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00:00 - 04:0004:00 - 16:0016:00 - 19:0019:00 - 00:00

Ted Shifrin
Ted Shifrin
19:00
If $\langle\cdot,\cdot\rangle$ is a hermitian inner product, what is $\langle c\cdot,c\cdot\rangle$?
Danu
Danu
norm squared
times
Ted Shifrin
Ted Shifrin
Right.
Danu
Danu
I suck at linear algebra :D :D
Also I honestly think my shitty notation is making things worse
0celo7
0celo7
@Danu lol
Ted Shifrin
Ted Shifrin
So the hermitian inner product transforms by the norm squared of the transition functions (or inverse thereof).
Now you know how transition functions of the dual work.
Danu
Danu
19:01
So divide by the norm squared
Or multiply by inverse times its complex conjugate (?) if it's not a line bundle I guess
Ted Shifrin
Ted Shifrin
OK ... Sort it out.
What we're saying generalizes to higher rank bundles, but then you need hermitian matrices, etc.
Danu
Danu
Yeah, that should be pretty simple in principle. Let's not dwell on it.
Ted Shifrin
Ted Shifrin
I'm done.
Danu
Danu
not too worried about that
@TedShifrin I'm sorry for not being useful today :P
Ted Shifrin
Ted Shifrin
Just takes time to write things out carefully. What's next before I leave?
Mary Star
Mary Star
19:05
Let $K=\mathbb{Q}(a^2)$, then $[\mathbb{Q}(a^2):\mathbb{Q}]=\def (x^2-2x-1)=2$. Is this correct? @TedShifrin
Danu
Danu
Well, I should still figure out why this is the same as the restriction from the trivial bundle---but perhaps I should do that myself.
Ted Shifrin
Ted Shifrin
Right, @MaryStar.
Mary Star
Mary Star
Great!! Thank you!! :-) @TedShifrin
Danu
Danu
I will leave you be for now---thanks for telling me to look at the transition functions
Ted Shifrin
Ted Shifrin
Okey dokey. I'll be back later.
Danu
Danu
19:06
Have a nice day!
By the way, I'm probably-definitely going to try to do my thesis project on complex geometry stuff
Mike Miller
Mike Miller
I'm not sure how it happened but when I openeed the room right now I had everybody but Danu on ignore.
Danu
Danu
LOL
I feel honored
Mike Miller
Mike Miller
Of course, I want the opposite.
Danu
Danu
(or caught in mod power abuse...)
Cry evrytiem
You killed the mood @MikeMiller
Balarka Sen
Balarka Sen
don't worry, I'm on his hypothetical ignore list too
Mike Miller
Mike Miller
19:16
:)
0celo7
0celo7
I'm surprised when I'm not on it
Danu
Danu
::crickets::
Most of the Time
Balarka Sen
Balarka Sen
I like his "Stuck inside the mobile with the Memphis Blues again". Just sayin'
Danu
Danu
@MikeMiller what'd you think about Dylan winning the Nobel prize?
@BalarkaSen There is so much of his music that I like... :)
Mike Miller
Mike Miller
good
Danu
Danu
19:20
:) Me too
I think it's a good gesture
I'm really getting interested in characteristic classes now
Balarka Sen
Balarka Sen
what're you reading
Danu
Danu
I read about the "Atiyah class" in Huybrechts today, which is supposed to contain all characteristic classes of a holomorphic line bundle (?!)
Mike Miller
Mike Miller
Never read that formalism before but it makes some flavor of sense.
Balarka Sen
Balarka Sen
sanity check, $H^*(\text{Grass}(n, \infty); \Bbb Z/2)$ is just the polynomial ring over $\Bbb Z/2$ in $n$ variables of each grade upto $n$, yes?
Mike Miller
Mike Miller
Why do you think that?
Danu
Danu
19:25
WHY WOULD YOU THINK THAT
(no idea)
Mike Miller
Mike Miller
I was hoping for an answer as opposed to silence.
Balarka Sen
Balarka Sen
@MikeMiller: For no particular reason. I want to compute that ring, and wanted to check if I remembered it right.
Mike Miller
Mike Miller
That's correct.
I don't know how you intend to compute it.
Balarka Sen
Balarka Sen
I think it should be doable by the Leray-Hirsch.
Or maybe there's something simpler. I vaguely remember the splitting principle.
Danu
Danu
Principle?
Balarka Sen
Balarka Sen
19:35
If I can write every vector bundle as direct sum of line bundles, there should be a classifying map to $\Bbb{RP}^\infty \times \cdots \times \Bbb{RP}^\infty$
Mike Miller
Mike Miller
You can't, but ok.
Danu
Danu
That'd be a nice result, if true
Balarka Sen
Balarka Sen
Huh, maybe I misremembered Ted.
Mike Miller
Mike Miller
It's obviously false, man. Take $S^2$.
Balarka Sen
Balarka Sen
duh
Mike Miller
Mike Miller
19:36
The result is that you can always pull it back to some other manifold over which it does split.
Balarka Sen
Balarka Sen
ah, k
Danu
Danu
@MikeMiller A small elaboration, perhaps? :P
Balarka Sen
Balarka Sen
every line bundle on S^2 is trivial
Danu
Danu
...but $TS^2$ is not, I guess (Hairy ballz).
Balarka Sen
Balarka Sen
real line bundle
@Danu yes, sure
Mike Miller
Mike Miller
19:49
There are a good number of nontrivial bundles over $S^2$. Some detected by $w_2$, the rest detected by $e$.
@BalarkaSen I don't remember how to do it off the top of my head. All your favorite authors prove it.
These are the sort of results I'm usually glad to just take for granted.
Balarka Sen
Balarka Sen
I am curious if there is a geometrically obvious homology ring isomorphism $(\Bbb{RP}^\infty)^n \to G(n, \infty)$.
Mike Miller
Mike Miller
Oh, do it inductively. $O(n+1)/O(n) = S^n$. $BO(1) = \Bbb{RP}^\infty$. Use the Serre spectral sequence on $S^n \to BO(n+1) \to BO(n)$ with $\Bbb F$ coefficients.
@BalarkaSen That's false!!!
You should go to bed when you're making statements like that... The degrees of the generators of the polynomial rings are completely different
Balarka Sen
Balarka Sen
oops
Eh, I guess I'm done with math for today.
Mike Miller
Mike Miller
Yes, Serre gives it quickly as long as you also know its multiplicative structure.
What I said is nonsense above. Oh well.
 
1 hour later…
SAWblade
SAWblade
21:30
holy shit guys i am two layers deep into this problem with generating functions
i am breathing capital sigmas lol
DHMO
DHMO
@SAWblade ?
SAWblade
SAWblade
i'm doing a quite involved problem xD
DHMO
DHMO
@SAWblade what is it?
SAWblade
SAWblade
Combinatorics. P:<
DHMO
DHMO
@SAWblade what is the question?
 
1 hour later…
DemCodeLines
DemCodeLines
23:02
Anyone mind explaining to me how to find all the solutions of an equation on Z17 (integers mod 17)?
Ted Shifrin
Ted Shifrin
@DemCodeLines: What kind of equation?
0celo7
0celo7
@TedShifrin Have you heard of strong differentiability?
Ted Shifrin
Ted Shifrin
I dunno. What does it mean?
0celo7
0celo7
user image
Semiclassical
Semiclassical
hi chat
Ted Shifrin
Ted Shifrin
23:13
Hi @Semiclassic
Semiclassical
Semiclassical
kind've funny how my day works sometimes
Ted Shifrin
Ted Shifrin
No, 0celo. It seems to be working with chords near $a$ rather than secants from $a$ to nearby points.
But I've never seen that before.
0celo7
0celo7
@TedShifrin yep
Semiclassical
Semiclassical
in the morning, i talked with my advisor about research stuff including riemann surfaces (though not in depth)
and then I spent the afternoon doing intro lab stuff with capacitors and voltage sources
Ted Shifrin
Ted Shifrin
What's an example of a differentiable function that's not strongly differentiable?
0celo7
0celo7
23:15
@TedShifrin According to my prof, they are "very rare and very pathological"
Semiclassical
Semiclassical
so yeah, that's a bit of a difference
Ted Shifrin
Ted Shifrin
Most of us have had such lives, @Semiclassic.
Semiclassical
Semiclassical
yeah
0celo7
0celo7
@TedShifrin It's in between differentiable and $C^1$
Ted Shifrin
Ted Shifrin
Teaching, in general, is at a different level from research, @Semiclassic.
Semiclassical
Semiclassical
23:16
well, certainly
and it's not a surprise by any means, just thought it was kind've funny
Ted Shifrin
Ted Shifrin
@0celo: I was going to ask if my favorite is an example.
Not kind've, @Semiclassic. kind'f :P
Mike Miller
Mike Miller
Who cares?
Samuel Yusim
Samuel Yusim
hello
caring is usually a bad idea
0celo7
0celo7
@TedShifrin the way you check is if the first order Taylor remainder is Lipschitz
Locally Lipschitz
Ted Shifrin
Ted Shifrin
@0celo: Well, in this case, the Taylor remainder (at $0$) is the function itself.
I think it is an example.
Because of the oscillations we can choose $1/x$ to be an odd multiple of $\pi/2$ and $1/y$ an even multiple of $1/\pi$.
@0celo: Yup, if you choose $x$ and $y$ carefully, you don't go to 0 fast enough.
DemCodeLines
DemCodeLines
23:30
@TedShifrin x^2 + 1 = 0
Ted Shifrin
Ted Shifrin
Aha, @DemCodeLines. Do you need some solutions or all?
DemCodeLines
DemCodeLines
all solutions, but you don't need to do it out. I think the way to find some solutions would be the same as the way to find all
Ted Shifrin
Ted Shifrin
Well, you should be able to find 2 solutions very quickly. Then you need to decide if there can be any more.
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