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Kasmir Khaan
Kasmir Khaan
19:00
Do we declare that 2 and 7 are the same for example, in Z/5Z
Ted Shifrin
Ted Shifrin
There are no such things as 2 and 7.
But now you're back on the beginnings of algebra. This has nothing to do with vector spaces.
Kasmir Khaan
Kasmir Khaan
hmm that Point is very comfusing
Mambo
Mambo
@Ted
Ted Shifrin
Ted Shifrin
Aw come on. You've spent months that elements of $\Bbb Z/5\Bbb Z$ are equivalence classes.
Kasmir Khaan
Kasmir Khaan
I know Ted
Ted Shifrin
Ted Shifrin
19:01
hi @Mambo. Any progress to report?
Kasmir Khaan
Kasmir Khaan
But am asking, are matrices with entries in Z
a vector space over the field Z/5Z for example
it makes no sense to me
Ted Shifrin
Ted Shifrin
No, you cannot multiply integers by elements of $\Bbb Z/p\Bbb Z$.
Mambo
Mambo
i guess there is no such constructive function. Maybe pull Baire Category or something
Kasmir Khaan
Kasmir Khaan
okay makes sense
Ted Shifrin
Ted Shifrin
OR maybe there actually is none, @Mambo?
Kasmir Khaan
Kasmir Khaan
19:02
so we need the entries in Z/5Z
neat thanks Ted :D
Ted Shifrin
Ted Shifrin
Right, Kasmir.
Alessandro Codenotti
Alessandro Codenotti
@TedShifrin pfff maybe I'll think about it after dinner
Ted Shifrin
Ted Shifrin
Or some field extension of $\Bbb Z/5\Bbb Z$ will work.
Kasmir Khaan
Kasmir Khaan
Did not read that field extension yet ><
I really so eager to learn about it
sounds fun :D
Ted Shifrin
Ted Shifrin
Those are, in fact, vector spaces over $\Bbb Z/5\Bbb Z$.
Kasmir Khaan
Kasmir Khaan
19:03
how we add one root to a poly , open up lots of things D
Ted Shifrin
Ted Shifrin
And you could use matrices with entries in those ...
Kasmir Khaan
Kasmir Khaan
Yes yes :D did not sound right to me at start, but wanted to make sure :D
Tuki
Tuki
Our lecturer said that $\nabla f(x,y)$ is always the direction of largest increase in $f(x,y)$ values and $ - \nabla f(x,y)$ is the largest decrease but is this true ?
Kasmir Khaan
Kasmir Khaan
@Tuki where r u from Tuki if you dotn mind me asking
Tuki
Tuki
Finland @KasmirKhaan
Kasmir Khaan
Kasmir Khaan
19:05
Nice :D
Tuki
Tuki
How about you @Kasmir ?
Ted Shifrin
Ted Shifrin
Yes, @Tuki, it's true. Look at the formula for directional derivative in terms of $\nabla f$.
This is one of the fundamental, important ideas in multivariable calculus.
Kasmir Khaan
Kasmir Khaan
@Tuki living in Sweden atm but not from here =p
Tuki
Tuki
I think i got confused by a which had almost saddle point but it wasn't point such $\nabla f(x,y)=0$ satisfies this condition.
Mithlesh Upadhyay
Mithlesh Upadhyay
2
Q: GATE $2018$ - Probability question : occurrence of green and red faces when die is rolled $7$ times

Mithlesh Upadhyay A die is colored green on $4$ sides and red on $2$ sides. if the die is rolled $7$ times. Then which of following option is most likely regarding occurrence of green and red faces? (A) $2$ green and $5$ red (B) $3$ green and $4$ red (C) $4$ green and $3$ red (D) $5$ green a...

probability expectation
Tuki
Tuki
19:08
$\nabla f(x,y)=\begin{bmatrix} 1 \\ 1 \end{bmatrix}$ it was
Ted Shifrin
Ted Shifrin
Saddle points can only occur at points where the gradient vanishes, @Tuki.
MatheinBoulomenos
MatheinBoulomenos
@KasmirKhaan I failed it intentionally
Hi @KasmirKhaan @Ted @Alessandro
Tuki
Tuki
you mean points where $\nabla f(x,y)$ does not exist ?
@ted
Ted Shifrin
Ted Shifrin
No, I mean it's the zero vector.
Tuki
Tuki
oh yes exactly
Ted Shifrin
Ted Shifrin
19:10
On the saddle surface $z=x^2-y^2$ only the origin is an actual saddle point.
Kasmir Khaan
Kasmir Khaan
@MatheinBoulomenos No problem, I did that once too, I knew I could get better grade and I like the subject so =p but I Think for your level, you either get an A or dont do it =p
MatheinBoulomenos
MatheinBoulomenos
The thing is I could have easily gotten an A-, but there was one formula I didn't know, so I couldn't get an A
Tuki
Tuki
well critical points can exist in point where gradient is not defined but saddles points cant right ?
Ted Shifrin
Ted Shifrin
@Tuki: For me a critical point is a place where the function is differentiable and the derivative (or gradient) is zero.
Your textbook may have a different definition.
Tuki
Tuki
yes textbook i have would include points where gradient is not defined as well
Ted Shifrin
Ted Shifrin
19:12
I don't like that, but I accept the fact that some books do it.
MatheinBoulomenos
MatheinBoulomenos
I've already got three As and one A- in that part of the bachelor and at most 4 courses from that area count for the bachelor, so getting an A- would be completely useless for me
Daminark
Daminark
'hello nerds
MatheinBoulomenos
MatheinBoulomenos
Since I failed I can write the 2. exam
Hey @Daminark
Mithlesh Upadhyay
Mithlesh Upadhyay
please check someone my question?
Daminark
Daminark
How's it going?
Mithlesh Upadhyay
Mithlesh Upadhyay
19:15
2
Q: GATE $2018$ - Probability question : occurrence of green and red faces when die is rolled $7$ times

Mithlesh Upadhyay A die is colored green on $4$ sides and red on $2$ sides. if the die is rolled $7$ times. Then which of following option is most likely regarding occurrence of green and red faces? (A) $2$ green and $5$ red (B) $3$ green and $4$ red (C) $4$ green and $3$ red (D) $5$ green a...

probability expectation
Ted Shifrin
Ted Shifrin
Maybe Demonark failed his exam on purpose, too.
MatheinBoulomenos
MatheinBoulomenos
I think that's different in the US, isn't it?
Kasmir Khaan
Kasmir Khaan
@MatheinBoulomenos mathein you are a beast :D i only got an A once , but lots of B's =p
MatheinBoulomenos
MatheinBoulomenos
@Daminark Well, my advanced complex analysis didn't go so well, you can read the details above
How's it going for you?
Daminark
Daminark
Functional has killed me but not intentionally
Now luckily it seems like it killed everyone, even the grad students
But self-confidence is permanently shot
MatheinBoulomenos
MatheinBoulomenos
19:17
Yeah, what you told about the course sounded really advanced
more advanced than the functional course I took
Ted Shifrin
Ted Shifrin
Your self-confidence is immune to being shot, Demonark. We've established that.
More of Chicago craziness :P
MatheinBoulomenos
MatheinBoulomenos
Did you have your other exams go well?
At least I've got a ring theory badge now, so there's that
Daminark
Daminark
Algebra was alright. I mean even functional probably won't literally fail but like... I'm starting to wonder if taking it was a good idea
@TedShifrin have we now? That's a good sign I guess
MatheinBoulomenos
MatheinBoulomenos
my Master application will be like "I failed my bachelor, but look at all those tag badges"
(that I wil hopefully have then)
Ted Shifrin
Ted Shifrin
@MithleshUpadhyay: My intuition certainly is that D is most likely. I just computed C and D and it's right.
Mithlesh Upadhyay
Mithlesh Upadhyay
19:22
@TedShifrin , thanks I answered D, but need a mathematical explanation.
MatheinBoulomenos
MatheinBoulomenos
@MithleshUpadhyay you didn't specify that all sides of the die are equally likely and the multiple rolls are independet. It's impossible to solve
Ted Shifrin
Ted Shifrin
You just have to calculate $\binom{7}{5}(2/3)^5(1/3)^2$ and compare it to similar other things.
Daminark
Daminark
@MatheinBoulomenos I've never heard of those
Ted Shifrin
Ted Shifrin
You should be able to do it without brute force. Compare $\binom{7}{4}$ and $\binom{7}{5}$, and compare $(2/3)^5(1/3)^2$ and $(2/3)^4(1/3)^3$ without computing them.
Mithlesh Upadhyay
Mithlesh Upadhyay
@MatheinBoulomenos , this was there, I'm editing there.
MatheinBoulomenos
MatheinBoulomenos
19:24
@MithleshUpadhyay I'm just joking
Mithlesh Upadhyay
Mithlesh Upadhyay
@MatheinBoulomenos , in responce, I can troll you, as I do on Twitter :)
0celo7
0celo7
@XanderHenderson i.gyazo.com/8990b0b8f7ce59336590748d9671f645.png
Xander Henderson
Xander Henderson
GAH!
Mithlesh Upadhyay
Mithlesh Upadhyay
@TedShifrin , how is this relevent,sir ?
Ted Shifrin
Ted Shifrin
Huh?
How is it NOT relevant?
Mithlesh Upadhyay
Mithlesh Upadhyay
19:34
@TedShifrin , we have to calculate expectation, right?
Ted Shifrin
Ted Shifrin
Not expectation, but probability of given events.
I'm saying that you can show D is largest by just simple reasoning, without using calculators.
Kasmir Khaan
Kasmir Khaan
@MatheinBoulomenos if your not busy , Id like to ask you about soemthing, not ( math perse ) =p
MatheinBoulomenos
MatheinBoulomenos
@KasmirKhaan okay, sure
Kasmir Khaan
Kasmir Khaan
@MatheinBoulomenos invited you to our room =p
Ted Shifrin
Ted Shifrin
@MithleshUpadhyay: I'm saying that when you compare the case of 5 greens with the case of 4 greens, the probability changes by a certain factor. $\binom 75 = 21$ and $\binom 74 = 35$, so that factor increases by $35/21$, but the product $(2/3)^5(1/3)^2$ goes to $(2/3)^4(1/3)^3$, which is a net factor of $1/2$. $\frac{35}{21}\cdot\frac12<1$.
Mithlesh Upadhyay
Mithlesh Upadhyay
19:42
, I agreed, could you please explain/answer there, if possible.
Thanks in advance.
it's 1:15 AM in New Delhi, I need to sleep.
MatheinBoulomenos
MatheinBoulomenos
You're in good company as an unsleeping Indian
Mithlesh Upadhyay
Mithlesh Upadhyay
@MatheinBoulomenos , I will see you tomorrow :)
MatheinBoulomenos
MatheinBoulomenos
Oh I didn't mean myself, I meant Balarka
Adeek
Adeek
HI @MatheinBoulomenos @TedShifrin
I am gonna apply some yoga on you guys and turn you into invariants
hahahaha
MatheinBoulomenos
MatheinBoulomenos
Hi @Adeek
Adeek
Adeek
19:50
@MatheinBoulomenos hahaha
@MatheinBoulomenos in regards to tags lolz
I am gonna learn complex analysis today
@TedShifrin @MatheinBoulomenos In my talk I will mention how there is no magic in our world, because we are governed by laws of science. But, magic does occur in complex analysis
hahaha
I am in a good mood today
MatheinBoulomenos
MatheinBoulomenos
It's true that complex analysis feels magical
Adeek
Adeek
yeah
Mambo
Mambo
Think about a closed rectifiable curve that has every possible winding number
Abcd
Abcd
20:09
$\arcsec x + \arcsin x = \dfrac{\pi}{2}$
Only possible values of x is $1,-1$.
Because of domain constraints.
But how does it make $x= \pm 1$ the solution?
Just because x is in the domain of both, doesn't imply that it will necessary satisfy the equation.
But answer is $\pm 1$. Why is my reasoning wrong?
values of x are*
Sorry please ignore all the above messages.
I am sleepy and being silly!
0celo7
0celo7
20:27
@EricSilva go say hi to TB tomorrow. You wrote those notes for her
Eric Silva
Eric Silva
20:40
Who dat
0celo7
0celo7
@EricSilva she's giving a talk at Chiraq tomorrow
or was it today
Slereah
Slereah
lol Chirac
0celo7
0celo7
oh no it's ML
@EricSilva call him a hipster
TB is next week
Eric Silva
Eric Silva
21:06
Oh at the geom analysis seminar I see
O rip I can't go to those they're during my labs
Dattier
Dattier
21:21
@AkivaWeinberger ok
MatheinBoulomenos
MatheinBoulomenos
21:35
Is every real $n$-dimensional $C^\omega$ manifold a $C^\omega$-submanifold of a $n$-dimensional complex manifold? I think this should be true, because locally every convergent real power series also converges with the same radius if you consider it as a complex power series, but I'm not sure how to patch that together to get a complex manifold
Hi @AlessandroCodenotti
Alessandro Codenotti
Alessandro Codenotti
Random fact of the day: today is the 10316th day since the fall of Berlin's wall, which is also the number of days it stood
Hi @Mathei is every archimedean ordered field an extension of $\Bbb Q$ contained in $\Bbb R$?
MatheinBoulomenos
MatheinBoulomenos
@AlessandroCodenotti yes
there's even a unique order-preserving embedding into $\Bbb R$ for every such field
Alessandro Codenotti
Alessandro Codenotti
Even stronger if $f:A\to B$ is a morphism of archimedean ordered fields it's also the only one
MatheinBoulomenos
MatheinBoulomenos
I don't know the proof off the top of my head, it's in Milne's notes on field theory iirc
Alessandro Codenotti
Alessandro Codenotti
Well not actually stronger, there could be some bigger than $\Bbb R$ as I stated it
@MatheinBoulomenos thanks for the reference, I'll check it
PVAL-inactive
PVAL-inactive
21:41
What's an archimedean field bigger than R?
MatheinBoulomenos
MatheinBoulomenos
@PVAL-inactive there is none
Alessandro Codenotti
Alessandro Codenotti
There is none, but I wasn't sure whether that's the case or not
MatheinBoulomenos
MatheinBoulomenos
@AlessandroCodenotti you need order-preserving, because else $A=B=\Bbb Q(\sqrt{2})$ is a counterexample
Alessandro Codenotti
Alessandro Codenotti
I agree, a morphism of ordered fields is order preserving with the terminology we used in the foundations of maths course
MatheinBoulomenos
MatheinBoulomenos
If you have an ordered field that is closed under taking square roots of positive elements (e.g. constructible (in the geometric sense) real numbers, real closed fields), then any automorphism is order-preserving
Alessandro Codenotti
Alessandro Codenotti
21:45
(Which makes sense if you think about ordered fields as first order structures and morphisms as morphisms of structures)
@MatheinBoulomenos sure, because then the order relation is definable in terms of the field operations
That's the trick used in showing that $\text{Aut}(\Bbb R)$ (as a field) is trivial
Dom
Dom
Hi fellas, if a derived equation contains a -b, where the original equation contained an unsigned b, does that mean flip the sign on b, or flip to negative only if positive?
does that make sense?
PVAL-inactive
PVAL-inactive
@MatheinBoulomenos There are maps like x \mapsto x^3, which is a local diffeo of the Reals around zero but not of \Bbb C
I bet there's some obstruction to this.
MatheinBoulomenos
MatheinBoulomenos
@PVAL-inactive hmm, true
Dom
Dom
Sorry, I didn't know whether to ask if I could ask first or just ask straight out
I think it looks a bit rude
sorry if I offended anyone
PVAL-inactive
PVAL-inactive
oh i guess that stuff doesn't have real-analytic inverse.
What a strange category.
MatheinBoulomenos
MatheinBoulomenos
21:52
$x \mapsto x^3$ doesn't have a smooth inverse either
it's not a local diffeo
PVAL-inactive
PVAL-inactive
There's still power series with critical points off the real line.
so you cant replace x mapsto S(x) with z mapsto S(z) willy nilly
MatheinBoulomenos
MatheinBoulomenos
yes, but they're outside the radius of convergence
Hi @MikeMiller any idea on this: chat.stackexchange.com/transcript/message/42693458#42693458 ?
Mike Miller
Mike Miller
You can embed them all in $\Bbb R^{2n}$ I believe
PVAL-inactive
PVAL-inactive
yeah but the construction @MatheinBoulmenos suggest they're real submanifolds of a complex n-fold.
MatheinBoulomenos
MatheinBoulomenos
I'm quite sure what I wrote works locally, but I don't know how to patch it together
Mike Miller
Mike Miller
22:02
What I gave is complex
But that comes from the Morrey-Grauert theorem which lets you embed in Euclidean space
PVAL-inactive
PVAL-inactive
Yeah but I don't think your submanifolds are real.
Mike Miller
Mike Miller
Googling that suggests they prove that as a starting point by finding a complex manifold which is a tubular nbhd of the real analytic one
So perhaps it is carried out precisely that way
I think Mathei's construction works, building an atlas out of U x U for sufficiently small U
Akiva Weinberger
Akiva Weinberger
$$\frac{98765432}{12345679}=\frac{987654312}{123456789}=8$$
MatheinBoulomenos
MatheinBoulomenos
@MikeMiller oh, right, we can just take the product of the manifold with itself, that was the step I was missing, thanks
Mike Miller
Mike Miller
M x iM would be a reasonable name
MatheinBoulomenos
MatheinBoulomenos
22:10
I agree
Akiva Weinberger
Akiva Weinberger
M x M is your name, isn't it? @MikeMiller
Either that or Mi x Mi
Mike Miller
Mike Miller
Hehe
PVAL-inactive
PVAL-inactive
sciencedirect.com/science/article/pii/016686419090034Y
I thought that sounded suspicious.
MatheinBoulomenos
MatheinBoulomenos
So much for that idea
I can't see what goes wrong, though
PVAL-inactive
PVAL-inactive
Your construction might work, but I don't think there's any reason for the thing you get to be the product.
I feel like it's probably open sometimes even if your original manifold is closed.
MatheinBoulomenos
MatheinBoulomenos
22:17
Oh right, the contruction only shows how to get charts for points in a neighborhood of the diagonal in MxM
so we get an open submanifold of MxM
PVAL-inactive
PVAL-inactive
I don't think that either.
The map on imaginary coordinates interacts weirdly with the map on real coordinates away from your original manifold.
TM is always almost complex (since it's symplectic), but I don't think that structure is usually integrable.
Akiva Weinberger
Akiva Weinberger
@BalarkaSen Oh by the way I found the minimal finite approximation of the projective plane in a PDF
PVAL-inactive
PVAL-inactive
IIRC you should be able to obstruct it from having any Kahler str. for instance (in certain examples of course).
Akiva Weinberger
Akiva Weinberger
(Remember how a sphere was approximated by that finite topological space with six points?)
Take a cube, and identify opposite sides, so that you're left with 3 faces, 6 edges and 4 vertices
Make it so the faces are open and the edges open-ish (without their endpoints) like with the sphere, so that they partition the space
and quotient them all down to a point
so you're left with a space with 3+6+4=13 points
You could also do this with an octahedron instead, you get something with 4+6+3=13 points, which turns out to be the other 13-point one "upside-down"
PVAL-inactive
PVAL-inactive
A product M\times M has charts of the form (\phi,\phi) where \phi is a chart on M. This isn't what a complexified real map looks like.
Akiva Weinberger
Akiva Weinberger
22:28
I guess you can define a convex set's "boundary" regardless of a surrounding space
and similarly there should be a way to define that a convex set is "open" intrinsically
like the affine image of $(0,1)$ in $\Bbb R^n$ should be "open" in some sense
Perhaps the right definition would be, if you delete any point, it is no longer convex. (This is false for $[0,1]$.)
MatheinBoulomenos
MatheinBoulomenos
@PVAL-inactive we don't need the complex structure to be compatible with the standard structure on MxM as long as it's a complex manifold. We should still get the same structure on M if we embed diagonally
PVAL-inactive
PVAL-inactive
I don't understand what you mean.
MatheinBoulomenos
MatheinBoulomenos
Probably because it's nonsense. I wanted to say something like it doesn't matter if we get a chart for MxM as long as we somehow get a complex manifold
Mike Miller
Mike Miller
I think Mathei is right. If you build a manifold out of charts $U \times U$ for $U$ very small inside $M$, defining it as a coproduct with identifications along intersections of open sets, you get something identifiable with an open subset of $M \times M$ that includes the diagonal, but as long as the $U$ are very small, you can't get pairs of points that are far away from each other.
eh, that's not quite true, because the transition maps should be the complexified transition maps as opposed to the products (like you said above). but you should get an open complex manifold that is not obviously related to a subset of $M \times M$
PVAL-inactive
PVAL-inactive
22:44
I agree with the latter statement.
Mike Miller
Mike Miller
the train of thought (which came from Mathei's) was wrong but still led to the right idea
so idk, not the worst
Alessandro Codenotti
Alessandro Codenotti
@Akiva Extremal points of a convex sets are a concept very similar to what you're talking about I think
Akiva Weinberger
Akiva Weinberger
Ahh, you know what, I think I've heard that term before
Right, that's exactly the thing I was talking about @AlessandroCodenotti
So what do you call a set that doesn't have any extreme points?
MatheinBoulomenos
MatheinBoulomenos
Thank you @PVAL-inactive and @MikeMiller
Alessandro Codenotti
Alessandro Codenotti
Dunno, I've heard them mentioned only because of the Krein-Milman theorem, but it deals with compact convex sets in topological vector spaces and those have extreme points
Daminark
Daminark
22:53
You prove it in that context by a Zorn argument
The theorem Alessandro stated says that a compact convex set in a locally convex TVS is the closed convex hull of its extremal points
Akiva Weinberger
Akiva Weinberger
In any case, the point is that there is a finite topological space with 13 points that is weakly equivalent to the projective plane
(two, actually, related to each other)
in contrast to the 6 points required to approximate a sphere
(There are none with fewer than 13 points, so they're minimal)
@Daminark TVS?
Oh, topological vector space?
MatheinBoulomenos
MatheinBoulomenos
Hi @Ted
Ted Shifrin
Ted Shifrin
Hi, @Mathein. I was just looking for a reference for you.
MatheinBoulomenos
MatheinBoulomenos
on the complex manifold thing?
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