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D.C. the III
D.C. the III
01:26
if $A = A_1 \times A_2 \times \dots$ and $B = B_1 \times B_2 \times \dots$, what is the relationship between the set $A \cup B$ and $\prod_{i \in \mathbb{Z}_{+}}(A_i \cup B_i)$?

After a little work I said the relationship is $A \cup B \subset \prod_{i \in \mathbb{Z}_{+}}(A_i \cup B_i)$. Is there more to it?
Ted Shifrin
Ted Shifrin
Did you draw some 2D examples?
D.C. the III
D.C. the III
I did not I just kind of visualized sets in sets......I'm actually going to try that
Ted Shifrin
Ted Shifrin
(Hint: You are correct, however.)
D.C. the III
D.C. the III
I deduced it from the logical ideas, but I've never given thought to trying to draw sets in this sort of scenario. SOmething worth trying
Ted Shifrin
Ted Shifrin
After my years of telling you to draw pictures, reallllly?
Remembering, of course, that a picture a proof does not make.
D.C. the III
D.C. the III
01:33
Lol.....maybe I did in a way when I was reasoning it and just thinking of a bunch of "dots" in one ball known as A and another ball known as B and expounding from that. But not in a proper geometric way. Now I'm trying to do it on the cartesian plane to see what happens
Ted Shifrin
Ted Shifrin
Wait til you get to product topology with infinitely many factors …
D.C. the III
D.C. the III
ha, literally there is a note about that in the part above the one i'm doing
and of course as you suggested, the picture makes it that much more clearer as I now see. :)
Ted Shifrin
Ted Shifrin
@ZaWarudo Did you ever work out your improper integral question? My hint was on the money.
D.C. the III
D.C. the III
01:50
and the intersections are equal......just in case you feel like quizzing me.
Ted Shifrin
Ted Shifrin
So does the lack of parallelism trouble you?
D.C. the III
D.C. the III
no. should it? Seems like what tends to happen when unions and intersections of sets happen
Ted Shifrin
Ted Shifrin
Like “or” is too inclusive?
D.C. the III
D.C. the III
the union does contain the intersection of the two sets.
Ted Shifrin
Ted Shifrin
Not helpful?
D.C. the III
D.C. the III
01:59
ah.....If I remove that intersection then I could say the union containment I claimed above is equal
i think....let me look at my "picture" again
Ted Shifrin
Ted Shifrin
Nope. Far from it.
D.C. the III
D.C. the III
then I'm stumped
copper.hat
copper.hat
i sometimes wonder if folks take a moment to look at small examples and stop pushing symbols around. math.stackexchange.com/q/4719595/27978
D.C. the III
D.C. the III
is $\|\cdot\|_F$ some special norm?
copper.hat
copper.hat
$\|A\|_F^2 = \sum_{i,j} |A_{ij}|^2$. I think we discussed it recently
D.C. the III
D.C. the III
02:09
oh oh oh....we did this two days ago! :)
copper.hat
copper.hat
easy to compute with
for come reason i was slightly irked by the OP's attitude in the comments
thanks for the upvote :-) not necessary, of course
basically the inner product is essentially the Euclidean inner product, so it is nice for examples.
D.C. the III
D.C. the III
How are you so sure it was me? Could've been the ghost of Cleo...........
copper.hat
copper.hat
:-) the timing
D.C. the III
D.C. the III
jeez my typing and spelling have been off lately.......must be age
copper.hat
copper.hat
I just do a periodic scan for easy convex questions.
D.C. the III
D.C. the III
02:13
I know you love them
copper.hat
copper.hat
on my way to get the mythical mse jumpsuit
D.C. the III
D.C. the III
jumpuit?
copper.hat
copper.hat
i do like convex stuff
its a running joke with leslie the lawyer
when you hit some rep you get some swag
i am very proud of my mse mug
D.C. the III
D.C. the III
That I know. you mentioned a mug before. So you saying jumpsuit
copper.hat
copper.hat
the joke was that when you hit 200k you get an mse orange jumpsuit
D.C. the III
D.C. the III
02:15
had me thinking what level of rep you have to reach
copper.hat
copper.hat
i don;t think there is any swag at 200k anynmore
D.C. the III
D.C. the III
probably would be better if it was an all white jumpsuit with extra baggy sleeves that can get tied together...
and your own personal padded room
copper.hat
copper.hat
:-) i suspect folks might think a bomb shelter would be more appropriate
for me, that is
D.C. the III
D.C. the III
man...I know you have some stories from those times.
copper.hat
copper.hat
my earlier gripe was premature, the OP was subsequently gracious
yep, a reminder of some of those days recently on hearing that kaczynski died
D.C. the III
D.C. the III
02:19
is there relation beyond the fact that both events included bomb in them?
copper.hat
copper.hat
yep, long story, short version he left a pipebomb beside my computer terminal and my colleague (poor fellow) opened it up and took the blast
D.C. the III
D.C. the III
Well..............................bloody hell.
did your colleague make it?
copper.hat
copper.hat
he did, but basically ended his fighter pilot career. incredible grit.
D.C. the III
D.C. the III
blimey
copper.hat
copper.hat
i had come from ireland, where the possibility of bombs was a daily thing at the time. was not expecting anything like that in berkeley
only 33k to go for my jump suit
@D.C.theIII have you studied complex analysis?
purely curious.
D.C. the III
D.C. the III
02:30
Not yet. Still haven't done Real Analysis yet. Plan on doing it in the fall and if I could squeeze complex in I will too.
WOn't be using Alfors for the first go round of it though. ...lol
copper.hat
copper.hat
real analysis and complex analysis, despite the similar name, are two completely different beasts.
D.C. the III
D.C. the III
So I have read....which is why I will probably stick to the plan of real analysis first then attempt complex
copper.hat
copper.hat
i like real analysis, but its a bit of a vortex into which one can easily slip.
i think it is best learned in a few passes.
don't make complete understanding be a limit to progress
i always want to capitalise Boolean, but apparently i should not
D.C. the III
D.C. the III
Yea that is my plan. I was going to do it in the way my school does it. They give an introductory to it using Pugh for a semester. Then the next set of semesters they use Folland. The Folland level of it is cross listed between undergrad and grad level
copper.hat
copper.hat
my alma mater was where Boole taught
i like pugh the person.
D.C. the III
D.C. the III
02:36
@copper.hat I fall into this trap too much
The author of the book or another Pugh?
copper.hat
copper.hat
he once wrote out a proof for me
i am guessing it must be the same hippy fellow
D.C. the III
D.C. the III
well that probably answers the question...lol
copper.hat
copper.hat
he was very human in a nice way, which i needed at the time. he was on one of my committees.
was->is. i jut have not seen him in decades
Ted Shifrin
Ted Shifrin
@D.C.theIII wait ‘til you’re half my age!
@D.C.theIII Complex analysis is more beautiful …
D.C. the III
D.C. the III
well considering I'm in the vicinity of Leslie's age I probably am already
copper.hat
copper.hat
02:40
complex analysis is like competition ice skating. real analysis is like technical mountain climbing.
Ted Shifrin
Ted Shifrin
No one is as old as Leslie.
copper.hat
copper.hat
i can't poke at him unless he is present
D.C. the III
D.C. the III
before I can become graceful I need to learn how to skate
Ted Shifrin
Ted Shifrin
You poke at me regardless!
D.C. the III
D.C. the III
Leslie is always present....watch him just pop up to retort
copper.hat
copper.hat
02:41
only when you are present :-)
i have mellowed in my age, but i am fairly direct
Ted Shifrin
Ted Shifrin
Or unfairly …
robjohn
robjohn
02:55
@copper.hat Mine is one of the two mugs I use.
copper.hat
copper.hat
@robjohn what is the other?
@TedShifrin true, sometimes directness is a bit selfish. truth is not always necessary.
Ted Shifrin
Ted Shifrin
Well, I am ignoring an increasing number of chatters …
robjohn
robjohn
@copper.hat Just a 16 oz mug. I use that for a large chai in the morning with breakfast. I use my MSE mug for tea at other times.
@TedShifrin like me?
Ted Shifrin
Ted Shifrin
You’re not so lucky, @robjohn!
I have no mug. Copper has hijacked mine.
D.C. the III
D.C. the III
@robjohn tea bags or loose leaf tea?
robjohn
robjohn
03:01
Darn, I'm being watched, I knew it.
@D.C.theIII I have some loose tea, but the convenience of bags wins
D.C. the III
D.C. the III
2 min difference in prep time?
robjohn
robjohn
and the prep and clean up is cleaner
copper.hat
copper.hat
i was wondering why my mug had the initials TS followed by an infinite list of twin primes on the bottom.
i have given up on tea prep. the water just needs to darken slightly and that is sufficient. no more heating the pot, letting it draw and all that mess
bags are good.
D.C. the III
D.C. the III
All this blasphemy......
copper.hat
copper.hat
one step closer to my jump suit.
my kids cringe when i produce my mse mug, especially when i use to to serve a drink to one of their friends.
i know they know i know that it is THE mug.
robjohn
robjohn
03:06
@copper.hat I often make sun tea in the summer. It's been too cloudy here to make it this year, for the most part.
copper.hat
copper.hat
they just hope that by not acknowledging it that the matter won't come up.
@robjohn i had to google that, not my cup of tea so to speak
robjohn
robjohn
@copper.hat It is pretty good, and a lot of the acidity is muted. Sugar is not needed.
Ted Shifrin
Ted Shifrin
Sugar is despicable!
copper.hat
copper.hat
@robjohn i think tea is more of a habitual thing for me rather than taste
i agree with Ted's sugar perspective, but it took me many years
D.C. the III
D.C. the III
Been gradually cutting it out. Definitely is hard thing to do
Ted Shifrin
Ted Shifrin
03:11
Ted is, of course, bitter and sour.
copper.hat
copper.hat
i like limes
robjohn
robjohn
@TedShifrin I usually use honey
@copper.hat in tea?
copper.hat
copper.hat
@robjohn ohh nooooooo, just skim milk.
the limes was a response to Ted's comment
@D.C.theIII if you want to get a feeling for the true an delightful evilness of real analysis i would suggest perusing "Counterexamples in Analysis" by Gelbaum & Olmsted.
D.C. the III
D.C. the III
will add it to the list
copper.hat
copper.hat
wow, i ramped up 70 rep today. truly am a rep hound.
the closer gang seem to have disappeared
because some of my recents are definite closing fodder
that was a bear i was happy to poke
robjohn
robjohn
03:18
@copper.hat Trader Joe's chai mix has milk in it. Otherwise, I don't use milk in tea.
copper.hat
copper.hat
i need my calcium :-) but i have always had tea with my milk
robjohn
robjohn
@copper.hat I'm on calcium supplements to counteract another med I'm on.
copper.hat
copper.hat
osteoporosis seems to be popular in my family
peek-a-boo
peek-a-boo
@copper.hat wow I took a brief preview of that text, and looks like with that book in hand, first year students can answer a good chunk of their assignments lol
copper.hat
copper.hat
@peek-a-boo it is not for the faint hearted, but yes indeed, many read to write answrs
 
2 hours later…
Thomas Finley
Thomas Finley
05:44
2
Q: Possible Absurdity while proving $1-\frac 12-\frac14+\frac 13-\frac 16-\frac 18+...$ converges to $\frac 12\log 2.$

Thomas FinleyProve that the series $$1-\frac 12-\frac14+\frac 13-\frac 16-\frac 18+\frac 15-\frac {1}{10}-\frac {1}{12}+....$$ converges to $\frac 12\log 2.$ I tried solving the problem as follows: The series given is, $1-\frac 12-\frac14+\frac 13-\frac 16-\frac 18+\frac 15-\frac {1}{10}-\frac {1}{12}+...$. L...

real-analysis sequences-and-series
0
Q: Problem while proving the series $1+\frac 13-\frac 14+\frac 15+\frac17-\frac 14 +\frac 19+\frac 1{11}-\frac 16+...$ converges to $\frac 32\log 2.$

Thomas FinleyProve that the series $$1+\frac 13-\frac 14+\frac 15+\frac17-\frac 14 +\frac 19+\frac 1{11}-\frac 16+\cdots$$ converges to $\frac 32\log 2.$ I tried solving the problem as follows: The series given is $$1+\frac 13-\frac 14+\frac 15+\frac17-\frac 14 +\frac 19+\frac 1{11}-\frac 16+\cdots.$$ We writ...

real-analysis sequences-and-series
Does these two questions have the same mistake ? I gazed upon them for a long while now, but failed to find any mistake with the 2nd one.
So, yeah, I need a bit help with the 2nd post above.
@copper.hat which book ?
copper.hat
copper.hat
"Counterexamples in Analysis" by Gelbaum & Olmsted.
@ThomasFinley You cannot rearrange terms in a conditionally convergent series.
and expect to get the same answer.
Thomas Finley
Thomas Finley
@copper.hat I rearranged the terms in the partial sum,not the series. So, isn't that allowed?
@copper.hat oh, thanks!
Sourav Ghosh
Sourav Ghosh
Q1: Sequential space+( ? ) \implies first countable
 
2 hours later…
Sourav Ghosh
Sourav Ghosh
08:16
A topological space $X$ is disconnected $\implies \exits U, V$ two non empty open sets such that $Cl(U) \cap Cl(V) =\emptyset$
Contrapositive: A topological space $X$ be such that $Cl(U) \cap Cl(V) \noteq \emptyset$ for any two open sets $U, V$ , then $X$ is connected.
Thomas Finley
Thomas Finley
I found the issue, with my second post i.e
2
Q: Problem when proving the series $1+\frac 13-\frac 12+\frac 15+\frac17-\frac 14 +\frac 19+\frac 1{11}-\frac 16+...$ converges to $\frac 32\log 2.$

Thomas FinleyProve that the series $$1+\frac 13-\frac 12+\frac 15+\frac17-\frac 14 +\frac 19+\frac 1{11}-\frac 16+\cdots$$ converges to $\frac 32\log 2.$ I tried solving the problem as follows: The series given is $$1+\frac 13-\frac 12+\frac 15+\frac17-\frac 14 +\frac 19+\frac 1{11}-\frac 16+\cdots.$$ We writ...

real-analysis sequences-and-series
I had not evaluated the limit correctly
But then, a new issue arises about which I wrote in the post. I am writing it hereby as well, to make things simpler.
## A New Issue

The evaluation of the limit .i.e $\lim S=0$ is incorrect. It should be, as follows:

>$$S=\frac1{6n+2}+\frac{1}{6n+4}+\cdots+\frac{1}{12n}\implies 2S=\frac1{3n+1}+\frac1{3n+2}+\dots+\frac1{6n}\\=\left(1+\frac12+\dots+\frac1{6n}\right)-\left(1+\frac12+\dots+\frac1{3n}\right)\\=\big(\gamma_{6n}+\log(6n)\big)-\big(\gamma_{3n}+\log(3n)\big).$$ This means, $\lim 2S=\log 2,$ or $\lim S=\frac 12 \log 2.$

But here's the problem, what went wrong with this reasoning, i.e the reason by which, I concluded $\lim S$ is $0$ which is:
Sourav Ghosh
Sourav Ghosh
[Contd.] Call such topological spaces "strongly connected spaces."
Now consider the topological $(\Bbb N, \tau_{\text{Golomb}}) $.
Given any two basic open sets $B_1=B(a_1, d_1) =\{a_1 +k d_1 :n\in\Bbb{N}_0\}$ and $B_2=B(a_2, d_2) $
$d_3=d_1d_2$ is a limit point of both $B_1$ and $B_2$
So Golomb space is strongly connected.
Golomb space is a strongly connected $T_2$ space.
I am not able to find any other strongly connected space with at least two points that satisfy a stronger separation axiom.
Alessandro Codenotti
Alessandro Codenotti
08:44
@SouravGhosh because there is none
Sourav Ghosh
Sourav Ghosh
09:03
@AlessandroCodenotti Correct✅. There is no such completely $T_2$ space.
Ok. Such spaces are at most $T_2$
Thomas Finley
Thomas Finley
09:20
Hey guys! Any idea how to show that the series: 1+1/3-1/2+1/4+1/5-1/6+... is divergent ?
冥王 Hades
冥王 Hades
09:35
Wonder what the average IQ of this room is
Thomas Finley
Thomas Finley
16 mins ago, by Thomas Finley
Hey guys! Any idea how to show that the series: 1+1/3-1/2+1/4+1/5-1/6+... is divergent ?
Comparison Test, Limit Form Test, D'Alambert's Test, Cauchy's Root Test, Cauchy's Condensation Test, Raabe 's Test don't work
This is because, they all are defined for series of positive real numbers
Neither does Gauss Test and Logarithmic Test works, because of the same reason.
Leibniz's Test isn't working either.
The series is not an absolutely convergent series either.
Not conditionally convergent as well.
Now, I am out of ideas after seeing that the general root rest and ratio test not working.
Koro
Koro
65
A: Is the cofinite topology on an uncountable set first countable?

Brian M. ScottYou are correct: it is not first countable. However, this is not because each point of $X$ has uncountably many nbhds: each point of $\Bbb R$ also has uncountably many nbhds, but $\Bbb R$, being a metric space, is certainly first countable. To prove that $X$ is not first countable, you must show...

I understand this.
But I don't think I could have ever come up with this on my own without taking a look at the solution.
and this is discouraging.
Koro
Koro
10:08
@ThomasFinley do you know that given $H_n= 1+1/2+1/3+...+1/n, \lim_{n\to \infty}(H_n-\log n)\to \gamma $?
you can try to generalise this: start with m 'odd' terms then one even term and keep repeating like this. in your current case, you have m=2. (2 'odd' terms followed by one even and so on.)
Thomas Finley
Thomas Finley
@Koro yes, I am aware of the result.
@Koro no idea, how?
Koro
Koro
write the sum of first 3n terms $s_{3n}$
find $\lim s_{3n}$
do the same with $s_{3n-1}, s_{3n-2}$.
b_jonas
b_jonas
10:27
@ThomasFinley I don't understand how that series is supposed to be defined. Is there a post?
oh, it's math.stackexchange.com/q/4719788/24908
Sourav Ghosh
Sourav Ghosh
@Koro Assume the contrary that $X$ is first countable.Fix $x\in X$ and a countable local base $(B_n)$ at $x$. Let $y\neq x$.Then $X\setminus \{y\}$ is an open set containing $x$ , hence $\exists m\in\Bbb{N}$ such that $y\not \in B_m$.Then $B=\cap_{n} B_n=\{x\}$. Hence $X\setminus \{x\}=\cup_{n} X\setminus B_n$
$|X\setminus B_n|<\aleph_{0}$ implies $|X\setminus \{x}|=\aleph_{0}|$
Koro
Koro
@SouravGhosh did you read why I posted this question here?
Sourav Ghosh
Sourav Ghosh
10:43
You can prove it yourself with a few hints,no need to see the full solution.
Koro
Koro
@ThomasFinley: so to take care of these type of questions, try to prove the following: $1+1/3+1/5+...+1/(2a-1)- (1/2+1/4+...+ 1/(2b)) + 1/(2a+1)+...= \log \left(2\sqrt{\frac ab}\right)$. This is the sum of a 'odd' nos. followed by b 'even' terms.
Sourav Ghosh
Sourav Ghosh
First countable implies sequential space. Not sequential implies not first countable.
But cofinite topology is sequential 🙃
s.harp
s.harp
11:08
How do you say something like "Independent of the above characterisation, these things are objects of interest and have been studied before" in a better way? The formulations "Independent" and "objects of interest" are very clumsy
Koro
Koro
@ThomasFinley I answered your question.
Balarka Sen
Balarka Sen
11:38
@copper.hat laughed audibly a little
user1176409
user1176409
11:50
Hello
Koro
Koro
2 hours ago, by Koro
I understand this.
But I don't think I could have ever come up with this on my own without taking a look at the solution.
2 hours ago, by Koro
and this is discouraging.
@Jakobian please advise.
:(
I want to show first that cofinite R is not 2nd countable. So it should suffice to show that given any countable collection of open sets {O_n}, there is an open set U such that not even the intersection lies completely inside U.
It is clear that if $A= \cap_n O_n$, then $A^c= \bigcup_n O_n^c=$ a countable union of finite sets so $A^c $ is countable. $\implies A$ is non empty.
not sure how to construct $U$ now.
infact, A is uncountable.
Jakobian
Jakobian
12:11
@SouravGhosh Urysohn is a weaker axiom
Koro
Koro
U= A^c\cup (R- {a}) works, where a is an element of A.
Jakobian
Jakobian
@SouravGhosh could you explain this?
s.harp
s.harp
12:28
nounification of holomorphic, do you take "holomorphy" or "holomorphicity"?
Koro
Koro
similarly, using the same idea, it follows that cofinite R is not 1st countable.
$\ddot\smile$
Monty
Monty
13:19
does anyone know how to construct a function orthogonal to the gradient? For instance if I have a function $f:\mathbb{R}^d\to\mathbb{R}$ and I consider the vector field $J\nabla f$ where $J$ is an antisymmetric matrix, then $\nabla f(x)$ and $J\nabla f(x)$ are orthogonal. Are there any other ways to construct orthogonal vectors?
copper.hat
copper.hat
13:55
@BalarkaSen at what?
Thomas Finley
Thomas Finley
14:27
I had a strange thought bugging me. Are these two statements same:" If P, then Q" and "Q is true, if P is true."
Monty
Monty
@ThomasFinley i think so
sunny
sunny
> A set $F\in\mathbb{R}$ is closed $\iff$ the limit of every convergent sequence in $F$ belongs to $F$.
I am reading a proof of this proposition and am stuck on the $\Longleftarrow$ direction.
> $\Longleftarrow$ Suppose that the limit of every convergent sequence of points in $F$ belongs to $F$. Let $x\in F^c$. Then $x$ must have a neighborhood $U\subset F^c$; otherwise for every $n\in\mathbb{N}$ there exists $x_n\in F$ such that $x_n\in (x-1/n,x+1/n)$, so $x=\lim x_n$, and $x$ is the limit of a sequence in $F$. Thus, $F^c$ is open and $F$ is closed.
I am getting so hung up on the word "otherwise". Second, I do not understand the point the author is trying to make with $x_n\in (x-1/n,x+1/n)$. What does this tell us?
 
2 hours later…
robjohn
robjohn
16:13
@ThomasFinley yes
also "P is true only if Q is true"
Ted Shifrin
Ted Shifrin
16:34
@ThomasFinley The pattern is not clear from this. But it looks like ++-++- …. Except in the first set you switched two.
Ted Shifrin
Ted Shifrin
16:53
@sunny You mean $F\subset\Bbb R$, of course. If $x$ has no neighborhood contained in $F^c$, then every neighborhood, e.g., $(x-1/n,x+1/n)$, must contain a point of $F$.
So he's creating a sequence $\{x_n\}$ of points in $F$ that converges to a point $x\in F^c$.
Jakobian
Jakobian
17:14
If we take a neighbourhood $B(d, a)$ of $d$, $d+k_0a = a_1+k_1d_1$, $d = d_1d_2$, $k_0, k_1\in\mathbb{N}$, $\gcd(a_1, d_1) = \gcd(d, a) = 1$
the question is if such $k_1, k_2$ must exist
everything else is given
robjohn
robjohn
@ThomasFinley Can you say what the general term of the series is? from what you've given, it is hard to tell what we are summing.
Jakobian
Jakobian
I guess, this is $k_0a = a_1 \pmod{d_1}$ and then $k_0 = a^{-1}a_1\pmod{d_1}$ since $\gcd(a, d_1) = 1$
robjohn
robjohn
@ThomasFinley Is the series supposed to be $1+\frac12-\frac13+\frac14+\frac15-\frac16+\dots$?
the switching of $\frac12$ and $\frac13$ is confusing
Ted Shifrin
Ted Shifrin
@robjohn Precisely what I mentioned. We are of a single mind.
robjohn
robjohn
Unfortunately, Thomas seems to have popped in for a bit, and is now gone.
Same thing happened yesterday
Jakobian
Jakobian
17:25
okay now I see why Golomb topology has the property that closures of any two non-empty open sets intersect
Ted Shifrin
Ted Shifrin
@robjohn A lot of nerve.
robjohn
robjohn
It certainly makes things take longer.
Jakobian
Jakobian
it's an interesting concept, reminds me of hyperconnectedness, but it's a weaker property, maybe it could be called "anti-Urysohn" just like people call hyperconnected spaces "anti-Hausdorff"
or maybe "weakly hyperconnected" or "weakly irreducible"
if it has any relation to algebraic geometry then we could try borrowing a name from there
Thomas Finley
Thomas Finley
@robjohn,@TedShifrin Oh! A lot happened since I was gone for a bit. Yes, the general term of the series $1+\frac12-\frac13+\frac14+\frac15-\frac16+\frac 17+\frac 18-\frac 19+\cdots$
It seems it was asked here, before.
Ted Shifrin
Ted Shifrin
Oh, now it’s corrected andceasy.
robjohn
robjohn
17:37
Show that is greater than $1+\frac14+\frac17+\dots+\frac1{3n+1}+\dots$
Ted Shifrin
Ted Shifrin
Oh, now it’s corrected and easy .
Thomas Finley
Thomas Finley
4
Q: Abbott Understanding Analysis 2nd ed Exercise 2.7.2

CUIgrl01I am trying to decide whether the series converge or diverge and am struggling with two different series. I am able to use the comparison test, the absolute convergence test, the alternating series test, and the ratio test. The first series is: $$1 + \frac12 - \frac13 + \frac14 + \frac15 - \frac...

real-analysis
Ted Shifrin
Ted Shifrin
Again @robjohn and I are of a single mind.
Use no test at all. Just thought.
Thomas Finley
Thomas Finley
@TedShifrin thought made me conclude, the series was divergent. But I needed some rigorization.
Jakobian
Jakobian
I found arxiv.org/pdf/1509.01420.pdf mentioning anti-Urysohn spaces, but they demand that intersection of any two non-empty regular closed sets to be non-empty
Ted Shifrin
Ted Shifrin
17:40
Group the 2nd and 3rd terms in each group.
Thomas Finley
Thomas Finley
@robjohn I think I know what you're talking abt. But yes, I think, rigorizations are often hard to come by.
Ted Shifrin
Ted Shifrin
Looks like ChatGPT has struck again.
@ThomasFinley Not in the least. Compare partial sums $s_{3n}$ to those of an obvious series.
Thomas Finley
Thomas Finley
@TedShifrin Maybe, grouping 3 terms makes things simpler. It made things magical and the answer in that link seems to be following that.
Ted Shifrin
Ted Shifrin
That’s what thinking leads you to. :)
Thomas Finley
Thomas Finley
@TedShifrin That's the trick, but say, if one is unaware of this way of approach, things will surely go messy in his/her life!
Jakobian
Jakobian
17:43
closure of any non-empty open set is a non-empty regular closed set, and conversely
Thomas Finley
Thomas Finley
@TedShifrin Yes, everything logical is achieved by thinking, imho.
Ted Shifrin
Ted Shifrin
Math takes experience to gain insight.
5
Mittens
Mittens
@ThomasFinley: you original problem is about putting paranthesis in a series. the general term of your series is $a(3n)=-1/(2n)$, $a(3n-1)=1/(2(2n)-1)$ and $a(3n-2)=1/(2(2n)-3)$. Adding parenthesisin this case means that instead of considering $\sum_na_n$ one considers $\sum_nb_n$ were $b_1=a(1)+a(2)+a(3)$, $b(2)=a(4)+a(5)+a(3)$, etc.
Jakobian
Jakobian
okay this is precisely the same condition then. So I found a paper mentioning those "strongly connected" spaces as anti-Urysohn in literature
Thomas Finley
Thomas Finley
@TedShifrin yes, that's the thing.
Ted Shifrin
Ted Shifrin
17:44
I meant thinking as opposed to algebraic contortions.
I often put this very question on my exams in the Spivak course. Pretty much all the students got it.
Thomas Finley
Thomas Finley
@Mittens maybe, but now I have to run off for a bit again.
@TedShifrin good students?
I should say, insightful guys
Jakobian
Jakobian
@SouravGhosh check out arxiv.org/pdf/1509.01420.pdf , those spaces are called anti-Urysohn
ugh
Thomas Finley
Thomas Finley
Anyways, bye, running late....
Oh, @robjohn and @TedShifrin thank you for ur time. Not to forget @Mittens, as well
robjohn
robjohn
18:05
@ThomasFinley just to complete the thought $1+\overbrace{\left(\frac12-\frac13\right)}^{\ge0}+\frac14+\overbrace{\left(\frac15-\frac16\right)}^{\ge0}+\dots\ge1+\frac14+\dots$
missed them again
Mittens
Mittens
@ThomasFinley: It is a basic result in that if the $n$-th term of a series $\sum_na_n$ converges to $0$, i.e., $a_n\xrightarrow{n\rightarrow\infty}0$ and parenthesis of bounded length are introduced(i.e. given strictly increasing function $p:\mathbb{N}\rightarrow \mathbb{N}$ with $p(n+1)-p(n)$ bounded), then $\sum_na_n$ converges iff $\sum_nb_n$ converges, and in such case the sum is the same.
Mittens
Mittens
18:41
@ThomasFinley: the more general series that you wrote $1+\frac13+\ldots+\frac1{2a-1}-\frac12-\ldots-\frac{1}{2b}+\frac{1}{2a+1}+\ldots +\frac{1}{4a-1}-\frac{1}{2(b+1)}+\ldots \frac{1}{4b}+\ldots$ is handle also by introducing parenthesis. In this case we introduce parenthesis of length $(a+b)$
@ThomasFinley: The form of the $n$-th term of the series $\sum_n\alpha_n$ is a little more complicated, but the term of the series with parenthesis is easy:$ b_n=\frac{1}{2(n-1)a+1}+\ldots \frac{1}{2na+1}-\big(\frac{1}{2((n-1)b+1))}+\ldots+\frac{1}{2nb}\big)$. To obtain the sum you use the scaling property of the harmonic series: $H_n:=\sum^n_{k=1}\frac1k = \log n +\gamma +O(1/n)$ where $\gamma$ is a well known constant.
冥王 Hades
冥王 Hades
Heh, speak of the devil
sunny
sunny
18:57
@TedShifrin thanks for the reply! which is a contradiction, right? Because our assumption was that the limit of every convergent sequence of points in $F$ belongs to $F$. The proof is by the way from here, page 92.
My question regarding this proof was asked on the main site before. As I have commented to the answer, the contradiction seems still somewhat unclear, but it has to be what you said...that we have a sequence of points in $F$ converging to a point in $F^c$...contradiction! The answer in the link is in-line with this.
Ted Shifrin
Ted Shifrin
19:46
@sunny Yes, of course.
Balarka Sen
Balarka Sen
hi Ted
sunny
sunny
Cool, thanks!
Ted Shifrin
Ted Shifrin
19:57
Howdy, a Balarka. That is a long and weighty tome. I'll skim through it, but it'll take a while!!
Balarka Sen
Balarka Sen
20:16
Thanks, @Ted! No hurries, or obligation.
冥王 Hades
冥王 Hades
user image
^My honest reaction
Sha Vuklia
Sha Vuklia
21:00
Let $S=\bigoplus_{d\geq 0}S_d$ be a graded ring. For $n\in\mathbb N$ let $S(n)$ be the graded $S$-module defined by $S(n)_d=S_{n+d}$. I've seen the claim that the canonical map
$$
S(n)\otimes_S S(m)\to S(n+m).
$$
is an isomorphism. Surjectivity for me is clear. Injectivity not. Since the tensor product commutes with direct sums, we have
$$
S(n)\otimes_S S(m)=\bigoplus_{i,j}S_{n+i}\otimes_S S_{m+j}
$$
while
$$
S(n+m)=\bigoplus_d S_{n+m+d}.
$$
Let's assume $n=m$. If we take $i\neq j$, then we have the direct summand
冥王 Hades
冥王 Hades
Just realized how awfully old the chat room looks
user image
Straight out of 2007
SE (the company) doesn’t seem to be interested in improving the experience, just as they aren’t interested in what the community says
copper.hat
copper.hat
what is wrong with old?
冥王 Hades
冥王 Hades
What isn’t? It’s clunky and just looks bad overall.
copper.hat
copper.hat
it does the job
冥王 Hades
冥王 Hades
Some buttons can also be relocated and changed in size and much more
It’ll be far more convenient
Sha Vuklia
Sha Vuklia
21:07
oh, hm
9
Q: If $M_*$ and $N_*$ are graded modules over the *graded* ring $R_*$, what is the definition of $M_* \otimes_{R_*} N_*$?

Elle NajtQuick question (hopefully): What is the correct definition of a tensor product of two graded $R_*$-modules and/or graded $R_*$-algebras $M_*$ and $N_*$ over the graded ring $R_*$? $M_* \otimes_{R_*} N_* = ?$ If R is not graded I know how to do this, but when $R_*$ is graded the usual construct...

algebraic-geometry commutative-algebra graded-rings graded-modules
apparently there is a different definition of tensor product in the case of graded modules
hm, no, it does seem to be the ordinary tensor product
Ted Shifrin
Ted Shifrin
@冥王Hades Who the h*** cares?!
冥王 Hades
冥王 Hades
@TedShifrin the guy you pinged does
Ted Shifrin
Ted Shifrin
Irrelevant ...
Everyone's complaining about the so-called improvements on the main site (vote buttons, etc.) ...
冥王 Hades
冥王 Hades
They’re right to complain. The updates are horrible
Ted Shifrin
Ted Shifrin
So of course updating the chat site would be horrible, too.
冥王 Hades
冥王 Hades
21:17
For a network that prides itself in being a collection of high quality questions and answers they sure suck at using all that knowledge
Ted Shifrin
Ted Shifrin
I think you're just full of hot air.
冥王 Hades
冥王 Hades
I just ask for a better experience.
Ted Shifrin
Ted Shifrin
Why don't you worry more about contributing good mathematics to the site?
冥王 Hades
冥王 Hades
Are they mutually exclusive?
Ted Shifrin
Ted Shifrin
I haven't seen much of the latter.
冥王 Hades
冥王 Hades
21:25
I post questions/answers that I find fun, if you do not, I cannot and will not change your mind.
s.harp
s.harp
I don't know why, but visual updates tend to make every corner round, every button shiny/transparent
leslie townes
leslie townes
21:45
it makes the user experience less hazardous. reduces the chances that you will scratch or cut yourself on a pixel
ted: munchkin may finally have gotten covid. a kid who was in her class on wednesday tested positive yesterday, and now she has a fever and sore throat. on the plus side, she's home, and can assist me in working from home.
sunny
sunny
> Complete [metric] spaces are ones in which the converse is true.
What does this mean? I've tried Google, but without success. Maybe an example would help.
Sha Vuklia
Sha Vuklia
my question regarding the tensor product has been resolved on main btw
copper.hat
copper.hat
i always get anxious around tensors
who chose the name anyways
Ted Shifrin
Ted Shifrin
22:08
@leslietownes Sounds like it. I hope she doesn’t suffer too much and become more insufferable!
@sunny The converse of what? The statement is that every convergent sequence is Cauchy?
shintuku
shintuku
have we always been in such a frenetic élan of technological progress or is it just me that feels like this year is packed
sunny
sunny
@TedShifrin Yes, exactly. I misread something :) My bad, sorry, but thanks! (so in a complete metric space we also have that a Cauchy sequence converges)
Ted Shifrin
Ted Shifrin
That’s actually the definition of complete.
sunny
sunny
Yes.
Ted Shifrin
Ted Shifrin
So no questions, then.
sunny
sunny
22:17
No :)
leslie townes
leslie townes
@TedShifrin she's mostly napping, which is kind of sad, because it means she really is sick.
Ted Shifrin
Ted Shifrin
When I got it a few months ago, that’s what I did for a few days.
冥王 Hades
冥王 Hades
I really gotta learn to put the phone down
Wonder how much of my deteriorating eyesight is because of this habit

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