Mathematics

Q: Does there exist a continuous partition of the sphere into sets of cardinality 4?

0

Define $X^{\{n\}}:=\{A\subseteq X:|A|=n\}$, the set of subsets of cardinality $n$. If $X$ is a topological space, $X^{\{n\}}$ can be given a topology by considering it to be a quotient of $X^n$ minus the extended diagonal. Define a continuous $n$-partition of a space $X$ to be a partition of $X$ ...

+2

Dumb question: Does the statement "P and Q unless R" translate to "If not R, then either not P or not Q"?

12:26 AM

Can all three be false? @user193319

Oh, should it be "If R, then either not P or not Q"?

Same question

(false implies true)

Yes, I agree false implies true, but I'm not sure I get your point.

Is "False and False unless False" valid?

I suppose not.

12:33 AM

I'm honestly not sure what "unless" is logically, myself

Is "True unless True" valid? I'm not sure

If it's not, then "unless" is the same as exclusive or (and therefore symmetric: A unless B is the same as B unless A). I think.

Probably best to simplify it to "P unless R". no reason to hassle with the conjunction

Actually, it would be symmetric even if True unless True were valid

Astyx

P unless R reads as "not R implies P" to me

it's the case of R false which isn't so clear

if R is false, then "not R implies P" is vacuously true

No

12:37 AM

but "P unless 2+2=5" sounds an awful lot like just P

True implies False is not valid

"not False implies P" isn't a tautology

hmm, i got that backwards

trying that again

This light is on, unless that light on.

Can we say exactly one light is on?

R = F => "not R -> P" = "T->P"="P"

R=T => "F->P" is vacuously true

i guess it comes down to: If R is true, does that require P be false? Or merely that P's truth is irrelevant

which in everyday language seems pretty ambiguous

how do you tell if two compactifications are the same?

12:42 AM

> The University of Michigan won’t have a football season this fall unless all students are able to be back on campus for classes.

yeah. is the students being back on campus sufficient or merely necessary

oh, two compactifications are the same if there exists a homeomorphism between the two from what I understand

Thorgott

I don't think that's the sensible notion

compactifications of a space X are specific embeddings of the form X->Y, the right notion of morphism between those should be given by commutative triangles

Astyx

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1:13 AM

is there a map that sends the conformal compactification of $\Bbb R^2$ to the conformal compactification of $\Bbb R^{1,1}$ if you treat both spaces as topological vector spaces? I think yes because $\Bbb R^2$ and $\Bbb R^{1,1}$ are equivalent when treated as vector spaces/topological vector spaces

I think I should understand the isomorphism between the two (without the compactificatins)

Astyx

Something like that

Yeah it is

@Astyx cool

1:33 AM

so if it's a conformal compactification then no can't treat them as vector spaces because in a vector space there's no notion of angle

1:54 AM

1 sec let me edit little bit of the above it is very clear.

@Astyx So given homogenous polynomial F of degree d that defines a bundle called hyperplane bundle, which is a line bundle L(d). We can easily define a section by the following steps first define holomorphic function $f_j : U_j \rightarrow \mathbb{C}$ given by $f_j = F / z_j^d$

one can see easily these f_j induce a section.

sorry I want to discuss these things as it makes it clear in my brain

@TedShifrin maybe you know this but does hyperplane bundle or weakly positive go into detecting twists of a vector bundle?

Ted Shifrin

2:20 AM

I don't understand your question. One usually uses it to make “canonical” twists.

@TedShifrin what is canonical twists?

is that related to adjunction formula ?

Ted Shifrin

Not what I meant.

I'm referring to things like Kodaira vanishing/embedding. You twist by powers of the positive line bundle (which ultimately becomes — more or less — the hyperplane bundle).

I meant canonical in the usual sense, not canonical bundle sense.