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00:00 - 17:0017:00 - 20:0020:00 - 23:0023:00 - 00:00

vzn
vzn
17:04
@0celo7 what do you mean by that?
0celo7
0celo7
@JohnRennie hello
John Rennie
John Rennie
Evening
It's quiet in here these days - at least apart from discussions about maths :-)
0celo7
0celo7
have you started on Wald yet
John Rennie
John Rennie
No. Realistically the chances of me getting time to read a big textbook properly are non-existant. There is just too much life to cram into too few hours. Maybe in a few years when I get fed up of the IT work ...
0celo7
0celo7
"big textbook"
John Rennie
John Rennie
17:16
But when I do get the time my priority is to learn QFT not improve my GR.
0celo7
0celo7
Wald isn't large
John Rennie
John Rennie
Compared to an elephant Wald's GR book isn't large.
ACuriousMind
ACuriousMind
@JohnRennie I approve :)
0celo7
0celo7
@ACuriousMind shoo
ACuriousMind
ACuriousMind
::hisses::
0celo7
0celo7
17:18
Analysis homework done.
On to more fruitful endeavors...NOT
John Rennie
John Rennie
@ACuriousMind I learned GR by getting the basic idea first then filling in the maths. This is a slow and inefficient way to learn, but it does work and puts me in an ideal position to answers questions for other learners.
0celo7
0celo7
Probability homework ;_;
John Rennie
John Rennie
But this approach is failing completely for QFT.
It seems as though there isn't anything except the maths.
0celo7
0celo7
QFT isn't even real
like what is a field
John Rennie
John Rennie
I do wonder if we've missed a trick with QFT somewhere.
0celo7
0celo7
17:20
you think there's a trick to GR?
the trick is sweeping differential topology under the rug
John Rennie
John Rennie
QFT is so profoundly unintutive that I wonder is somewhere around the 1940s we took a wrong turn and have been doing it the hard way ever since.
0celo7
0celo7
what's unintuitive about it?
John Rennie
John Rennie
@0celo7 I think it's possible to grasp what a metric is and how you use it to describe a spacetime with relatively little maths beyond simple calculus.
0celo7
0celo7
@JohnRennie It takes a nontrivial amount of topology to define what a manifold is.
And god-forbid you want to prove four-dimensional is well-defined!
Off into the land of (co)homology!
John Rennie
John Rennie
@0celo7 Well yes, I remember you and Barry Carter rambling on about that for hours. But you assume I care exactly how to define a manifold.
0celo7
0celo7
17:23
@JohnRennie The biggest thing really is this:
We postulate spacetime is 4-D, but we also postulate diffeomorphisms leave the geometry invariant
So how do we know our spacetime is not diffeomorphic to a 5D spacetime
or a 3D one
There are local arguments using tangent spaces, but the global proof is very tricky
John Rennie
John Rennie
We don't know and we don't care. GR - with all our assumptions - works just fine.
0celo7
0celo7
@JohnRennie You do care.
If you use the technology of manifolds, then you must care whether the object "4-dimensional manifold" makes sense
John Rennie
John Rennie
You know when I said: you assume I care exactly how to define a manifold ...
ACuriousMind
ACuriousMind
@JohnRennie That's possible, but somewhat unlikely - QFT is the straightforward continuation of the quantization programme that has served us so well in the standard QM setting
John Rennie
John Rennie
@ACuriousMind I'm veering into crackpot territory here aren't I. This is the good old I don't understand it so it must be wrong approach so beloved of some of our site members.
0celo7
0celo7
17:27
Oh, I take it back.
Diffeomorphism invariance is immediate from some tangent space stuff.
It's homeomorphism invariance that's very hard.
But we don't care about those in GR, so all is well
John Rennie
John Rennie
@0celo7 See, I knew that subconsciously and that's why I didn't care :-)
Balarka Sen
Balarka Sen
@0celo7 Err, what?
0celo7
0celo7
@BalarkaSen If $M^m$ is homeomorphic to $N^n$, then $n=m$.
Balarka Sen
Balarka Sen
Ok, nevermind, I do see what you mean. It takes a nontrivial amount of work for topological manifolds.
ACuriousMind
ACuriousMind
@JohnRennie I think many people are somewhat dissatisfied with QFT, for a variety of reasons. But its success and the lack of a viable alternative make betting on an actual alternative existing rather unreasonable
0celo7
0celo7
17:29
The usual proofs involve (co)homology
Balarka Sen
Balarka Sen
For smooth manifolds it is obvious.
Yes, this is a special case of Brouwer invariance of domain.
0celo7
0celo7
@BalarkaSen speaking of invariance of domain
is the invariance of domain theorem in Hatcher equivalent to the one on wiki?
John Rennie
John Rennie
@ACuriousMind Nima Arkani-Hamed went through a phase of thinking QFT could be better formulated in a non-local way, but things seem to have gone quiet on that front.
Balarka Sen
Balarka Sen
I don't know what the version on wiki is.
ACuriousMind
ACuriousMind
Even the more fundamental theories supposed to "replace" QFT, like string theory or LQG, do not abandon the essence of quantization - the main difference is in the starting point of what we are quantizing.
0celo7
0celo7
17:30
@BalarkaSen Homeomorphism invariance is obvious for smooth manifolds?
Or do you mean diffeomorphism invariance
Balarka Sen
Balarka Sen
Invariance of domain, to me, is that if a manifold embeds into a manifold of same dimension then it's a connected component.
0celo7
0celo7
how do you prove that
Balarka Sen
Balarka Sen
@0celo7 I meant diffeomorphism. But you can prove for homeomorphisms too, I believe: Whitney approximation.
Approximate by smooth maps better and better.
0celo7
0celo7
Invariance of domain
Invariance of domain is a theorem in topology about homeomorphic subsets of Euclidean space Rn. It states: If U is an open subset of Rn and f : U → Rn is an injective continuous map, then V = f(U) is open and f is a homeomorphism between U and V. The theorem and its proof are due to L. E. J. Brouwer, published in 1912. The proof uses tools of algebraic topology, notably the Brouwer fixed point theorem. == Notes == The conclusion of the theorem can equivalently be formulated as: "f is an open map". Normally, to check that f is a homeomorphism, one would have to verify that both f and its inverse...
John Rennie
John Rennie
@ACuriousMind I don't think anyone doubts the principle of quantising a field, but the question is whether we've chosen the best mathematical techniques for doing it.
0celo7
0celo7
17:31
@BalarkaSen You can smooth, but do you get a smooth inverse?
Balarka Sen
Balarka Sen
If you approximate in the uniform norm sufficiently better, yes.
Scrap that. I think it's still true, but I'd have to think a bit.
0celo7
0celo7
That seems like a long shot. Much easier is to use de Rham cohomology
Balarka Sen
Balarka Sen
Should be a stability argument.
0celo7
0celo7
the proof using de Rham is in Lee, you look at punctured open balls or something
and use the cohomology of $S^n$
Balarka Sen
Balarka Sen
That's not even a proof-sketch.
ACuriousMind
ACuriousMind
17:34
@JohnRennie We clearly haven't because the mathematic rigor is still lacking in many areas, yet the one thing which almost certainly doesn't really exist - the Lorentzian path integral - is thought by many to be the fundamentally right way to think about QFT. And I do think that even without the math, the "sum over all possible histories" is a very nice intuition. The trouble is that without the (pseudo-)math this intuition doesn't let you deduce anything.
0celo7
0celo7
@BalarkaSen Because I do not know the argument any more than that.
I can think hard about it
(or look it up)
@BalarkaSen so how do you prove your connected component theorem
Balarka Sen
Balarka Sen
Local homology. That's the go-to analogue of tangent spaces for C^0 manifolds.
0celo7
0celo7
ah, homoogy
@BalarkaSen is it in Hatcher?
Balarka Sen
Balarka Sen
Sure
Somewhere in section 2.1
After excision I believe
@0celo7 It's not true that every homeomorphism between smooth manifolds can be smoothly approximated to be a diffeomorphism. Oh well. I already knew this, didn't come to mind immediately.
0celo7
0celo7
@BalarkaSen I didn't think so, but why not?
Balarka Sen
Balarka Sen
17:45
If you could do that, every homeomorphism would be homotopic to a diffeomorphism (approximating in the uniform norm better and better makes it homotopic to the limit: this is a standard fact).
0celo7
0celo7
Ok, so?
Balarka Sen
Balarka Sen
Let me remember what the counterexample to that was. It should be an exotic sphere with a self-homeomorphism.
0celo7
0celo7
Ah, of course
Or an exotic $\Bbb R^4$
or is compactness needed
Balarka Sen
Balarka Sen
Ah, I remember after googling. The group of exotic 7-spheres under connected sum is $\Bbb Z/28$ - pick an element which does not have order $2$. That does not admit a orientation reversing self-diffeo: if it did, then connected summing it with itself would be diffeomorphic to the standard $S^7$ - contrary to assumption. But every sphere admits an orientation reversing homeomorphism: antipodal map!
0celo7
0celo7
is that the kind of topology Mike does
Balarka Sen
Balarka Sen
17:50
Da.
Or so is my impression.
0celo7
0celo7
too topological for me
Balarka Sen
Balarka Sen
it's the cool topology
0celo7
0celo7
meh
Sanya
Sanya
18:06
@2physics hi :o
John Duffield
John Duffield
@JohnRennie : no. You're veering out of it.
@ACuriousMind : don't bet on that.
vzn
vzn
18:40
@ACuriousMind agreed (w JD). "absence of evidence is not evidence of absence"
Space Otter
Space Otter
19:18
Is it true CuriousOne doesn't believe in photons?
ACuriousMind
ACuriousMind
What kind of question is that?
Why don't you ask him what he believes in?
Space Otter
Space Otter
I'm not sure where i would reach him
I'm just trying to work out how that works
It's what ive been told
yuggib
yuggib
I think that matters very few what any person believes, in general
Unless you're a theologist of course
0celo7
0celo7
or a head of state
(or really anything to do with the real world)
Space Otter
Space Otter
At one point we believed that the earth was the centre of the universe and that everything orbited us on a series of spheres, so that kind off mattered. I'm only trying to see if he refutes the idea of wave-particle duality altogether. And so I could ask to see how he might explain the quantum like nature of light.
@yuggib So what actually matters?
0celo7
0celo7
19:29
@ACuriousMind Does the limit definition of continuity $\lim_n f(x_n)=f(x)$ carry over to topological limits?
Or is it just analysis
yuggib
yuggib
If you're a scientist, it matters that you are able to draw conclusions from your hypotheses that agree with experience
ACuriousMind
ACuriousMind
@0celo7 Sequential continuity is not always the same as continuity, but it holds at least in all metric spaces
yuggib
yuggib
Or that you are able to quantitatively investigate nature (e.g. through experiments)
0celo7
0celo7
@ACuriousMind That it holds in metric spaces is clear.
What about in Hausdorff spaces?
(the target is Hausdorff)
yuggib
yuggib
@0celo7 forget about it
You need nets/filters
0celo7
0celo7
19:32
Forget about it?
ACuriousMind
ACuriousMind
@0celo7 It's not a separation axiom that is the problem, but a countability axiom; Wiki says first-countability is what you need for sequential continuity = continuity.
0celo7
0celo7
I don't even know what first countability is
ACuriousMind
ACuriousMind
Then look it up!
0celo7
0celo7
I don't have a topology book with me
countable neighborhood basis?
seems legit
ACuriousMind
ACuriousMind
@0celo7 You evidently do have internet with you; why would you look up a basic definition in a book?
0celo7
0celo7
19:36
I'm trying to show that if a continuous function $f:A\to Y$ ($Y$ Hausdorff) can be extended continuously to $\bar A$, then this extension is unique. If sequential continuity = continuity, this is pretty easy.
@ACuriousMind I'm running the chat on my calculator potato, not enough power to use the internet
ACuriousMind
ACuriousMind
You're not @BernardMeurer, you can't run anything on a potato
0celo7
0celo7
I have the same potato he does
This problem is harder than the boundary one
I didn't think that would be possible
Noah P
Noah P
user image
Are you guys proud of me?
0celo7
0celo7
no
Noah P
Noah P
:'(
ACuriousMind
ACuriousMind
19:46
meow
6
0celo7
0celo7
@ACuriousMind wtf is with this PhD level general topology
ACuriousMind
ACuriousMind
@0celo7 ?
Dog
Dog
@NoahP No
var firstName
var firstName
Dog is here
djsmiley2k
djsmiley2k
meowwww
var firstName
var firstName
19:56
I love cats.
Dog
Dog
Meaow!
Noah P
Noah P
@DavidZ
djsmiley2k
djsmiley2k
So, according to Brian Cox (I asked him myself) gravity isn't a force
\o/
Why do we insist on calling it one :(
var firstName
var firstName
gravity is a force
ACuriousMind
ACuriousMind
81
Q: If gravity isn't a force, then why do we learn in school that it is?

Peter HallI have studied some of Einstein's Theory of General Relativity, and I understand that it states that gravity isn't a force but rather the effects of objects curving space-time. If this is true, then why are we instructed in middle school that it is a force?

general-relativity forces gravity
djsmiley2k
djsmiley2k
19:57
Wow \o/
var firstName
var firstName
Newtonian gravity is close enough
djsmiley2k
djsmiley2k
cept it wasn't for me, when i was learning
/me sighs
Took me until last year of sec school i think for a teacher to actually explain things properly to me
var firstName
var firstName
SU outings are fun
0celo7
0celo7
@ACuriousMind I can't do these topology problems
also I just wasted 30 minutes on parenting.SE
var firstName
var firstName
nice job, 0celo7
WAIT
YALL MOFOS LIED
This guy's a cat ^
yuggib
yuggib
19:59
@0celo7 in your proof for metric spaces, substitute the word "sequence" with "net" and it should work for hausdorff spaces
ACuriousMind
ACuriousMind
@0celo7 oO
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