Mathematics - 2021-04-10 (page 3 of 3)

5:04 PM

I think that too much precision might obscure the general idea for people just trying to grasp this for the first time. I think that many-to-one gets the idea across as does many-to-one.

leslie townes

in my own early education there was far too much emphasis on relations that weren't functions. i blame underfunded public schools with a stockpile of textbooks from the 1960s.

robjohn

Yeah, they wanted to differentiate the two and overdid it. functions are not so hard to grasp.

leslie townes

the beginning of the textbook would have one or two pages with the list of students names who had used it. sometimes you'd find your teacher on there.

robjohn

@leslietownes well, you don't have to worry if they know the book...

leslie townes

i was randomly issued the same algebra 2 book that my sister had used. i had better luck with it.

my sister almost didn't graduate high school. she couldn't pass geometry. her teacher just made up a C so she could graduate. i think about that sometimes.

soupless

5:12 PM

@MoneySetsYouFree Are these called mapping diagrams or not?

leslie townes

that's a good name for them. i'd just worry that if a student were told a name they'd google it and find something different and maybe adopt the wrong guidance. better to just specify the form.

soupless

That is what we are told to, so I asked if it really was, but it seems that it shouldn't be

barista

1

A: Show the ring is isomorphic to $k[x]$

Here's the part about the kernel. First recall that if $A$ is a domain, $A[y]$ is the polynomial ring in the indeterminate $y$, and $f \in A[y]$ is a monic polynomial, then you can do Euclidean division by $f$ in $A[y]$. Apply this to $A = k[x]$, and $f = y - x^{2}$. If $g \in \ker(\phi)$, divide...

Could someone explain this answer? He did Euclidean division with two variable but I've only done in one variable polynomial

Ted Shifrin

5:29 PM

He's applying the division algorithm in only one variable, $y$, treating elements of $k[x]$ as constants. What in particular do you not understand?

@MoneySetsYouFree You could call this a "mapping diagram."

barista

I just understood what he said I just confused

Ted Shifrin

Well, I cannot read your mind.

@leslietownes Oy.

leslie townes

did i say something stupid again?

i mean, i know the answer is yes, but particularly stupid?

Leaky Nun

@barista division algorithm works in general if the divisor is a monic polynomial in any ring

y-x^2 is a monic polynomial in y with coefficients in k[x]

Ted Shifrin

@AshishAhuja Perhaps someone else said this. I understand the transpose to be defined by the fundamental formula $$\langle Ax,y\rangle = \langle x,A^\top y\rangle,$$ where the inner products may be in different spaces. I.e., if $A$ is $m\times n$, the first one is in $\Bbb R^m$ and the second one is in $\Bbb R^n$. Using this, you can get that formula as follows:

$$\langle (AB)x,y\rangle = \langle A(Bx),y\rangle = \langle Bx,A^\top y\rangle = \langle x,B^\top(A^\top y)\rangle = \langle x,(B^\top A^\top)y\rangle.$$

Did you look to see where the arrow led you, @Leslie?

leslie townes

5:37 PM

no, as a rule i do not.

Ted Shifrin

Well, let that be a lesson to you.

Astyx

hi chat

Ted Shifrin

Hi @Astyx!

soupless

@TedShifrin wait what is happening

leslie townes

my grandfather's last words, just before they sprung the trap, were "you can’t cheat an honest man. never give a sucker an even break or smarten up a chump"

soupless

5:39 PM

or maybe not. I probably should ignore that

Ted Shifrin

@soupless Are you talking about anything?

soupless

Nope. I asked and now I am not

Ted Shifrin

OK. Just as I suspected.

Money Sets You Free

@TedShifrin no. It is not called as a mapping diagram because not every relation is a mapping.

Ted Shifrin

OK, just a suggestion.

Money Sets You Free

5:50 PM

Arror diagram maybe

arrow

leslie townes

i do not have strong feelings in this area, it all seems slightly arbitrary. consensus appears to be that there's no 'standard' name.

anakhro

6:16 PM

Are we arguing? I want in on all the fun.

Oh those diagrams.

Most common name I have seen used are "bubble diagrams".

Which only makes sense if the context of "relations" is sufficiently clear.

feynhat

Hi @TedShifrin.

Ted Shifrin

I ain't doin' no arguing.

Hi, @feyn

Tangoed

Hello everyone. I would like to learn some applied category theory and I've found two books: An Invitation to Applied Category Theory by David Spivak and Brendan Fong, and Category Theory for Scientists by David Spivak
Anyone know either of these?

feynhat

6:31 PM

I had a question about grad school admission.

Ted Shifrin

The answer may depend hugely on in what country and what school, but go ahead.

Mike Miller

@TedShifrin I was just thinking about this. To me, the transpose is defined by (A^T)_{ij} = A_{ji}, so your formula v * Aw = A^T v * w requires proof. The most straightforward proof I know starting from that definition is to prove the formula (AB)^T = B^T A^T --- which comes down to symmetry of the dot product, as you can compute the ij'th entry to be (i'th column of B) * (j'th row of A) on one side and (j'th row of A) * (i'th column of B) on the other. Then your formula follows.

Ted Shifrin

Oh, hey, stranger.

Mike Miller

Let me try to understand your approach.

Hi!

feynhat

I got an offer from a Canadian school in early March. They only gave me two weeks to decide. (Most Canadian school don't adhere to the 15th April agreement like the US schools). Since I didn't have any other offer at that time (except a bunch of waitlists), it felt like the best bet was to take their offer (considering that this year has been unusual with many schools cutting down their intake). But last week I received an offer from a US school, which I really like.

Ted Shifrin

6:37 PM

Yes, of course, but for conceptual reasons, what I said is the right thing (it's the most useful property and generalizes, of course, to functional analysis).

feynhat

How bad would it be to turn back on this Canadian school?

Mike Miller

OK, I agree.

I presented it the way I outlined above but emphasized that the point is that formula, use that formula repeatedly, and asked them to prove that formula characterizes the transpose on a HW.

Ted Shifrin

But your row/column argument is what I have in the linear algebra book, I'm pretty sure, @MikeM. I then deduce Ted's favorite formula (that formula) from the observation that $x\cdot y = x^\top y$.

Mike Miller

Or rather asked them to show that Av * w = v * Aw implies A is symmetric, which amounts to the same observation.

That's what I did too yeah

Ted Shifrin

@feynhat People do less-than-ethical things all the time. I have known young mathematicians who delayed a postdoc for a year, promising to go for 2-3 years a year later, and then reneged completely when something better came along. I personally think that showed a bad character defect. But people do stuff to make things better for themselves. I'm sure you would not be the first.

And, honestly, the Canadian school is giving you only two weeks to force you into a decision that may not be optimal for you.

Mike Miller

6:41 PM

But let's take your approach seriously. First, one needs to justify that for fixed v, v * Aw is a linear function of w. This is clear enough from linearity of A and bilinearity of the dot product. Then you need to justify that every linear function of w is given by dot with a unique vector u. Straightforward. Then define A^T v by your formula above: it is the unique vector so that v * Aw = A^T v * w. OK. T

Then linearity follows by manipulating the LHS, and then the formula follows by considering v = e_i, w = e_j. Great.

This probably takes 10 minutes longer than I'd like it to and IMO at most three people would like a definition like this in this class, but I do like it as a mathematician.

I'm glad the proof you gave of (AB)^T = B^T A^T is not circular, since I like that proof.

Ted Shifrin

My point is that throughout my linear algebra course the dot product formula gets used dozens of times. Of course, we want the students to be able to transpose a numerical matrix.

But it's in keeping with my emphasis on geometry to make that formula important :P

feynhat

I did try to convince them to extend the deadline. But the person said that he really needs a grad student this fall and if he extended the deadline to say 15th April and I turn down their offer then he wouldn't be able to find a student that late.

Ted Shifrin

@feynhat Oh, there's a particular person you're committing to work with? That's highly unusual in mathematics (quite usual in lab sciences).

leslie townes

ted is speaking my language.

Ted Shifrin

Well, it affects your life more than it ultimately affects his, so I say you should go with what you prefer for your professional development. Be warned that this guy might badmouth you if he's an immature ass.

We should ask Leslie to pontificate on immature asses in academia.

leslie townes

6:46 PM

it's really weird, in the non-lab sciences, to have to deal with that. and i have no patience for it even when it is normal.

feynhat

The Canadian program is 4 years long and yes I have committed to an advisor

Ted Shifrin

In my experience (both with undergraduates and particularly with graduate students) such commitments are not a good idea. Often one's interests change, or one finds out the field is not a good fit. And even more often, the adviser turns out to be incompatible with you.

feynhat

(which is why I am even more wary of turning back)

Ted Shifrin

I lean 80% to changing to the American option if the school and program are in fact stronger.

Mike Miller

Sure, I agree it is the point, just as if [x]_beta means the coordinate expression with respect to a basis beta, the point of the matrix A expressed w/r/t basis beta is A_beta [x]_beta = [Ax]_beta.

leslie townes

6:48 PM

think about yourself and take care of yourself.

Mike Miller

Though this one is more definitional.

anakhro

@feynhat does the advisor seem like someone you'd want as an advisor?

Ted Shifrin

@MikeM: By calling it "Ted's favorite formula" in my multivariable math class, I insured that my students never forgot it. Of course the truth is that Stokes's Theorem is truly Ted's favorite "formula." :D

anakhro

Sounds a little pushy and not human.

Ted Shifrin

Not to mention self-serving.

Maybe my 80% leans to 90%.

leslie townes

6:51 PM

it's an exercise in rebranding. a generation of students will think of ted and not of the progenitors.

anakhro

Ted is turning students against the system

"No more Euler!", they will shout, "down with Gauss!"

Ted Shifrin

@Leslie: It's not like that adjoint formula has a classical name attached to it. :P

leslie townes

if i ever teach again i'll call it ted's favorite formula.

Ted Shifrin

LOL ... I don't think in a million years with all my students piled together I've earned the points of Gauss.

anakhro

Ted, on a scale of -10 to -100, how much do you enjoy computing integrals on Riemann surfaces?

Ted Shifrin

6:52 PM

LOL, @Leslie; make sure to give me royalties. Or I'll sue.

feynhat

@anakhro I mean, its very hard tell based on an interview and a couple of other zoom calls whether or not I would like him. But I have spoken some of the students at his school and they all have very positive things to say about him. (But they do tell me that he has very high expectations from his students).

anakhro

I'm right now floating at a solid -75

Ted Shifrin

@anakhro One hardly ever truly "computes."

leslie townes

we'll pass a collection plate and send it to you. it may be in coins.

Ted Shifrin

Other than in complex analysis courses (applying the residue theorem on the R.S.).

@feynhat I think having high expectations is not a "but" but a strong plus.

I lower my 90% back to 80%.

anakhro

6:53 PM

@feynhat I wonder if I know him.

feynhat

@TedShifrin Yeah, i thought so too. That 'but' was sort of carried off from the tone of those students.

Ted Shifrin

That said, some of my colleagues told their advisees not to take graduate courses from me because I expected too much work (like actually doing 10-15 homework problems over the course of the semester).

anakhro

10-15 sounds like so very few, though

leslie townes

imagine that.

that's downright dickensian.

anakhro

My courses have a problem set every week of 6 problems.

leslie townes

6:56 PM

that's what they had david copperfield doing until he broke out of that system.

i forget the name of the guy. the monster who ran the bottle factory. i guess i don't forget his name, it was ted shifrin.

Ted Shifrin

In advanced courses, I didn't really expect them to do 6 problems every other week, so I made compromises. At UGA the custom was to give automatic A's in advanced courses so that 5 students would enroll and the course would run. I refused to do that. I said I'd give an automatic B if they attend every class, but that an A had to be earned.

smacks @Leslie

feynhat

@anakhro UWO?

anakhro

@feynhat I won't know him in that case.

Ted Shifrin

OK, disappearing, now that I got no commitment to royalties.

anakhro

I can only think of one person at UWO. Dan Christensen

feynhat

6:59 PM

Yeah, he interviewed me too. Cool guy.

anakhro

Oh, and Kapulkin.

feynhat

Kapulkin is the chair of Graduate Program.

See how many people I will be upsetting.

anakhro

I had a friend who did his M.Sc. there.

It's okay, UWO doesn't deserve a golden fellow such as yourself. Stick it to them.

feynhat

lol no. I actually like these people.

I don't even know if I want the other offer. Who knows maybe if I had both the offers at the same time, I probably would've went for UWO.

But I didn't, and now I feel a bit cheated.

Hey @MikeMiller.

You live in NYC right?

anakhro

Most people don't actually live in NYC, but are in a constant state of perpetual death.

Mike Miller

7:13 PM

I do

anakhro

Mike traded smokey California for smoggy NYC.

feynhat

Cool.

My sister will start her PhD at NYU this fall.

(well she was supposed to start last year but 'rona happened)

anakhro

Is she mathy, too?

feynhat

No. Psychology.

that didn't come out right.

anakhro

It's okay, I never saw.

Mike Miller

7:21 PM

I hope she enjoys her time here. That's a very different part of the city than I am in. Busier.

geocalc33

7:32 PM

is it possible for $\int_a^b f(x) dx$ to have a closed form but $\int_a^{b/1.001} f(x)dx$ to NOT have a closed form?

leslie townes

that's an interesting question. frequently when the bounds are infinity, that's needed to get anything 'closed' (not speaking formally). with finite bounds it seems similarly possible but i don't know an example.

it's just, certain definite integrals are nice numbers and others aren't. but i don't have an example. i'm thinking of one.

Mike Miller

@leslietownes Just transport one of your examples

leslie townes

well there's stuff with e^(-x^2) for example, but in my example b is infinity so b/1.001 is also infinity.

Mike Miller Eismeier

$$\int_{b = -\pi/2}^{a = \pi/2} e^{-\tan^2 u} \sec^2 u du = \sqrt{\pi},$$ now good luck computing this for $a \in (0, \pi/2)$

that's why i said transport

leslie townes

you have identified a very good example.

i'm quite dumb. don't let my repartee fool you, i can't think myself out of a paper bag.

anakhro

7:38 PM

If you live in a paper bag, it's not all quite so bad.

leslie townes

i live in a house, although the mortgage payments on a paper bag would be preferable.

anakhro

Water damage leaves it quite soggy, so you'd rather live somewhere dry.

geocalc33

very interesting...

anakhro

@geocalc33 how have you been? What zany stuff have you been up to lately?

feynhat

7:54 PM

Thanks for the advice @Ted. I don't know why I was expecting that you would tell me to stick with my decision.

geocalc33

@anakhro Trying to do a complexification of $\Bbb R_{>0}$

also asking robjohn to make a weird torus

anakhro

@feynhat it's a long time and a lot of money to blow on something which could have been resolved (on their end) if they were a tad kinder.

@geocalc33 what are your vector space operations? x+y := xy and cx = x^c?

geocalc33

8:11 PM

@anakhro yeah

apparently the elements in the complexification could be: $e^1 \otimes (a + bi)$ but I don't get it

anakhro

Well you can look at it purely formally just as the tensor product. So the vectors will all look like (sums of) $x\otimes\lambda$ for $x>0$ and $\lambda\in\mathbb C$.

What is troubling about the complexification for you, @geocalc33?

geocalc33

I guess I understand how to plot $(a+bi)$ but I don't know how to understand $e^1 \otimes (a+bi)$

@anakhro could you explain it differently?

robjohn

8:32 PM

@TedShifrin I was going to mention that we have the complete set of Father Ted DVDs

@MikeMillerEismeier It is not too hard with $\mathrm{erf}$

anakhro

@geocalc33 Are you familiar with the tensor product?

(e.g. this one is of vector spaces, so it's extra nice)

robjohn

I prefer calmer products

geocalc33

@anakhro it's sort of like the cartesian product

you multiply vectors and then put them into a big list

@anakhro math.stackexchange.com/a/4079800/460999

SAJW

8:54 PM

Can a Monte Carlo simulation act as a proof? (for non-trivial questions)

HereToRelax

@SAJW it can for me

But not for most people

I guess it also depends on the problem itself

SAJW

answer #1 from this topic stats.stackexchange.com/questions/136806/…

"We can run a Monte Carlo simulation to prove it:"

HereToRelax

I think the hooman just means, "to make sure I didn't make a dumb mistake somewhere"

geocalc33

@robjohn $\int_0^1 \exp\big(\frac{1}{\log x}\big) dx$ has a closed form I know. Do you know if $\int_0^a \exp\big(\frac{1}{\log x}\big) dx$ has a closed form for any $0<a<1$?

SAJW

Ah ok, was just wondering^^

HereToRelax

8:58 PM

The stuff at the start is the actual proof

SAJW

Yeah because that I found it confusing

robjohn

@geocalc33 At first glance, I'd say no, but I'd have to give it more than a glance.

robjohn

9:18 PM

@geocalc33 The closed form for $[0,1]$ is in terms of Bessel functions. I don't think the indefinite integral has a closed form.

Tangoed

9:37 PM

Hello everyone. I have not been introduced to algebra yet, and I'm considering Aluffi's "Algebra Chapter 0", but I'm not sure if the cat theory approach will help me when I actually attend algebra classes. Any thoughts? This way I learn cat theory alongside algebra so it's a win-win

SAJW

Hi, I'm a little rusty in arguing. Why is it clear that $e$ is finite in this top answer math.stackexchange.com/questions/364038/… ? Because the probability to get heads is not infinitely small (or 1 for the other).

HereToRelax

I think you can prove it by showing that the probability you don't get it in $k$ tries is less than $\alpha^k$ for some $\alpha<1$. So the expected value is bounded by a geometric series.

I think the expected value is $1 + \sum\limits_{i=1}^n p(i)$ where $p(i)$ is the chance you don't get it in the first $i$ tries.

To be completely honest I don't think proving it is finite is that much easier than actually solving it.

SAJW

Love those "it's obvious that..." sentences :D

leslie townes

i'm always sure, but i'm not always right

HereToRelax

I think saying that that part is clear is necessary so that the proof is dope

and who doesn't want that

SAJW

9:48 PM

To be honest the only part I get is how to solve for $e$ in that one.

HereToRelax

yeah there is a lot of proofs for calculating expected values of stopping times

where you assume it exists and solve an equation

Avra

Hello,

Any body familiar with Neyhman-Pearson Lemma?

I have a question about one of the conditions of the Lemma

robjohn

@SAJW Andre gives an argument in the comments, but in my answer to that question, there is no such assumption.

Avra

Let $ \pi _0,\pi _1 $ be two populations with probability distributions say $ f_0,f_1 $ (with measure $ \mu $ ). Then for testing $ H_0:f=f_0 $ against $ H_1:f=f_1 $ , we can define a test $ \phi $ with a constant $ k $ such that the expectation of the test under the null hypothesis $ H_0:f=f_0 $ denoted as $ E_0 $ is,
$ E_0\left[ \phi \left( x \right) \right] =\alpha $ (level of significance) (‎9.5)

and,
$ \phi \left( x \right) =\begin{cases} 1& when\ f_1\left( x \right) >kf_0\left( x \right)\\ 0& when\ f_1\left( x \right) <kf_0\left( x \right)\\ \end{cases} $ (‎9.6)

HereToRelax

Yes, that is the solution my olympiad students came up with last week @robjohn

Avra

10:01 PM

Casae#1: when $ 0<\alpha <1 $ . Let us define a quantity $ G\left( c \right) $ as,
$ G\left( c \right) =P_0\left\{ f_1\left( x \right) >cf_0\left( x \right) \right\} $
where $ P_0 $ is under $ H_0 $ . Since $ G\left( c \right) $ is computed when $ H_0 $ is true, so the inequality need to be considered only for the set when $ f_0\left( x \right) >0 $ ,
$ P_0\left( \frac{f_1\left( x \right)}{f_0\left( x \right)}>c \right) $

robjohn

@SAJW But $E(X)$ is not the same as the expected duration until 5 in a row...

@HereToRelax wait, which solution?

Avra

The inequality here needs to be true when $f_0(x)$ >0, any hint why please?

HereToRelax

the one you posted

robjohn

@HereToRelax Ah, good. That one I like ;-)

HereToRelax

the one where you get a hypergeometric series

robjohn

10:05 PM

@Avra You know you can use $...$ and not take up so much vertical space?

using $$...$$ is so space intensive

Avra

@robjohn. I apologize, but my software automatically adds that!

robjohn

which software?

Avra

AxMath

robjohn

change the $$s before you enter it here, please

Avra

Sure. Thanks for letting me notice

robjohn

10:07 PM

it is also harder to read when it is short sentences so spread out

Avra

I was going to ask on the forum, but the question is not worthy as it's one point about the condition.

geocalc33

@robjohn does Mathematica tell you about a closed form for $\int_0^{1/e} \exp\big(\frac{1}{\log x}\big) dx$? Wolfram alpha doesn't say anything

Avra

So, I will try to break the question into smaller piece. If $
G\left( c \right) =P_0\left\{ f_1\left( x \right) >cf_0\left( x \right) \right\}
$, then could you please explain why $1-G(c)$ is a CDF?

robjohn

@geocalc33 Yes, Mma gives the answer in terms of A Bessel function of the second kind

@Avra When $x\to-\infty$ it gives $0$ and when $x\to\infty$ it gives $1$

Andrew Micallef

So if you are working through problems in a textbook aimed at an undergrad audience and wind up with some nasty to resolve algebra, that is usually a hint you made a mistake?

robjohn

10:21 PM

@Avra: I have edited your previous comments to remove the $$s

Avra

Thanks

geocalc33

@robjohn thanks could you tell me what that answer is if you have time?

otherwise I can ask on the site

robjohn

@geocalc33 $2K_1(2)$

where $K_1$ is a modified Bessel function of the second kind

geocalc33

@robjohn that's for bounds 0,1

I was asking about 0,1/e

robjohn

@geocalc33 No closed form. Numerically: $0.20753352343482877323$

ISC gives nothing (as per usual)

geocalc33

10:31 PM

I think I have to integrate in a different way

robjohn

@geocalc33 Do you think it has a closed form?

geocalc33

@robjohn maybe. If you slice the function by y=x then it halves the total area, which we know to be $K_1(2).$ Then the integral of x from x=0 to x=1/e is equal to 1/(2e^2)

then it follows that $\int_{1/e}^1 \exp\big(\frac{1}{\log x}\big)dx=K_1(2)-1/(2e^2)$

So I know that it has a closed form for x=1/e to x=1

not sure about other intervals

So I suppose that by symmetry there is a closed form for the interval 0,1/e

and that closed form is $K_1(2)+1/(2e^2)$

which agrees with your numerical results

robjohn

10:53 PM

@geocalc33 Since the integral over $[0,1]$ is $2K_1(2)$, that would indicate that the integral over $[0,1/e]$ would be $K_1(2)+\frac1{2e^2}$, which indeed does match the numerical result.

geocalc33

nice! we out computed Mathematica and Wolfram alpha

Andrew Micallef

@robjohn TIL your mathjax bookmark renders unrendered Tex when printing in firefox

example incoming

before chatjax:
https://i.imgur.com/2kshxyn.png

robjohn

@AndrewMicallef Better for that is the "render MathJax" bookmark. It doesn't start an unnecessary loop.

Andrew Micallef

after chatjax
https://i.imgur.com/jLPWfm5.png

noted, though I don't have that bookmarked :P

robjohn

@AndrewMicallef well, the extra overhead is not that much

but it will check every second to see if that page needs to be re-rendered.

Andrew Micallef

11:00 PM

anythoughts on why some renderers handle this expression but others dont (with jupyters mathjax renderer, and yours two I see latex, but when I export as html it gets garbled):

$$A^2\frac{a}{3}
+ A^2 \left[-\frac{ab^2}{a^2 + b^2} +\frac{4b^3}{3(a^2 + b^2)} +\frac{a^3}{3(a^2 + b^2)}\right],
$$
and try to simplify further
$$A^2 \left[ \frac{a}{3} -\frac{ab^2}{a^2 + b^2}
+\frac{4b^3}{3(a^2 + b^2)} +\frac{a^3}{3(a^2 + b^2)}
\right],$$

chatjax didn't mind that I see

exporting html: i.imgur.com/tkW4aFD.png

robjohn

The backslashes might confuse something

Ah... the $s are getting muxed somewhere

Andrew Micallef

yeah, I guess I should leave it anyhow, the expression looks too complicated to be a correct answer anyway :P

robjohn

The first and last $$ are not being used

Andrew Micallef

yeah the text in between is getting rendered'

may try reformatting and see if that helps

robjohn

yes, it is getting surrounded by the $$ in between the two that are not being used

Andrew Micallef

11:05 PM

progress of a kind

robjohn

The bullet might be breaking things up too much

Or the + is being changed to a bullet

what program are you using?

Andrew Micallef

hmm seams the md renderer takes precedence

I had it formatted as
$$
+ equation
+ equation
+ equation
$$

fixed it by putting it all on one line

robjohn

and + at the beginning of a line becomes a bullet?

Andrew Micallef

I'm using jupyter and exporting to html

yeah

robjohn

so fixed?

Andrew Micallef

11:08 PM

the + at the begiining becomes a bullet and it just ignores the opening $$

fixed

robjohn

nice

Andrew Micallef

still looks like a horrid eqiuation though, but a nicely formatted one at least

robjohn

Let me edit the one above to show you something...

there

@AndrewMicallef Look at your equations above. Look better?

vitamin d

Hello! Small question: I saw this answer today on MSE. I was wondering if we can apply the same proof but $f(mx)$ as well as $g(mx)$ are $f(x^{1/m})$ and $g(x^{1/m})$.

Andrew Micallef

huh?

robjohn

11:11 PM

11 mins ago, by Andrew Micallef

anythoughts on why some renderers handle this expression but others dont (with jupyters mathjax renderer, and yours two I see latex, but when I export as html it gets garbled):

$$A^2\frac{a}{3}
+ A^2 \left[-\frac{ab^2}{a^2 + b^2} +\frac{4b^3}{3(a^2 + b^2)} +\frac{a^3}{3(a^2 + b^2)}\right],
$$
and try to simplify further
$$A^2 \left[ \frac{a}{3} -\frac{ab^2}{a^2 + b^2}
+\frac{4b^3}{3(a^2 + b^2)} +\frac{a^3}{3(a^2 + b^2)}
\right],$$

Andrew Micallef

right and left braces?

huh nice

I've just been throwing around \big on everything from time to time

ie : A^2 \Big[ \frac{3 b^2x + x^3}{3(b^2 + a^2)}\Big]_a^b

$$A^2 \Big[ \frac{3 b^2x + x^3}{3(b^2 + a^2)}\Big]_a^b$$
vs
$$A^2 \left[ \frac{3 b^2x + x^3}{3(b^2 + a^2)}\right]_a^b$$

@robjohn thanks \left \right look way nicer

more text based procrastination ensues

looks like color coding everything wasn't a total waste of time,
I found my mistake...

Andrew Micallef

11:35 PM

@robjohn one more thing. So before I got distracted by rendering mathjax I was trying to solve this integral:
$$\int\limits_{a}^{b}{\left(\frac{A(b-x)}{(b-a)}\right)^2}dx$$
(which in turn is part of an expression $C + I = 1$, where $C$ is real constant a value I have already computed and $I$ is the above integral)

So I made a mistake expanding out the integrand, which I know realise is:
$$
A^2 \frac{b^2 -2bx + x^2}{b^2 -2ab + a^2}
$$

As far as next steps go, my instinct is to split this up in order to make it easier to integrate, and I think I just answered my own question before asking it

HereToRelax

What is the correct method to post a psq when you are pretty sure all your ideas are trash?

Andrew Micallef

what's a psq and why are your ideas trash?

HereToRelax

Well, not trash

just not useful for the problem

Andrew Micallef

what is the problem?

HereToRelax

I don't have one right now

but I can give you an example where it most likely happened

Andrew Micallef

11:38 PM

ok

HereToRelax

3

Q: Is the set of integers so that $n!+1$ divides $(2012n)!$ finite or infinite?

I am having trouble with this problem. We have to determine whether the set of integers such that $n!+1$ divides $(2012n)!$ is finite or infinite. Basically we have to determine if the prime factors of $n!+1$ are small enough for a finite or infinite number of integers, but I have not been able t...

for example here

I had no idea what to do

Or more recently here

0

A: Sum of all elements in finite subgroup of matrices is $0$ if it has trace $0$.

Let $S=\sum\limits_{i=1}^n A_i$. We have $A_iS=S$ for all $i$. To see this notice $A_iS = (A_iA_1+ \dots + A_iA_n)$, and because the set of $A_i$ is a group this just gives us a sum for the elements of the group in a different order. In particular $S^2 = A_1S + \dots + A_nS = nS$. It follows $S^2...

I once crafted a math contest mock test that contained it and I graded it for like 20 students

Half of them left the problem blank

Because most of the stuff people come up with is useless

that's just the way the problem is.

Well, at least that dude proved it had to be a subgroup of GL_n

Andrew Micallef

I got nothing, both of those questions and your explaination contain too much that I don't understand

HereToRelax

My main point is that a lot of people want to post a question but don't know how to aproach it

So the current requirement is that you post your life story or something

Hello, I was recently in my classroom and my professor gave us this assignment, I currently own this book and it has polynomial in it's name, so I guess that may be useful, kind regards.

And if you don't do that you get dunked on

Andrew Micallef

Isn't the point to determine what level someone is coming from though?
Like if you don't put that stuff you get answers written by people who use way too much specific jargon that aren't really super usefull because you have no idea how to do integration by parts

HereToRelax

But that's something that helps the person who posts the question

If you add context you can avoid that happening and get better solutions

Like the current situation is that if you don't do that your question gets downvoted and closed

Like for example, the question that I just answered on $GL_n$ already has two delete votes

Andrew Micallef

11:48 PM

your qesution was closed because of duplication...

is it not a duplication?

(I can't tell both questions use symbols I don't know the meaning of)

HereToRelax

Which one?

Andrew Micallef

0

A: Sum of all elements in finite subgroup of matrices is $0$ if it has trace $0$.

Let $S=\sum\limits_{i=1}^n A_i$. We have $A_iS=S$ for all $i$. To see this notice $A_iS = (A_iA_1+ \dots + A_iA_n)$, and because the set of $A_i$ is a group this just gives us a sum for the elements of the group in a different order. In particular $S^2 = A_1S + \dots + A_nS = nS$. It follows $S^2...

6

Q: Finite multiplicative group of matrices with sum of traces equal to zero.

Let $G=\{M_1,M_2,...,M_k\}$ be a finite set such that $ M_i\in M_n(\mathbb R)$ and $(G,\;\cdot\:)$ is a group with matrix multiplication. If $\sum _{i=1}^k \operatorname{tr} (M_i)=0$ then how to prove $\sum _{i=1}^k M_i=0$ ?

linear-algebra matrices group-theory contest-math

HereToRelax

Oh, it got closed for lack of context

But I guess someone found a duplicate after that

By the way the initial post is even more psq than the recent one

Andrew Micallef

yeah I can't parse either

HereToRelax

Because in the original one the group condition is given explicitly and in the new one it is deduced

Andrew Micallef

11:50 PM

which is why I need you to tell me if they are actually duplicates

HereToRelax

Yeah they are pretty much the same thing

But the question didn't get closed for that reason

The new one is definitely a dupe of the old one.

Andrew Micallef

good point

maybe the guidlines were not imposed so stringently 7 years ago

HereToRelax

7 years ago this site was awesome

Andrew Micallef

anyway I should get back to my homwework

HereToRelax

I was 15 and I posted a bunch of garbage and everyone treated me super nice

I learned a lot

Andrew Micallef

11:52 PM

I feel like both questions could be improved by more context though. I have no idea what they are talking about :P

HereToRelax

I don't really know what I could have added to the one I posted in 2015

I don't know what just happened

Andrew Micallef

fixed font happened

I don't know either, maybe it just wasn't interesting enough to pique anyones interest at the time

HereToRelax

Oh I was just commenting about it because I decided to add a solution to it as I'm trying to answer all of my old stuff

Andrew Micallef

I mean you got some feedback on the problem in comments

HereToRelax

and it got a close vote and downvote

Andrew Micallef

11:56 PM

the internet can be harsh sometimes

HereToRelax

yeah, it's just sad because it didn't use to be like this here

Andrew Micallef

things change, for better or worse the universe is in constant flux

doesn't pay to get caught up in how things always used to be better

HereToRelax

that's very true

Andrew Micallef

Make SE great again

I am selling hats if you want one

StudySmarterNotHarder

Don't joke :)

Andrew Micallef

11:59 PM

They come in red and each is emblazoned with a @leslietownes NFT

sorry, I'm off to do my homework

StudySmarterNotHarder

haha homework

^_^

Andrew Micallef

(self imposed, but learning all the same)

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