaroff

@JonasTeuwen I can't really write in cursive. I write in "press" letters.

@JonasTeuwen Here

Jonas Teuwen

@PeterTamaroff Pretty. I am sure you can write it.

Peter Tamaroff

@JonasTeuwen I'm trying now. I have to start from the bottom up to get it right.,

N3buchadnezzar

21:40

I find people who use an image of themselves as avatars, somewhat uncomfortable.

Jonas Teuwen

@PeterTamaroff Yes, try like half an hour or so.

Peter Tamaroff

@N3buchadnezzar LOL why?

N3buchadnezzar

@PeterTamaroff diskusjon.no/…

Jonas Teuwen

@N3buchadnezzar Why?

N3buchadnezzar

The internet is for being anonymous, not spread large creepy pictures of yourself.

Old John

21:41

@N3buchadnezzar Hmm - must change my gravatar quickly ...

Peter Tamaroff

@N3buchadnezzar Though I might side with you on this one

N3buchadnezzar

@OldJohn Well its small enough not to be a nuisance

Peter Tamaroff

@N3buchadnezzar What is that link?

nbouscal

@N3buchadnezzar I don't think the internet is for being anonymous. Certain parts of it, yes. Not all of it.

Jonas Teuwen

@N3buchadnezzar I don't like the full anonymity on things like this.

nbouscal

21:43

There are very good reasons to want to associate yourself with your presence on some internet sites, this one included.

anon

There is a further distinction: anonymity is to pseudonymity as imageboards/chans are to forums.

Jonas Teuwen

@N3buchadnezzar You can always block the avatar!

N3buchadnezzar

@JonasTeuwen Bye Jonas!

Jonas Teuwen

@N3buchadnezzar Bro.

Where do I learn cool stuff about Weyl algebras?

N3buchadnezzar

@JonasTeuwen Hmm. I can hide your posts, and I can ignore you everywhere. But I can not like, remove your face.

Jonas Teuwen

21:47

@N3buchadnezzar Ad block.

Old John

Has my gravatar changed?

anon

yes

Peter Tamaroff

@OldJohn Hhaha you're God John now.

Old John

@anon Great!

anon

you look like an owl either way though

Peter Tamaroff

21:48

@N3buchadnezzar I even shared a pic of me with Jasper some time ago.

Old John

@anon Thanks

N3buchadnezzar

@JonasTeuwen i.sstatic.net/oZVGA.png =)

@OldJohn Viele besser!

Jonas Teuwen

@N3buchadnezzar Nice bro.

Shall I switch to xmonad or stay with dwm...?

Old John

@N3buchadnezzar Danke schon

@JonasTeuwen Go retro with fvwm!

Jonas Teuwen

@OldJohn dwm is like very retro already!

Peter Tamaroff

21:51

@N3buchadnezzar DOes that mean something like "Much better"?

Old John

@JonasTeuwen I like minimalist wm's - but quite as far as Blackbox

N3buchadnezzar

@PeterTamaroff Ja, sprechen Sie nicht Deutch? Shade.

Peter Tamaroff

@N3buchadnezzar Nein.

I however remember some words

I went to a German school up to 1st grade.

N3buchadnezzar

^^ Neither do I, although I remember bits and bytes from it though.

Peter Tamaroff

(that is 6-7 years old)

Jonas Teuwen

21:52

@OldJohn You call Blackbox minimal?

Old John

@JonasTeuwen erm ... yes

N3buchadnezzar

Maple keeps crashing!

Jonas Teuwen

@OldJohn Hmm, peculiar.

Old John

@JonasTeuwen There is something more minimal?

Jonas Teuwen

@OldJohn Yes. The one I use!

Old John

21:54

@JonasTeuwen Wow!

Jonas Teuwen

dwm.

Old John

@JonasTeuwen That actually looks pretty good - must give it a try

Peter Tamaroff

"When determining the 5th reference to s causal relationship between x and xy squared, does one attempt clitoral reference or simply discard the model in number theory?"

WTF?

Old John

@PeterTamaroff ???

Peter Tamaroff

@OldJohn It's a quesiton on main

Old John

21:58

@PeterTamaroff Good grief

Jonas Teuwen

@OldJohn :-).

anon

calling for votes

Peter Tamaroff

@anon ALready voted to close, dawg.

anon

I knodat cat

Peter Tamaroff

LOL -2 to -6 in 5 seconds

anon

22:00

and I didn't even bother voting

Peter Tamaroff

@anon BTW that cat is hilarious

anon

baleeted

Peter Tamaroff

@anon Community deleted?

Is it an automatic script?

anon

yup, cuz of the # o' flags

holy crap the edit option is even gone to 20k+ers!

I feel impotent.

Peter Tamaroff

@anon LOL

Henry T. Horton

22:05

He posted another: math.stackexchange.com/questions/171313/…

anon

must ... resist ... inb4ing...

Peter Tamaroff

►

@anon In taking this to meta.

Fuck him.

anon

meh

Henry T. Horton

Won't he automatically get blocked after a few posts are automatically deleted for spam?

Peter Tamaroff

@HenryTHorton No idea.

anon

22:10

I believe so.

robjohn

22:23

@anon what option is gone?

anon

the option to edit those posts that are deleted by community

Peter Tamaroff

@anon Not deleted, but locked.

anon

ah.

BenjaLim

mornin

@HenryTHorton Where are you now?

Henry T. Horton

Hey guy

Peter Tamaroff

22:38

@BenjaLim Night.

Henry T. Horton

Me? What kind of question is this!?

BenjaLim

@HenryTHorton are you undergrad/postgrad/retired

Henry T. Horton

I just finished my first year of grad school

BenjaLim

ah ok

@HenryTHorton Ah can I ask you a small problem in algebraic topology?

I am not sure if it's trivial

Henry T. Horton

Sure, I might not be able to answer it even if it is trivial :)

Peter Tamaroff

22:40

@BenjaLim Everything is trivial after you prove it. =P

BenjaLim

I wanna prove that you can always embed $X$ into the cone over it $CX$

The map $f : X \rightarrow CX$ factorises to $h \circ g$

where $g : X \rightarrow X \times I$

$h : X \times I \rightarrow (CX = X \times I/X \times \{0\})$

@HenryTHorton I forgot to say you first pick a $t \in [0,1)$

and then $g(x) = (x,t)$, $h(x,t) = [x,t]$

Henry T. Horton

$\varphi: X \longrightarrow CX$, $\varphi(x) = [x,1]$? That should be an embedding, right?

BenjaLim

yes...

not $[x,1]$ but $[x.t]$

@HenryTHorton So I want to say that $X \cong \varphi(X)$

Henry T. Horton

Why don't you allow $t = 1$?

BenjaLim

Where your $\varphi = h \circ g$

I don't want $t = 1$

Henry T. Horton

22:46

$1$ is the loneliest number...

BenjaLim

Otherwise I don't think the map is injective .... @HenryTHorton

Henry T. Horton

By your definition of the cone, you collapse the level $X \times \{0\}$

So the map should be injective for all $t \neq 0$

BenjaLim

Oh crap

OMG sorry

I collapsed the wrong thing!!

Henry T. Horton

:)

BenjaLim

I should have collapsed $X \times \{1\}$

Sorry man

Henry T. Horton

22:48

Then take $t = 0$ in that case?

BenjaLim

any $t \in [0,1)$

I think wlog we can take $t = 0$

Now I have proved that $\varphi$ is continuous

(It's the composite of two continuous functions)

Where the cone $CX$ has the quotient topology

But you see I am now having some trouble

in proving that $\varphi$ is open

well not really trouble but some details are bogging me down

for example if $U$ is open in $X$, then under $g$ it is mapped to $U \times \{0\}$

Now because we excluded $t = 1$

each element is in its own equivalence class

so I think I can write $U \times \{0\} = h^{-1}(\bigcup_{x \in U} [x,0])$ @HenryTHorton

Henry T. Horton

$h|_{X \times \{0\}} = \mathrm{Id}_{X \times \{0\}}$

BenjaLim

well not exactly

Henry T. Horton

Well maybe that's not completely accurate

BenjaLim

because you are still sending an element to the set containing it

Henry T. Horton

22:52

But nothing happens to $X \times \{0\}$ when you quotient

BenjaLim

well....

in a way yea

Henry T. Horton

So yes $U \times \{0\} = h^{-1}(\{[x,0] : x \in U\})$

BenjaLim

right

@HenryTHorton Now the problem here is that $U \times \{0\}$ is not open in $X \times I$

I am taking that $I = [0,1]$ is given the subspace topology from the usual Euclidean topology on $\Bbb{R}$

N3buchadnezzar

@BenjaLim Someone said you sounded more like an owl than a man.

BenjaLim

@N3buchadnezzar Why did they say that?

N3buchadnezzar

22:57

You should have said "Who?"...

BenjaLim

who

N3buchadnezzar

^^

BenjaLim

@HenryTHorton what do you think should happen now?

Henry T. Horton

Benja$\lim$

Just construct an inverse for $\varphi$

$\psi: \{[x,0] : x \in X\} \longrightarrow X$, $\psi([x,0]) = x$

BenjaLim

@HenryTHorton I am not trying to show it is bijective

Henry T. Horton

22:59

Show it is continuous

BenjaLim

I have done that

you don't understand the problem now is in showing it is an open map

Henry T. Horton

And note that $\{[x,0] : x \in X\}$ has the subspace topology inherited from $CX$

BenjaLim

yes

I know

Henry T. Horton

$\{[x,0] : x \in U\}$ is open in $\{[x,0] : x \in X\}$ in the subspace topology

You want to show $\varphi: X \longrightarrow \varphi(X)$ is open

Not $\varphi: X \longrightarrow CX$

An embedding is a homeomorphism onto its image

N3buchadnezzar

BenjaLim

23:03

@HenryTHorton Yes

Henry T. Horton

@BenjaLim So that's what I was suggesting: just construct the continuous inverse to $\varphi$, $\psi: \{[x,0] : x \in X\} \longrightarrow X$

You already know $\varphi$ is injective and continuous

So you just need to show it is a homeomorphism onto its image

BenjaLim

@HenryTHorton yes but you see proving continuity of the inverse is equivalent to showing my $\varphi$ is an open map

and that's the problem there

Henry T. Horton

An open map onto its image

BenjaLim

yes

One thing I am confused about is

The quotient topology on $CX$ is such that $V$ is open in $CX$ iff $h^{-1}(V)$ is open in $X \times I$

but now when dealing with the subspace....

Because I already know that $U \times \{0\}$ is $h^{-1}(\bigcup_{x \in U}[x,0])$

Jonas Teuwen

Yes.

BenjaLim

23:11

@JonasTeuwen ?

Jonas Teuwen

Hi.

Henry T. Horton

Think about the image of the set $U \times [0,1] \subset X \times I$ in $CX$

BenjaLim

@HenryTHorton wait why $U \times [0,1]$?

and not $U \times \{0\}$?

a priori you fix a $t$ no?

Henry T. Horton

It's an open set in $CX$ such that $(U \times [0,1])/\!\sim \cap \{[x,0] : x \in X\} = \{[x,0] : x \in U\}$

@BenjaLim I'm showing you that $\{[x,0] : x \in U\}$ is open in the subspace topology

BenjaLim

I think the guy in the left in the intersection is $U \times [0,1] / \sim$

Henry T. Horton

23:15

Yes

BenjaLim

where $(x,t) \sim (x,t') \iff (t = t' =1)$

Henry T. Horton

$(x,t) \sim (x',t') \iff t = t' = 1$ you mean

BenjaLim

ah yes

sorry the x coordinate need not be the same

Henry T. Horton

So do you see why $\varphi(U) = \{[x,0] : x \in U\}$ is open in $\varphi(X) = \{[x,0] : x \in X\}$ in the subspace topology inherited from $CX$ now?

BenjaLim

I think i'm stupid....

Henry T. Horton

23:18

Benja$\displaystyle\lim_{n \to \infty}$, we're going to make it through this together

BenjaLim

@HenryTHorton You should write $\varinjlim M_i$, I don't like analysis that much....

Henry T. Horton

All these years I didn't know there was already a command for $\varinjlim$

3

$\varprojlim$

!

BenjaLim

@HenryTHorton I hate how I always get bogged down in these details

Henry T. Horton

@BenjaLim It's better than just assuming everything is right and moving on

2

I spend most of my time worrying about minor details

Peter Tamaroff

@BenjaLim Know that feel, bro.

2

BenjaLim

23:24

@PeterTamaroff It's tougher when you're a n00b

ahahahahahaahahaha

anon

@HenryTHorton $\varinjlim$ $\varprojlim$ holy crap you're right!

BenjaLim

where do you get all these memes

anon

that's from 4chan originally I believe. probs /r9k/

Peter Tamaroff

@BenjaLim I more of a n00b than you are, dude.

anon

ah, krautchan

BenjaLim

23:27

@HenryTHorton aH

$U \times [0,1]$ is open in $X \times I$

and I think it is saturated with respect to the canonical projection onto the quotient

@HenryTHorton I think $U \times [0,1] = h^{-1}\bigg((\cup_{ 0 \leq t \leq 1} \cup_{x \in U} [x,t]) \bigcup( U \times \{1\})\bigg) $

Henry T. Horton

$U \times \{1\}$ doesn't exist in $CX$?

BenjaLim

it gets collapsed to a point?

Peter Tamaroff

Henry T. Horton

Yeah, the right side of the union should be the cone point, not $U \times \{1\}$

BenjaLim

@HenryTHorton I think if I can show that $U \times [0,1]$ is saturated

then that's it

sorry

ah ok

so it is true then that $U \times [0,1]$ is saturated

and hence $h(U \times [0,1]) $ is open in $CX$ @HenryTHorton

Henry T. Horton

23:36

Yes

anon

tb's back! and he commented on my answer. strut

BenjaLim

I think that solves my problem

Henry T. Horton

So now you believe that $\varphi: X \longrightarrow \varphi(X)$ is an open map?

BenjaLim

wait hold on

@HenryTHorton $\varphi(U) = \varphi(X) \cap h(U \times [0,1])$

I think that does it

@HenryTHorton Because

Henry T. Horton

Yes

BenjaLim

23:40

$h(U \times [0,1]) = \{ [x,t] : x\in U, 0 \leq t < 1 \cup \{\text{cone point} \}\}$

@HenryTHorton Ah so the trick was to look at $U \times [0,1]$

this exercise was important

it shows you can have $f,g$ not open maps but $f \circ g$ is open

Henry T. Horton

$f \circ g$ isn't open...

$U \times \{0\}$ isn't open in $CX$

BenjaLim

in the subspace it is

Henry T. Horton

But it's open in $(f \circ g)(X)$ in the subspace topology

BenjaLim

Yes

it can't be in $CX$ because $U \times \{0\}$ is the preimage of something in $CX$, but $U \times \{0\}$ is not open in $X \times I$

@HenryTHorton Thanks man XOXO

I like you you're funny :D

Henry T. Horton

I've never been more serious in my damn life

BenjaLim

23:44

If you're in australia you will enjoy taking the piss out of people

anon

by force?

BenjaLim

@anon to take the piss out of someone = make fun of someone

Peter Tamaroff

@BenjaLim Bear Grylls seems to take it literally.

2

BenjaLim

I don't understand this guy's question: math.stackexchange.com/questions/171338/…

Peter Tamaroff

@BenjaLim I'll check the exc he's talking about.

@BenjaLim Why would he even mention Heine Borel?

I don't know really what it is, but I'm reading it's about compact sets and stuff.

Henry T. Horton

23:54

Heine-Borel gives a characterization of compact sets in $\Bbb R^n$

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$Mathematics$ Mathematics