Mathematics - 2018-02-28 (page 5 of 5)

Akiva Weinberger

9:00 PM

Well, a wobbly parallelogram, where two of its sides are not wobbly

Balarka Sen

@0celo7 See the starred message

Akiva Weinberger

On second thought, don't

0celo7

what the fuck

@BalarkaSen is this an elaborate trol

Akiva Weinberger

ley problem? Yes.

Abcd

@BalarkaSen You use $\bigsum$ instead of $\sum$, right?

What's the correct code for that?

Akiva Weinberger

9:03 PM

See, if you pull the lever, the trolley will switch from following the flow lines of the vector field $X$ and start following the flow lines of the vector field $Y$

Just \sum

Abcd

@AkivaWeinberger Nah, in H bar Balarka said that he uses bigsum.

Which looks more neat.

Balarka Sen

Did I?

I use $\sum$

0celo7

I use $\Sigma$

Balarka Sen

$\displaystyle \sum$

if you want

Abcd

in The h Bar, Feb 7 at 17:02, by Balarka Sen

Also I'll write $\large{Σ}$ instead of $\sum$

Found it^

0celo7

9:06 PM

God this book is bad

I think Besse is one big erratum

Balarka Sen

Don't use $\Sigma$ lol

I was joking

0celo7

taking balarka seriously leads to injury

2

Akiva Weinberger

$\varsigma$

Balarka Sen

Minecraft - Damage Sound

►

Akiva Weinberger

In that game there are monsters called Endermen (among others), one of the friends I used to play with was a kid named Andrew

He quickly became Anderman

I guess that's not very relevant

0celo7

9:09 PM

I think we all know what endermen are

Balarka Sen

You used to play Minecraft?

0celo7

@BalarkaSen didn't everyone?

Balarka Sen

No

Roblox >>> Minecraft

Slereah

@BalarkaSen i think I have a Hint

I should probably try to patch together the two vector fields associated to the foliations

Lozansky

Is cross-posting "interdisciplinary" questions between boards legal?

Slereah

9:15 PM

with the vector field of the manifold itself (its time orientation, bc spacetime)

that should probably work

0celo7

@Lozansky No, you might get shot for doing that.

Slereah

Except if it's not time-orientable

Balarka Sen

@Slereah I have not been thinking about it but maybe

@0celo7 Not Nice

Lozansky

@0celo7 Or worse, expelled

Balarka Sen

lmao

Golden

@0celo7 Which doesn't look like a raccoon?

Slereah

9:16 PM

although I think even then that's fine, if I only consider the manifold and not the metric

0celo7

reee

Akiva Weinberger

What's non-time orientable? Is that where, if you wait long enough, you end up where you started but upside-down?

Slereah

@AkivaWeinberger Do you know a bit about Lorentzian manifolds

Akiva Weinberger

A bit

Slereah

Non-time orientable is when, on a manifold with a metric of signature $(1, n)$, there is no vector field that is everywhere $g(X,X) < 0$

0celo7

9:19 PM

continuous

Slereah

well, no continuous ones, anyway

skullpatrol

I think, you need mod approval for that @Lozansky

Link please.

0celo7

or else s h o g will delete you

skullpatrol

:(

Lozansky

@skullpatrol Here is the question math.stackexchange.com/questions/2671017/…

It's PDE so I figured it's 50/50 math/physics

Abcd

9:26 PM

@skullpatrol I had asked something in the periodic table?

skullpatrol

Give it at least a couple of days here :-)

ok @Abcd

Dattier

Salut, Anna alors tu as toujours pas pris ton Humex.. lol

Slereah

What's a good book on foliations?

Faust

9:41 PM

Is it ok to post the finish of this problem as an answer to my own question?

0

A: A collection of most of the properties about a linear operator and its trace.

$( \Leftarrow ) $ Assume that $tr(T) = tr ( T^2) = \cdots = tr(T^n)=0 $ and that T is not nilpotent. Let $ m_i$ denote the multiplicity of the eigenvalue and let $\lambda_1, \cdots , \lambda_r $ denote all the distinct nonzero eigenvalues. using an above result and the assumption we have that ...

Akiva Weinberger

Oh my god

@BalarkaSen Look at this

So those are not homeomorphic

Multiply them by $I$

and they're homeomorphic

Balarka Sen

Oh

What the fuck

0celo7

what the hell is that

Balarka Sen

That's surprisingly simple

nbro

Does the expression statistical probability have any sense? I have just seen a usage of it, where the term probability seems to suffice.

skullpatrol

9:53 PM

Depends on the context, but yes it does make sense in the long run.

Slereah

Is there a Standard Trick to join two vector fields

If I have a vector field in some region and another vector field in another

Is there a trick to join them smoothly

Akiva Weinberger

Partition of unity, maybe?

nbro

@skullpatrol What's its meaning then?

skullpatrol

Given many trials it is statistically probable.

nbro

@skullpatrol What's its exact relationship with the empirical probability?

The specific context I have just seen it being used is quantum mechanics, more precisely an article about the Stern-Gerlach experiment.

The sentence is:

> When we actually detect the atom, say in a spin-up state with statistical probability 1/2, two "collapses" or "jumps" occur.

informationphilosopher.com/solutions/experiments/stern_gerlach

skullpatrol

10:03 PM

A statistical probability is a probability found by using statistical information over many trails.

Slereah

I guess I should take some compact support function around the submanifold where the vector field is like $\rho(x) X_2 + (1 - \rho(x)) X_1$

That way it will vary smoothly from one to the other

The only trouble for foliation being if it is ever $0$

Akiva Weinberger

@BalarkaSen Hey, on the vector field $x\hat\imath$, the flow line through $\hat\imath$ is $t\mapsto e^t\hat\imath$, right? Because the position is always the same as the velocity.

Balarka Sen

Yep

Akiva Weinberger

10:27 PM

So the reason the square wasn't working before, was because I approximated "following $Y$ for $\epsilon$ amount of time" by moving from $p$ to $p+\epsilon Y(p)$.

Balarka Sen

Ah

Akiva Weinberger

So, for the vector field I just described, that would essentially move me from $1$ to $1+\epsilon$

Balarka Sen

I wasn't looking at the computation

Akiva Weinberger

where the true thing would be going from $1$ to $e^\epsilon$

and since we divide by $\epsilon^2$ at the end, linear approximations are not enough.

We need our approximations to be accurate to the second degree.

Second order?

What's the right word there

And maybe let's use $h$ instead of $\epsilon$ so as not to confuse it with $e$

so the point is that $1+h$ is not sufficiently close to $e^h$

Balarka Sen

I follow you but I'm not sure what you're trying to prove

Akiva Weinberger

10:31 PM

I'm trying to explain why the computation before failed

I was computing the square thing where one of them was constant

and it should have given the directional derivative but it didn't

Balarka Sen

Ah ok

Akiva Weinberger

and the reason was because I was approximating badly

Mike Miller

@AkivaWeinberger Pretty awesome

Balarka Sen

Fair enough

skullpatrol

Did that make sense? @nbro

Balarka Sen

10:33 PM

Btw, is this the new US policy model for equipping schools with guns?

Akiva Weinberger

Lol

It took me a few seconds

skullpatrol

-_-

Alessandro Codenotti

subscripts are bad for your health @Balarka

Balarka Sen

Seriously what the shit though. US has more legal arms count than population.

Not to mention the illegal stuff

You people are going to face an elaborate trolley problem if this goes on

Mike Miller

Yeah, most everyone has two arms

5

Akiva Weinberger

10:35 PM

Not a whole lot in cities though

skullpatrol

Guns don't kill. People do.

Akiva Weinberger

Mostly in rural areas

Balarka Sen

@MikeMiller That one caught me off guard

@AlessandroCodenotti lmao

give it a star as a historical artifact in the pinnacle of mathematical notation

skullpatrol

Yeah, the Las Vegas massacre lite the fuse...

0celo7

@BalarkaSen what is it

Akiva Weinberger

10:42 PM

Topological spaces

0celo7

@AkivaWeinberger I have absolutely no idea what it's supposed to represent.

skullpatrol

...everybody seems to be "aiming" at the younger crowd these days :(

Akiva Weinberger

As I explained, they are compact subsets of the plane satisfying $X\not\cong Y$ but $X\times I\cong Y\times I$

$\cong$? $\simeq$?

0celo7

Sorry I don't see an explanation

$\approx$

$\cong$ is isomorphism and $\simeq$ is homotopy

Balarka Sen

$X \times I$ is a solid torus with two flaps sticking out

Akiva Weinberger

10:43 PM

They're homeomorphic, which is isomorphism in the topological category

Balarka Sen

Rotate the flaps

0celo7

I had no idea he meant that $I$

I thought it was algebraic geometry

and $I$ was an ideal or some shit

Oh, $I=[0,1]$

interval man

Yes, now I get it

10:44 PM

@skullpatrol Honestly I'm glad that we had the arms act passed 150 years from now in India.

0celo7

@AkivaWeinberger isomorphism should be restricted to algebra

user193319

Are there any locally compact hausdorff spaces that aren't paracompact, besides the long line? I haven't spent a whole lot of time studying the long line.'

0celo7

No need to involve cats when only dogs are needed

Mike Miller

I think if there's one nasty thing you should expect there to be a zoo of them

Balarka Sen

r/nocontext

0celo7

10:46 PM

@user193319 a cheating example is to take a large disjoint union of things

I think

user193319

@0celo7 What sort of things? How would you topologize it?

0celo7

I might be forgetting what paracompactness means

skullpatrol

Yeah @BalarkaSen the Brits did it right :)

Balarka Sen

I think he means, like, $X$ be a locally compact Hausdorff space and $D$ be an uncountable discrete set, take $X \times D$.

Leaky Nun

@AkivaWeinberger I see we follow the same page

Akiva Weinberger

10:48 PM

Yup

Leaky Nun

lol

0celo7

Paracompactness does not refer to countability

Acc. to Bredon

so ignore that

Akiva Weinberger

> Another counterexample is a product of uncountably many copies of an infinite discrete space.

Mike Miller

Prüfer manifold

In mathematics, the Prüfer manifold or Prüfer surface is a 2-dimensional Hausdorff real analytic manifold that is not paracompact. It was introduced by Radó (1925) and named after Heinz Prüfer. == Construction == The Prüfer manifold can be constructed as follows (Spivak 1979, appendix A). Take an uncountable number of copies Xa of the plane, one for each real number a, and take a copy H of the upper half plane (of pairs (x, y) with y > 0). Then glue each plane Xa to the upper half plane H by identifying (x,y)∈Xa for y > 0 with the point (a + yx, y) in H. The resulting quotient space is the Prüfer...

Akiva Weinberger

According to the Wiki

skullpatrol

10:49 PM

sniped

Balarka Sen

Point set topology is hard

skullpatrol

Tell that to Moore :P

Lozansky

What's a suitable Hilbert space when working with Bessel functions of the first kind?

$L_2(r, I)$ I guess

Semiclassical

Well, do you know the orthogonality relation for Bessel functions of the first kind?

0celo7

@Lozansky You want a weighted L^2 space is what Semic is getting at

Semiclassical

11:02 PM

Right.

Either that or absorb a factor of sqrt(x) into your basis functions

0celo7

@Semiclassical then they won't be Bessel functions...?

Semiclassical

Indeed not

Lozansky

@Semiclassical What I've come up with so far is that $\{ J_0(\alpha_{0k}r) \}_{k=1}^{\infty} $ form an orthogonal basis in $L_2(r, I)$ with the inner product $\int_{0}^{1} \overline{u(r)} v(r) r dr $

0celo7

oh that's what you meant

Semiclassical

Yep

Lozansky

11:06 PM

Ugh

Semiclassical

Though, is it L^2 in that case?

Lozansky

Yes

Semiclassical