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Forever Mozart
Forever Mozart
04:51
@BrianM.Scott There was a problem with my construction. Now I'd like to answer this simpler question: Is there a $G_\delta$ in $[0,1]^2$ that is dense in every horizontal line but contains no vertical line?
Intuitively do you think yes or no?
Martin Sleziak
Martin Sleziak
05:34
@ForeverMozart Maybe I am missing something, but can't you get such set simply by omitting the diagonal from the square? I.e., $[0,1]^2\setminus\Delta$.
I have omitted exactly one point from each horizontal line, so the intersection with the horizontal line is dense in the horizonal section.
I have omitted one point from each vertical line, therefore no vertical line is contained in the set.
Forever Mozart
Forever Mozart
Ah, yes :)
now let me make it more difficult
suppose we want to contain no vertical interval?
Martin Sleziak
Martin Sleziak
ok, this will eliminate the simple solution I suggested above
Forever Mozart
Forever Mozart
so that the space is totally disconnected
hmm
what if you remove a diagonal $\omega$-many times?
would the horizontal sections be dense?
so I mean to remove shited (by rationals) copies of the diagonal
Martin Sleziak
Martin Sleziak
You mean removing set like $\Delta_d=\{(x,y)\in I^2; x-y=d\}$?
Right.
Forever Mozart
Forever Mozart
yeah that should work
Martin Sleziak
Martin Sleziak
05:40
So you are removing $D=\bigcup\limits_{d\in\mathbb Q} \Delta_d$.
Forever Mozart
Forever Mozart
yes
Martin Sleziak
Martin Sleziak
Intersection of $D$ with any vertical/horizontal line is just "shifted copy" of the set $\mathbb Q$.
Forever Mozart
Forever Mozart
yeah so that works right?
Martin Sleziak
Martin Sleziak
Intersection of the complement with any line is just "shifted copy" of $\mathbb R\setminus\mathbb Q$.
Forever Mozart
Forever Mozart
yes
Martin Sleziak
Martin Sleziak
05:41
Which means that both $D$ and the complement are dense in each v/h line. (But do not contain any interval.)
Unless I missed something.
And $D$ is clearly a countable union of closed sets. So it is $F_\sigma$ and the complement is $G_\delta$.
Forever Mozart
Forever Mozart
yeah so it works
Martin Sleziak
Martin Sleziak
To me it seems like this set works.
Forever Mozart
Forever Mozart
thanks for this example
Martin Sleziak
Martin Sleziak
Well, you came up with the example after I suggested $I\setminus\Delta$ for the easier problem.
Forever Mozart
Forever Mozart
so do you see how this relates to my original problem?
Martin Sleziak
Martin Sleziak
05:45
Sorry, I did not have the time to have a closer look at your paper (in progress) on Lelek's fan.
That is what you meant by your original problem right?
Forever Mozart
Forever Mozart
Ok, well what I want is a dense connected $G_\delta$ in the Cantor fan, such that the vertex point is a dispersion point
Such a set would have to hit every cross section densely, and contain no interval along the lines of the fan
Martin Sleziak
Martin Sleziak
Cantor fan is just rays from one point to Cantor set?
Forever Mozart
Forever Mozart
of course connectedness makes things difficult
Yes
Martin Sleziak
Martin Sleziak
Is it called Cantor teepee by some people? Or is that a different space?
Forever Mozart
Forever Mozart
I think Cantor teepee is another name for the KK fan
where you take lines of rationals/irrationals
whereas Cantor fan has the entire lines
Martin Sleziak
Martin Sleziak
05:48
ok
Forever Mozart
Forever Mozart
see, the KK fan doesn't work
cause it has closed copies of rationals
it cant be $G_\delta$
Martin Sleziak
Martin Sleziak
Ok, I think that I see that problems of finding such subset in $I\times I$ and $C\times I$ and Cantor fan are somehow similar.
I am sorry, but I will have to leave now. (Time to go to work.)
Forever Mozart
Forever Mozart
Ok, well thanks for your input, see you later
Martin Sleziak
Martin Sleziak
Have a nice day!
Martin Sleziak
Martin Sleziak
06:39
@ForeverMozart Did you manage to get electronic version of the paper you asked about here: Help finding paper from the 1920's?
Forever Mozart
Forever Mozart
Yes, the person who responded scanned and sent me a copy
emailed it to me
Martin Sleziak
Martin Sleziak
ok
Forever Mozart
Forever Mozart
unfortunately this example cannot help much
because $G_\delta$ graphs are nowhere dense
but still it is good to know about the history of strange connected spaces
Martin Sleziak
Martin Sleziak
I just found out that our university has access to that paper from Springer website. So I wanted to offer you the same thing (e-mailing it to you).
But since you already have it, it's moot point now.
Forever Mozart
Forever Mozart
well thanks anyway. I have access to lots of sites through my university library, but not Springer.
Martin Sleziak
Martin Sleziak
06:44
We have quite good access to Springer and Elsevier journals.
It's not that good with some other publishers. (For example, de Gruyter. Or the access to papers on jstor we have is rather limited.)
But overall I'd guess the situation here is not that bad.
Ok, I just dropped in to ask about this. I should get to marking some tests and homework.
See you later!
Forever Mozart
Forever Mozart
I can find 90% of papers just by scrounging around online
but occasionally theres a rare one
ok bye
Martin Sleziak
Martin Sleziak
I think in some cases Sci-hub might help. But it seems to be down at the moment.
It is a site similar to Library Genesis but for journals.
Bye!

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