Mathematics - 2020-04-06 (page 1 of 2)

robjohn

12:26 AM

@Knight are you still unclear? (sorry, had to be said)

skullpatrol

1:18 AM

Hi @robjohn

user76284

2

Q: Characterization of V-stages in the absence of foundation or replacement

In the absence of foundation and replacement, we can say that $x$ is an ordinal iff $x$ is hereditarily well-founded (with respect to the relation $\in$) and hereditarily transitive, where $$ \text{$a$ is transitive} \longleftrightarrow \forall x \forall y (x \in y \in a \rightarrow x \in a) $$ ...

robjohn

1:58 AM

@skullpatrol Hey there. Just back from getting a bit of food.

Knight

2:18 AM

@robjohn Hello

robjohn

@Knight good evening (here, at least).

Knight

@robjohn Can we discuss my question?

Please ask which part was unclear

robjohn

@Knight I was making a joke... you asked, "Please ask me if I’m still unclear," so I did.

Knight

@robjohn hahahahaha LOL

robjohn

did you have a question about that still?

Knight

2:32 AM

No! But I’m always ready to learn everybody’s own part

robjohn

Okay. I assumed you knew that there were many such $f$

Knight

@robjohn Matter is that $f$ can have just one property, our aim is to prove the existence of $d$ not $f$

Our aim is “we can find a $d$ for any $f$” (and $f$ have some property which I have described above)

I will call you “Robbie” or “Johnny” :-)

Which ever you like

robjohn

2:51 AM

@Knight that's fine if you enjoy lightning bolts... robjohn too long?

Balarka Sen

4:50 AM

@MikeMiller I suppose inverse limits of Banach spaces are naturally Frechet

Eg $C^\infty(\Bbb R)$ is an inverse limit of the Banach spaces $C^k(\Bbb R)$. The norm of the Banach spaces in each finite stage gives a seminorm and this family of seminorms generate the topology, making it Hausdorff and complete

Countable inverse limit rather

This stuff is so annoying man

Knight

@robjohn Robjohn is your name, I want to give you a friendly name

Leaky Nun

5:10 AM

@BalarkaSen i watched it last night

Balarka Sen

"it"?

Leaky Nun

5:37 AM

@BalarkaSen solaris

Balarka Sen

Oh

Did you like it

Leaky Nun

5:48 AM

@BalarkaSen the concept is interesting but it's a bit too slow and I didn't really understand the movie until I read the plot on wiki

I guess it's a bit 5subtle7me

Balarka Sen

fair. nah, everyone has different tastes

whats your favorite movies

like top 5 if i asked you to name

harsh kumar Chourasia

6:11 AM

life of pi

Knight

6:35 AM

Life of psi

Leaky Nun

interstellar

Balarka Sen

thats a good one

FuzzyPixelz

Can you point me to a proof of the existence of JNF that explains in detail how you would go about finding the form? :P

Balarka Sen

Artin does a good job but you can organize it better if you know a bit about minimal polynomials

Check out Artin I guess

robjohn

8:47 AM

@Knight Rob is mentioned in my profile

VJ123

9:22 AM

@Thorgott Oh that's really neat! And when you say "anything that is improperly Riemann-integrable is also HK-integrable", does that mean there are no restrictions at all? So the function could be non-negative (I've seen this as a condition both in Tonelli's theorem and the corollary of Fubini's theorem for improper integrals)?

robjohn

9:33 AM

@Knight your claim is true if a point $t$ where $f(t)=0$ is greater than $c$.

northerner

10:49 AM

Anyone able to explain how modular arithmetic allowed this step here? math.stackexchange.com/questions/3610966/…

robjohn

11:43 AM

@northerner $100000_2=1_2\pmod{2^5-1}$?

add $10000_2$ to both sides

northerner

$= 110,000_2 \mod{2^5−1} \\
= (10,000_2 + 1_2) \mod{2^5−1} \\$

how are these equal?

maths student

12:24 PM

Compute the number of ordered pairs (m, n) of positive integers such that (2^m − 1)(2^n − 1) | (2^10!) - 1.

Knight

@robjohn Wow! Really ? Please give me the proof

FuzzyPixelz

Just checking some things. If a polynomial $f(t) \in \mathbb C[t]$ annihilates $A:\mathbb C^n \to \mathbb C^n$, then every eigen value of $A$ is a root of $f(t)$ so we can factorize $f(t)=(t-\lambda_1)^{\alpha_1}\cdots (t-\lambda_r)^{\alpha_r}$ where the $\lambda_i$ are the unique eigenvalues.

So by Primary Decomposition we can write $V=\ker(A-\lambda_1 I)^{\alpha_1} \oplus \cdots \oplus \ker(A-\lambda_r I)^{\alpha_r}$. So if we consider $A_i$ the restriction of $A$ on $\ker(A-\lambda_i I)^{\alpha_i}$, its characteristic polynomial is $\chi_{A_i}(t)=(t-\lambda_i)^{n_i}$ where $n_i=\dim \ker(A-\lambda_i I)^{\alpha_i}$ so the characteristic polynomial of $A$ is $\chi_A=(t-\lambda_1)^{n_1}\cdots (t-\lambda_r)^{n_r}$, hence $n_i$ is multiplicity of $\lambda_i$ in $\chi_A$.

So $\ker(A-\lambda_i I)^{l}=\ker(A-\lambda_i I)^{m_i}$ if and only if $l \ge m_i$ where $m_i$ is the multiplicity of $\lambda_i$ in the minimal polynomial $\mu_A$.

Sounds right?

Leaky Nun

@FuzzyPixelz lol it's you again

FuzzyPixelz

You sound surprised

Leaky Nun

last time I used a lot of algebra words and you said you understood none of that :P

@FuzzyPixelz yeah sounds right

FuzzyPixelz

12:33 PM

Yeah module theory, never touched it

topologicalorientablesurface

0

Q: Subbasis for a topology two problems

Problem 1: $\S$ $=$ $\{$ $(a,\infty)$ $:$ $a\in \mathbb{R}$ $\}$ $\cup$ $\{$ $(-a,\infty)$ $:$ $a\in \mathbb{R}$ $\}$ is a subbasis for $\mathbb{R}$ with the standard topology. Attempt: Clearly, $\S$ covers $\mathbb{R}$. I must show that $\tau$ (the topology generated by a subbasis) is the stan...

general-topology solution-verification

Mad Spaces

1:39 PM

Hey guys. I am trying to make mathematica do some equations to me. Can you check why it is not summing the variables in this situation)

How can I order it to sum the values? I am kind of a noob

maths student

1:54 PM

0

Q: Exponential inequality problem

How to solve this inequality $e^{(x-2)}>\frac{1}{x-2}$ ? I tried to plot graph and able to get some bound as answer but not satisfy with the approach ? Anyhow we can convert this problem by substitution that $e^{x}>\frac{1}{x}$ Some help needed?

calculus algebra-precalculus inequality

Mats Granvik

2:12 PM

The usual way is to have your numbers as a list of the form: {1.24, 1.25, 1.27, 1.28, 1.28, 1.29, 1.32, 1.34, 1.4, 1.54} and do operations on it.

But if you don't have that kind of input here is a more advanced way to sort the values and take partial sums.
(*start*)
nn = 10;
x1 := 1.54
x2 := 1.40
x3 := 1.34
x4 := 1.32
x5 := 1.28
x6 := 1.33
x6 := 1.25
x7 := 1.29
x8 := 1.28
x9 := 1.27
x10 := 1.24
a = ToString[Table[StringJoin["x", ToString[n]], {n, 1, 10}]]
b = Sort[ReleaseHold[MakeExpression[RowBox[{a}], StandardForm]]]

notice that you have double x6

Mad Spaces

What does nn represent

Mats Granvik

Just a variable. like n

N is a reserved letter therefore I wrote N

Mad Spaces

I see. Thanks.

Are you familiar with an online Course or a book for Begginers who have not had experience with programming

One guy here actually gave me once a quick guide. Was nice. But it wasn't for beginners.

Mats Granvik

@MadSpaces The Help documentation in mathematica gets you a long way

Mad Spaces

Alright. Well thanks!

Mats Granvik

2:17 PM

x = {1.24, 1.25, 1.27, 1.28, 1.28, 1.29, 1.32, 1.34, 1.4, 1.54}
Sum[x[[i]], {i, 1, Length[x]}]

@MadSpaces

Knight

@MatsGranvik Can I obtain something from this expression $$f^{-1} (x) = f \left( f(x) \right) $$

?

I’m thinking of getting $$f^{-1} (x) = f(x)$$, can I get that?

Mats Granvik

I don't know.

Inverse functions cannot always be found.

Knight

Please help me :)

Mats Granvik

Google surjective injective

And compositions are usually to complicated to solve in Mathematica.

Knight

Okay

Mats Granvik

2:43 PM

Reduce[Sqrt[x] == (x^2)^2, x]
https://www.wolframalpha.com/input/?i=Reduce%5BSqrt%5Bx%5D+%3D%3D+%28x%5E2%29%5E2%2C+x%5D

Knight

What is reduction ?

Mats Granvik

The same as Solve[]

infinity

Hi, does anyone here familiar with Haar measures?

Knight

Oh!

user131753

Please see the following meta post,

user131753

2:49 PM

6

Q: Autofilters for Hot Network Questions

The SE software allows us to request certain regular expressions be automatically excluded from the Hot Network Questions. I was asked by the CMs to make this post on the meta, and include the list. This way the community can express agreement or disagreement, as well as suggest improvements. L...

feature-request status-review featured hot-questions-list

Knight

@MatsGranvik If I have something like this $$f^{-1} (x) = f \left( f(x) \right ) $$ and my claim is the only function that satisfy that property is the identity function. How should I go on for proving it?

After some mathematics we can obtain $$ f(x) = f^{-1} \left ( f^{-1} (x) \right) $$

:)

robjohn

Knight: Let
$$
F(x)=\int_c^xf(t)\,\mathrm{d}t\tag1
$$
and $g(x)=e^{-x}F(x)$, so that $g(c)=0$ and
$$
g'(x)=e^{-x}(F'(x)-F(x))=e^{-x}(f(x)-F(x))\tag2
$$
Since $F(x)=e^xg(x)$
$$
f(x)=F'(x)=e^x(g(x)+g'(x))\tag3
$$
If $f(u)=0$, then $g(u)+g'(u)=0$, which means $g(u)$ and $g'(u)$ differ in sign.

If $g(c)=0$ and $g(u)$ and $g'(u)$ differ in sign where $u\gt c$, $g'(d)=0$ for some $d$ between $c$ and $u$. By $(2)$ that means $f(d)=F(d)$.

Knight

Here comes Robbie

Thank you so much Rob

I think the key step was taking $g(x) = e^{-x} F(x)$, ha?

robjohn

3:44 PM

@Knight if $\omega^3=1$ then $f(x)=\omega x$ also satisfies the equation.

Knight

4:02 PM

@robjohn How you can come up with such a nice form for $f$ ?

robjohn

@Knight you're looking for $f$ so that $f(f(f(x)))=x$, so...

Knight

@robjohn Hahahahaha, I have come up with a solution, you want to see it? Please validate it

Robbie please say you want to see my solution :-(

linda Oiladali

4:17 PM

Hello can someone tel me if the domain is correct: math.stackexchange.com/questions/3600804/…

Tapi

4:42 PM

can someone help me with this: Prove that $p$ divides $ϕ(1+a^p)$, where $a≥2$ is a natural number, $p$ is a prime, and $ϕ$ is Euler's totient function?

robjohn

@Knight why don't you just show it?

Mike Miller

5:33 PM

@BalarkaSen What is the inverse limit of $\Bbb R^n$, where each map is projection onto the first n-1 coordinates

I guess you get $\Bbb R[[x]]$, but with what topology? The family of seminorms are 'norms of truncated power series'

So this is topologized as power series with convergence as convergence on first n terms

Balarka Sen

That sounds right to me

Mike Miller

AKA, pointwise convergence

That sounds like a bizarre space

Ah no it's a standard example.

Let $X$ be a space with a compact exhaustion $\cup_n X_n$. Consider the seminorm on $C^0(X)$ given by $\|f\|_n = \|f\|_{C^0(X_n)}$ --- that is, measure distance on each compact set in the exhaustion

Then $C^0(X)$ with the pointwise convergence topology is still a Frechet space. Just not a Banach space, since functions may be globally unbounded

In the example above $X = \Bbb N$ and $X_n = [0, n]$

Balarka Sen

Makes sense, good example.

Mike Miller

So I guess I believe your inverse limit comment

CaptainAmerica16

@TedShifrin Oddly, I just found out today that some functions don't have inverses... In all of my algebra and calc classes, I've never been given a problem where that was a possibility. It seems obvious now, though.

Mike Miller

5:47 PM

You were definitely given such problems, but probably phrased badly

The map $f: \Bbb R \to \Bbb R$ given as $f(x) = x^2$ does not have an inverse, because $f(-1)=f(1)$

However the map $f: [0, \infty) \to [0, \infty)$ given as $f(x) = x^2$ has an inverse

We restricted the domain and the codomain so that $f$ is injective (restricted to non-negative input) and that $f$ is surjective (restricted to non-negative output)

Balarka Sen

Lame joke, forget I wrote that

CaptainAmerica16

I see what you're saying, it just was never defined that way in the classes I was in. Our "definition" was basically just telling us how to solve for the inverse functions. We didn't really pay so much attention to the restrictions and stuff.

Mike Miller

I'm aware, I'm telling you that many of the examples where people talk about inverses don't actually have inverses

CaptainAmerica16

Ah, ok

Mike Miller

I'm not claiming the phrasing was helpful for you or rigorous and careful :)

CaptainAmerica16

5:55 PM

lol, ok

Well, I get it now. So whatevs I guess

Knight

6:18 PM

@robjohn the question is : Let $f: [0,1] \rightarrow [0,1]$ be a continuous function, such that $$ f \left ( f \left ( f(x) \right) \right) = x$$ is true for all $x \in [0,1]$. Prove that $f$ must be the indentity function

My solution:

It is given that $$ f \left( f
\left (f (x) \right) \right ) = x$$ for all $x \in [0,1]$ .That “for all $x \in [0,1]$” part is very important.

robjohn

@Knight ah, it's a real function, so my counterexample doesn't apply.

Knight

Let’s assume that $f(x) \neq x$(that is $f(x)$ is not an identity function). Now, $f(x)$ is either greater than or less than $f(x) =x$ in some sub-interval of $[0,1]$. $$ f(x) \gt x \\
\textrm{let’s assume that f is an increasing function, well there is no possibility for it to be a constant function, it will either increase or decrease in some sub-interval (that same sub-interval in which it is greater/lesser than x} \\
f \left ( f(x) \right) \gt f(x) \gt x \implies f \left ( f(x) \right ) \gt x \\

Similarly, we can reach the contradiction if we assume $f(x) \lt x$ in some sub-interval, or if we assume $f$ to be decreasing, if it’s decreasing that inequality sign would flip.

@robjohn What was your counter-example? Please see if there is some mistake in my solution or something which needs more clarification

robjohn

@Knight $f(x)=\omega x$ where $\omega^3=1$

Knight

Okay

Why you chose $\omega$ letter? Any particular significance?

@robjohn Please tell me how’s my solution

robjohn

@Knight are you sure that $f$ maps an interval of increase to and interval of increase so that $f(f(x))\gt f(x)\gt x$?

Knight

6:30 PM

@robjohn Didn’t get you

Thorgott

"Now, $f(x)$ is either greater than or less than $f(x)=x$" makes no sense.

Balarka Sen

Inverse of $f$ is $f^{\circ 2}$, so $f$ must be a homeomorphism, therefore either strictly increasing or decreasing on all of $[0, 1]$. It will also have a fixed point by Brouwer fixed point theorem. Then the rest of Knight's argument plays out, I believe.

Knight

@Thorgott I know, I should have written $f$ instead of $f(x)$ in the first part, is that what you’re point at ?

Thorgott

No, simply the $f(x)=x$ part does not make sense, since you just assumed $f(x)\neq x$ in the previous sentence.

And, certainly, $f(x)$ is neither greater nor less than $f(x)$.

Knight

If it is not equal to $x$ then it must greater than or less than $x$ in some interval

robjohn

6:36 PM

@Knight you assume that $f$ is increasing everywhere? if not, what happens if $f(f(x))$ is not increasing?

Thorgott

I think you mean the right thing, but you need to be more precise and provide an argument

robjohn

I would say that the continuity is important, otherwise $$
f(x)=\left\{\begin{array}{}
x+\frac13&\text{if }x\in\left[0,\frac23\right)\\
x-\frac23&\text{if }x\in\left[\frac23,1\right)\\
1&\text{if }x=1
\end{array}\right.
$$

Knight

@robjohn No, I assumed $f$ is increasing in an interval where it is greater than $x$

@BalarkaSen Can we do it without the concepts of homeomorphism? Because I don’t know what it is :)

Balarka Sen

Yeah I was just ranting, you can write up some elementary argument

Don't pay heed to me

Thorgott

You don't need homeomorphy, just continuity + injectivity, but injectivity is crucial

Knight

6:40 PM

Hahahahaha

Thorgott

But continuity + injectivity is equivalent to homeomorphy in this context :p

Knight

WHAT!

Where my arguments made the use of (or just assumed) the injectivjty ?

Thorgott

You're assuming that $f$ is monotonic

Balarka Sen

I'm catatonic about my functions being monotonic

Just gets me everytime, you know

Full panic attack

Knight

@Thorgott in a sub-interval

robjohn

6:45 PM

@Knight does your example work on my counter-example?

Thorgott

Still, it is not clear to me why that would be true

Generally, continuous functions need not be monotonic even in small intervals

Knight

@robjohn I couldn’t understand what that $\omega$ was

@Thorgott My assumption applies to any arbitrary small interval because that condition $f^{\circ 3}$ is true for every $x$. I assumed that $f$ will increase monotonously at least in a some small interval

robjohn

@Knight in that counter-example, $\omega$ is a cube root of $1$, like $-\frac12+\frac{\sqrt3}2i$, but that requires a complex function, not one from $[0,1]\mapsto[0,1]$. I was actually talking about this one.

Thorgott

But why is your assumption true?

Knight

@robjohn Okay

@Thorgott Well I think every continuous function is monotonous at least in a interval (can be small), can you give a counter example as it would help me a lot

?

robjohn

6:52 PM

@Knight There are continuous nowhere differentiable functions that are not monotonic on any interval.

For example, the Weierstrass function.

Knight

Okay! So, my assumption fails there, ha?

Thorgott

$f\colon\mathbb{R}\rightarrow\mathbb{R},x\mapsto\begin{cases}x\sin(1/x),&x\neq0,\\0,&x=0\end{cases}$

Knight

Can I prove that function of mine to be monotonic?

nbro

0

A: Is the derivative of the loss wrt a single scalar parameter proportional to the loss?

The derivative $f'(x)$ is correlated with $f(x)$ in a certain sense. In fact, $f'(x)$ is a function of $f$, so we could even say that there's a cause-effect relationship. The derivative at a specific point $c$ of the domain, i.e. $f'(c)$, can either be negative or positive. If $f'(c) > 0$, then ...

Thorgott

Yes, because it is injective

Leaky Nun

6:55 PM

is this loss?

Knight

@Thorgott How injectivty implies monotonicity?

Thorgott

Exercise: Take an interval $I$ and a continuous function $f\colon I\rightarrow\mathbb{R}$. Show that $f$ is injective if and only if it is monotonic.

nbro

I have a question for you guys, apart from checking that my answer to the following question above is correct

An injective function is a drug addict function?

Leaky Nun

yes

Knight

@Thorgott GOT YOU! It passes the horizontal line test, hence if it goes up it’s gonna continue to go upwards

Thorgott

6:59 PM

I'm not sure what that means

nbro

Knight

@Thorgott If the function is injective then it’s sure that it will cross any horizontal line just once, since it passes it once it cannot come down (else it will cut it once again) hence the only way left for the function is to go on

Upwards

Thorgott

I see, that's not wrong, but, of course, informal

nbro

You will be lost in formality

That should be the title of a film

Knight

@Thorgott How else can I prove monotonicity? (I’m going out of my problem) if that derivative condition is excluded.

Thorgott

7:06 PM

Wait, what derivative condition? None of this has had anything to do with derivatives.

Knight

@Thorgott If the derivative is greater than zero then the function is increasing

What are the other ways of proving the monotonicity of a function?

Thorgott

Proving it by definition

Knight

Please tell me

Ante

and if the integral of it is strictly increasing (with some other conditions) then the function is increasing @Knight

Thorgott

You can't argue by derivative since the function need not be differentiable

Knight

7:11 PM

@Thorgott Yes, that differentibilty shouldn’t stop us :)

Thorgott

If all you want is a solution, Google is your friend

Knight

No solution.

I want to know how to prove the monotonicity. If $$a \lt b \\ then ~~~~~~~ f(a) \lt f(b)$$

Thorgott

Can you prove monotonic => injective

That's the easier direction (and does not even require continuity)

Knight

Yes. I can do that

@robjohn Thank you so much for the friendly talk that we had today. Truly thank you for helping me.

Thorgott

Alright, for the other direction: Hint: IVT

robjohn

7:18 PM

@Knight pleasure

Knight

@Thorgott Okay

I will do that, cya Thor gott

Thanks for helping me

Balarka Sen

Ricci curvature is trace of $T_p M \to T_p M$, $Z \mapsto R(X, Z)Y$ right

The second variation formula says if $\gamma$ is geodesic $dH(\gamma)(X, Y) = \int_\gamma g(X'' + R(X, \gamma')\gamma', Y)$

dimension of kernel of $dH$ measures the multiplicity of conjugacy of the endpoints of $\gamma$

So I wonder if I can swoosh something and get information about the diameter of $M$

Not sure what to swoosh

Take any vector field $X$ along $\gamma$, write it in orthonormal parallel fields as $X = a_i e^i$ and plug it in $dH(\gamma)(X, X)$?

Oh maybe I should take an orthonormal basis of Jacobi fields

$X = a_i J_i$, plugging and chugging gives $dH(\gamma)(X, X) =$ uhhh

$dH(\gamma)(X, X) = \int_\gamma g(a_i'' J_i + 2 a'_i J_i' + a_i J_i'' + a_i R(J_i, \gamma')\gamma', a_i J_i)$

Garbage in garbage out the last bit goes away by Jacobi equation

$\int_\gamma g(a_i'' J_i + 2 a_i' J_i', a_i J_i)$ now what the hell is this nonsense

No this cannot be right

I need curvature term to survive

Yeah I don't have a basis of Jacobi fields vanishing at both endpoints; I don't know the multiplicity

Parallel it is then

I guess I want my basis to be $\sin(\pi t) e^i$. $X = a_i \sin(\pi t) e^i$

$g(-\sin(\pi t) e^i, R(\sin(\pi t) e^i, \gamma') \gamma'), \sin(\pi t) e^i) = \sin^2(\pi t) (-1 + g(R(e^i, \gamma')\gamma', e^i))$

I should sum this crap? $\sum_i g(R(\gamma', e_i)\gamma', e_i)$ is $Ric(\gamma', \gamma')$

That should be $-\pi^2 + g(R(e^i, \gamma')\gamma', e^i)$ by the way

$\sum_{i = 1}^{n-1} dH(\sin(\pi t)e_i, \sin(\pi t)e_i) = 2 \int_0^1 \sin^2(\pi t) ((n-1) \pi^2 - Ricc(\gamma', \gamma'))$

Getting close. If the geodesic was length $c$ it'd be the same formula but $\sin(\pi t/c)$ and $(n-1)\pi^2/c^2$ accordingly. Then having $Ricc(\gamma', \gamma') \leq (n-1)\pi^2/c^2$ would make the integral positive

OK, if $Ricc(\gamma', \gamma') \geq (n-1)\pi^2/c^2$ then the integral is negative so some $dH(\sin(\pi t/c) e_i, \sin(\pi t/c) e_i)$ is negative so $dH$ is semidefinite so $\ker dH$ has stuff in it so $\gamma$ has conjugate points

If $Ricc \geq (n - 1)\pi^2/c^2$ then $diam(M) \leq c$. Bonnet-Myers boom

Cor: If $Ricc$ is bounded below by a positive constant $\pi_1 M$ is finite

Pf: Lift to universal covering where $Ricc$ is also bounded below by the same constant. Universal cover has finite fibers, so rip rip

Mike Miller

8:05 PM

Oh

Pretty cool

Balarka Sen

8:26 PM

$dH$ is weird notation lol I meant $H$, the Hessian

Amin Idelhaj

Damn even after all this time

I log in and then immediately stumble upon some nerds

There's no escape truly

Balarka Sen

@AminIdelhaj get yike'd

Amin Idelhaj

:0

Balarka Sen

you thought you'd see some people having a healthy homological algebra conversation didn't you

maybe talking about grothendieck riemann roch theorem

didn't you

Amin Idelhaj

Actually I'm probably an automorphic forms person now

Mike Miller

8:34 PM

@AminIdelhaj makes sense, what with mathematics and its unusual applicability to the sciences

really, math is just a reflection of the universe

2

Alessandro Codenotti

Hi people

Balarka Sen

@Alessandro it's time to drop it on Mike

do eet

Alessandro Codenotti

I already showed him on facebook

Balarka Sen

oh lol

Amin Idelhaj

What's up Alessandro

Alessandro Codenotti

8:36 PM

Still studying PDEs

Well I'm supposed to let's say

Ante

in what "directions" is binomial theorem generalized?

Balarka Sen

Towards the left, I would say

Mike Miller

$$(x_1 + \cdots + x_n)^m = \sum_{\substack{a_1, \cdots, a_n \geq 0 \\ a_1 + \cdots + a_n = m}} \frac{m!}{a_1! \cdots a_n!} x_1^{a_1} \cdots x_n^{a_n}$$

Balarka Sen

Did you mean $m$ is non-integral, and factorial really means the fractional falling factorial?

Mike Miller

what if $n$ is non-integral

4

Ante

8:41 PM

what would you suggest me to do, because in some elementary considerations i do, i got $$(\sum_{k=1}^{+ \infty}a_k)^w$$

i could do some limiting procedures

w is a natural number

Mike Miller

If there is such a formula it would be given by my expression above, where i don't stop the $a_i$ at $a_n$. However, you probably need to work very hard to guarantee convergence.

I am not gonna think about convergence issues right now

Ante

ok, thanks

Balarka Sen

@MikeMiller Maybe $x_1 + \cdots + x_{p/q}$ will be an "object" in $k[x_i, i \in A]$, which, if you add $q$ other objects of the same "$p/q$" type to it, you get a genuine element of the polynomial ring

So maybe it's some kind of localization, you get my drift?

And then maybe you I-adically complete to get elements like $x_1 + \cdots + x_{\pi}$

Where $\pi = 22/7$

2

Mike Miller

now you're thinking with quantum

Balarka Sen

But the real question is if binomial formula still holds in this adic complete local ring

Mike Miller

8:49 PM

So we know the 0-categorical binomial formula

What's the 1-categorical binomial formula

Amin Idelhaj

@MikeMiller Shift?

Ted Shifrin

Hi Demonark

Amin Idelhaj

Hey Ted, how's it going?

Balarka Sen

I am sure I can prove the binomial formula for $(x_1 + \cdots + x_n)^k$ if $n$ is a Liouville number, but in general it's really a diophantine approximations problem

Ted Shifrin

Still here!

Re a @Balarka, @MikeM

Mike Miller

8:54 PM

Hiya

Hi Ted

Hi @Ted

Hi Demonic

Hey @TedShifrin! Hope you are well!
I worked on the removable singularity problem and came to a solution. I wanted to ask you if you could take a look to double check if it makes sense what I came up with this time?

Amin Idelhaj

What've you been up to?

Balarka Sen

8:57 PM

Surely the categorification of the binomial formula is the construction of the tensor product complex

Why am I still doing this

I should sleep

Alessandro Codenotti

@BalarkaSen I don't know if you should sleep, but you definitely shouldn't be doing this

Balarka Sen

$\Lambda^k V$ does categorify the binomial coefficient

but what's the binomial formula lol

The full exterior algebra categorifies $(1 + x)^n$ I guess

Mike Miller

Well the 0-categorical binomial theorem (in proper context, of course) is an identity for elements of monoidal categories enriched in Ab

So presumably the 1-categorical binomial theorem is about iterated compositions of additive monoidal functors

Balarka Sen

Oh thats actually a good point

It's a formula for compositions of sum of two additive monoidal functors

perfect

So I think in light of Mike's comment the most general all-encompassing "motivic binomial formula" will be a spectral sequence of various compositions at different levels of $(\infty, n)$-functors

Leaky Nun

what are you smoking

Balarka Sen

9:10 PM

I did too much Riemannian geometry

does that explain it

user76284

0

Q: What captures our intuitive notion of faces, edges, and vertices?

This answer suggests that laypeople's intuitive notion of the meaning of these words is consistent with the following claims: A cube has 6 faces, 12 edges, 8 vertices. A cylinder has 3 faces, 2 edges, 0 vertices. A cone has 2 faces, 1 edge, 1 vertex. A sphere has 1 face, 0 edges, 0 vertices. ...

geometry manifolds differential-topology tangent-spaces orbifolds

In case anyone is interested.

Ante

i cannot stand that CH is not yet resolved

Amin Idelhaj

Continuum Hypothesis?

Ante

yes

Alessandro Codenotti

It is resolved, it's independent of ZFC, that's a resolution

Ted Shifrin

9:14 PM

@eigenvalue Hi. Can you summarize what you found out about those $G_i$?

@BalarkaSen definitely no!

Ante

it is not resolved, that just means that ZFC is not enough to cope with it

Leaky Nun

right, yeah, the goalpost should be about 3 feet more to the right, thanks

eigenvalue

@TedShifrin I started with the following Gaussian curvature term (and didn't look at the separate terms, per your advice): $K=-\frac{1}{2}\frac{\frac{\partial^{2}G}{\partial t^{2}}}{tG}+\frac{1}{4}\left(\frac{\frac{\partial G}{\partial t}}{t^{2}G}+\frac{(\frac{\partial G}{\partial t})^{2}}{tG^{2}}\right)=$.

Henceforth I write $G(0,x)$ just as $G_{0}$ in order to simplify the notation and $G^{(i)}$ for $\frac{\partial^{i}G(0,x)}{\partial t^{i}}$. Rearranging the coefficients of all the low powers of $t$ of the above Tylor series expression for $K$ yields

Ted Shifrin

What's wrong with $G_i$??

eigenvalue

For consistency, I just followed the notation I use in the rest my work

Ted Shifrin

9:22 PM

OK, I worked it out as far as $G_1= G_2=0$.

Your formula for $K$ most things drop out, right?

eigenvalue

for t=0, yes most terms drop out (as they are coefficients of a polynomial)

CaptainAmerica16

When proving an iff statement, I don't need to choose a new variable other than x when I start on the converse, right?

Ted Shifrin

I mean the formula you typed with “I am left with”?

So I do not follow why that has to vanish.

eigenvalue

yes, there is only one term left with a 3th partial derivative

To be precise: $-\frac{1}{8G_{0}^{3}}3G_{0}^{2}G_{0}^{(3)}$

Ted Shifrin

With regard to your first question, have you taken complex analysis? Think about Laurent series.

CaptainAmerica16

9:28 PM

Nvrmnd, I figured it out.

eigenvalue

no, no complex analysis. I had Taylor series during my analysis III course... That's why I am not really familiar with all of this

Ted Shifrin

Why isn't $G_3/G_0$ perfectly fine at $t=0$?

Alessandro Codenotti

@Ante And that's a solution, it completely determines what ZFC says about CH

eigenvalue

But with you hinting at Laurent series, I might just check some text books to learn more about this topic

$G_3/G_0$ is indeed fine at $t=0$, but the Gaussian curvature might jump there? How do I know it is actually smooth?

Ante

@AlessandroCodenotti The independence just means this: "Hi Godel and Cohen, would you mind if I try to prove CH?" And they respond with: "You can try, but do not try inside of ZFC."

Ted Shifrin

9:31 PM

Yeah, you need to take some complex analysis. The only singularity here comes from the $t^2$ in the denominator, unless $G_0$ vanishes (which you should analyze after you're done with all this). Once you cancel that out of the denominator, there is no more local issue near $t=0$.

Alessandro Codenotti

@Ante Sure but as long as you want to use ZFC as your axiomatic system "CH is independent" settles it

Ted Shifrin

Is the formula for $K$ valid for all $t$? Of course, for smoothness you need higher terms too ... are you assuming the metric is real analytic, I assume, so it is given by its Taylor expansion?

Ante

@AlessandroCodenotti It does not settle it, it shifts it to another domain.

Amin Idelhaj

Which domain?

Alessandro Codenotti

There is no other natural domain

People have tried to come up with somewhat natural extensions of ZFC that settle CH, set theorists like the proper forcing axiom which implies $\mathfrak c=\aleph_2$ for example

Leaky Nun

9:36 PM

and Godel's first incompleteness theorem tells you that you will always have independent sentences

eigenvalue

Yes, the formula is defined for all $t$. I have to assume the formula is real analytic to have a Taylor series. So I just made this assumption to make my life easier. Not sure if there is any other useful way to deal with the singularities.

You say " for smoothness you need higher terms too". Where can I read/lern more about the reasoning for this statement? Would that be covered in the "complex analysis" I still have to look into?

Ted Shifrin

No, it's just coming from all the powers of $t$ in your computation. We don't know off-hand if it converges for all $t$, but you're interested only near $t=0$. Still not clear that the power series converges for $|t|<\epsilon$. YOu need to talk to your adviser about what he expects you to do.

eigenvalue

@TedShifrin OK. Thank you for all your input and feedback! You have no idea how helpful you have been!
Once my advisor surfaces again, I will try to talk with him about further details. Will use the time being to look into the topics you mentioned.

Ted Shifrin

Cool, and keep me posted. You can say thank you in a footnote to your thesis and email me a .pdf :)

eigenvalue

9:52 PM

I certainly will do that :-)... I am still far from being finished, though. so you will have to be patient. And most likely I will get on your nerves again here in the chat sometime in the future (before I finish my thesis).

For now, please be safe and stay healthy!

Ted Shifrin

I will soon be back to my computer and desk.

You Too!

@Captain: You certainly saw (perhaps did not absorb) in precalc and calc that $f(x)=x^2$ has no inverse until you limit its domain, and similarly with the trig functions.

CaptainAmerica16

@TedShifrin You're probably right. Pre-calc was a blur

Ted Shifrin

And I always beat it to death in calculus, too.

CaptainAmerica16

pfft, my calc class was trash

I basically taught myself

Ted Shifrin

10:12 PM

You should have taken my AoPS class :)

CaptainAmerica16

I wish I had