« first day (2627 days earlier)      last day (2691 days later) » 
00:00 - 01:0001:00 - 02:0002:00 - 04:0004:00 - 11:0011:00 - 17:0017:00 - 22:0022:00 - 00:00

Eric Silva
Eric Silva
01:00
i thought you were asking it with incredulity
Leaky Nun
Leaky Nun
@MatheiBoulomenos tell us
Faust
Faust
:s
MatheiBoulomenos
MatheiBoulomenos
Okay, but the whole argument is quite long
Faust
Faust
i dont understand that word eithier
Leaky Nun
Leaky Nun
@MatheiBoulomenos it doesn't matter
Eric Silva
Eric Silva
01:00
it means when you are unwilling to like accept something
mdave16
mdave16
what are we talking about?
Balarka Sen
Balarka Sen
@Forever I should watch Blade Runner
Faust
Faust
Im trying to acertain if its the type of beard he has or the method to which he lets his beard grow that you admire.
like lots of beer?
Balarka Sen
Balarka Sen
I'm too far down in obscure shit that I haven't even looked at classics
Faust
Faust
lots of couch sitting?
or just how he trims it?
Eric Silva
Eric Silva
01:02
he just grows a nice full beard and also is an attractive dude who looks good with a beard
Faust
Faust
ah less intresting :P
mdave16
mdave16
@BalarkaSen, you may enjoy The Lobster and also Eternal Sunshine Of The Spotless Mind
MatheiBoulomenos
MatheiBoulomenos
Alright, here is a proof that there is no simple group $G$ of order $33264=2^4\times3^3\times7\times22$.
Consider the number of $N_{11}$ $11$-Sylows, by Sylow we have $N_{11}=1,12,56,144$.
Case 0: If $N_{11}=1$ we're done.
Case 1: If $N_{11}=12$, then the normalizer of a $11$-Sylow contains an element of order $77$,
but as $G$ is simple and acts non-trivially on the set of $11$-Sylows by conjugation, we have an embedding $G \to S_{12}$, but $S_{12}$ does not contain any element of order $77$.
Case 2: If $N_{11}=144$, then the normalizer of a fixed $11$-Sylow $P_{11}$ has $3\times7\times11$
Eric Silva
Eric Silva
eternal sunshine of the spotless mind is such an emotional trip
MatheiBoulomenos
MatheiBoulomenos
Case 0 and Case 1 are not problematic
I'm not sure if the argument from Case 2 and Case 3 works
I mean I can't see why not
But it seems like a strange argument
Faust
Faust
01:05
@MatheiBoulomenos is that Galois GT or something?
Leaky Nun
Leaky Nun
@MatheiBoulomenos 11, not 22
MatheiBoulomenos
MatheiBoulomenos
that's pure group theory
Balarka Sen
Balarka Sen
@mdave16 I have been recommended Lobster, damn you all, you're just reminding me how much movies are there on my queue list but i haven't watched yet
Leaky Nun
Leaky Nun
and you actually did it lol @MatheiBoulomenos
Balarka Sen
Balarka Sen
actually both Blade Runner and Lobster are reco'd by @Alessandro
Leaky Nun
Leaky Nun
01:06
@Faust technically, this is Sylow theory
Faust
Faust
@MatheiBoulomenos when do i get to learn it?
mdave16
mdave16
I second the recommendations, I used to work in a cinema, so i've seen a fair few
Leaky Nun
Leaky Nun
@Faust in any decent group theoretic course
definitely way before you even touch Galois
Faust
Faust
we already moved on to rings today
MatheiBoulomenos
MatheiBoulomenos
@LeakyNun where did I write 22?
Faust
Faust
01:07
so no no no
Balarka Sen
Balarka Sen
@mdave16 woo then you should hang around more often
Leaky Nun
Leaky Nun
@MatheiBoulomenos on the first line apparently
Wheat Wizard
Wheat Wizard
@TedShifrin The reason I missed the glaring error is because it only renders in the review queue. If you look at the markdown the error is in fact not there. I thought I had been going crazy.
Leaky Nun
Leaky Nun
@Faust in my book Sylow comes after rings
Balarka Sen
Balarka Sen
I actually didn't super like Eternal Sunshine
Wheat Wizard
Wheat Wizard
01:07
Must be a bug or something
MatheiBoulomenos
MatheiBoulomenos
@LeakyNun ah right
Faust
Faust
@KasmirKhaan havent seen u in awhile hope ur doing good
MatheiBoulomenos
MatheiBoulomenos
too late to fix it
Balarka Sen
Balarka Sen
my tastes are weird, hipsterish
Ted Shifrin
Ted Shifrin
It sure looks like the sentence is inside the dollar signs @Wheat
mdave16
mdave16
01:07
yes, the lobster will be relatable then
Leaky Nun
Leaky Nun
@MatheiBoulomenos you just need to do Ctrl+F followed by two hits of "2"
Irregular User
Irregular User
https://math.stackexchange.com/questions/1475079/every-point-lies-on-a-unique-secant-through-c

Anyone know why "So one must have Pi=Qj for certain i,j" in the answer is true?
Balarka Sen
Balarka Sen
@mdave16 Great I'll definitely put it on top of my list
Eric Silva
Eric Silva
@Balarka ud probably like my roommates student films tbh
mdave16
mdave16
what else is on the list?
MatheiBoulomenos
MatheiBoulomenos
01:08
@LeakyNun I didn't think that you could search rendered LaTeX lol
But I guess it works since it's only rendered by a script
mdave16
mdave16
I feel almost like we're in a small pub and all the conversations crossover each other... but at the same time, i don't feel rude
Leaky Nun
Leaky Nun
@MatheiBoulomenos I won't go into the technical details (of mathjax)
Wheat Wizard
Wheat Wizard
@TedShifrin Its between two other statements $\sup S $ can only be equal to $\sqrt{29}$, it doesn't render on the actual question.
Leaky Nun
Leaky Nun
but could you explain how we know that the normalizer of a 11-Sylow contains an element of order 77 in case 1? @MatheiBoulomenos
Balarka Sen
Balarka Sen
@mdave16 Hahah nice description, I like it
Faust
Faust
01:10
Prove that any positive integer of the form n = (6k + 1)(12k + 1)(18k + 1), where all
three factors are prime, is a Carmichael number. ( A Carmichael number is one such that $a^c \equiv 1 $ for all bases c s.t (a,c)=1 anyone know how to do this?
Balarka Sen
Balarka Sen
so, on my list, there's this indie movie Primer and Upstream Colors by the same director
Ted Shifrin
Ted Shifrin
Hmm, I don't understand the discrepancy, @Wheat, but I've put more time into this than I care to.
Wheat Wizard
Wheat Wizard
Ok fair enough
It renders on the question so I'm happy
Thanks for everything
mdave16
mdave16
@BalarkaSen, others to add are Mood Indigo and The Zero Theorem. Anyway, it's quite late here and i have an interview tomo, night all
MatheiBoulomenos
MatheiBoulomenos
@LeakyNun sure, we know that the 11-Sylow subgroup is a normal subgroup of its normalizer. If we compute the order of the normalizer, then we see that it has an element of order 7 by Cauchy. Now there's a lemma in elementary group theory that says that if you have a normal subgroup and any subgroup, then you can take the product of that and it will be a subgroup again. So the normalizer contains a subgroup of order $77$. Groups of order $77$ are cyclic by Chinese Remainder Sylow
Faust
Faust
01:12
@TedShifrin can u reccomend a decent abstract algerbra book for me?
Balarka Sen
Balarka Sen
There's a bunch of horror movie that I have watched but didn't tick off
@mdave16 Ohh nice
but yeah g'night
MatheiBoulomenos
MatheiBoulomenos
I just made these kind of arguments so often for myself that I don't bother to write them down anymore
Leaky Nun
Leaky Nun
@MatheiBoulomenos what is "Chinese Remainder Sylow"
Faust
Faust
Gnight balarka
Balarka Sen
Balarka Sen
I'm still here :)
Ted Shifrin
Ted Shifrin
01:13
@Faust: Although I don't love Fraleigh, I think it's a decent level of exposition for you.
Faust
Faust
Morning @BalarkaSen ?
Balarka Sen
Balarka Sen
ye
Faust
Faust
ill see if my libary has it
Leaky Nun
Leaky Nun
@MatheiBoulomenos why does $G$ admit a faithful group action to the set of the 12 Sylow subgroups?
MatheiBoulomenos
MatheiBoulomenos
@LeakyNun you use Sylow to show that the Sylow subgroups are normal (and they are cyclic due to their order) and then you use CRT to conclude that the whole thing is cyclic
Leaky Nun
Leaky Nun
01:14
@MatheiBoulomenos lol ok
MatheiBoulomenos
MatheiBoulomenos
Any nontrivial group action of a simple group is faithful
as the kernel is a normal subgroup
Leaky Nun
Leaky Nun
why is it non-trivial?
and how do you compute the order of the normalizer?
MatheiBoulomenos
MatheiBoulomenos
One of the Sylow theorems say that the action by conjugation is transitive
the index of the normalizer is equal to the number of Sylow subgroups
(this is an application of orbit-stabilizer)
Ted Shifrin
Ted Shifrin
I have always loved that equality. It came up not too long ago.
Leaky Nun
Leaky Nun
but transitive doesn't mean faithful? @MatheiBoulomenos
Faust
Faust
01:17
Nvm i got the carmichael number question
MatheiBoulomenos
MatheiBoulomenos
transitive certainly means non-trivial
and non-trivial together with the simplicity of the group implies faithful
Leaky Nun
Leaky Nun
oh
@MatheiBoulomenos so you mean x/11 = 12?
MatheiBoulomenos
MatheiBoulomenos
@TedShifrin would you mind checking my argument? I'm really unsure and would like to know if it works
Ted Shifrin
Ted Shifrin
Nah. I'm about to go cook dinner, and my back is hurting a lot, so I don't have energy to concentrate on stuff that I don't think about every day.
MatheiBoulomenos
MatheiBoulomenos
okay, np
Maybe I'll post it as a question on the main site
@LeakyNun you just divide the order of the group by the number of Sylow groups
that gives you the order of the normalizer
Leaky Nun
Leaky Nun
01:20
whaaat
I've never heard of this
MatheiBoulomenos
MatheiBoulomenos
I thought you learned Sylow theory?
That's pretty useful in applying Sylow theory
Faust
Faust
If$ a, p \in \mathbb{N}$ and $a^{p}-1 $is prime, then a = 2 or p = 1 i can show a>2 and p>1 implies $a^{p}-1 $ is not prime always but dont know how to finish the argument?
Leaky Nun
Leaky Nun
I only know that p|[N(H):H] @MatheiBoulomenos
MrAP
MrAP
People please help me solve this question:The three different sections of a library need the services of 3, 4 and 5 workers respectively. If 12 workers are available, in how many ways can they be allotted to different sections.
Leaky Nun
Leaky Nun
@Faust contrapositive
the icons of @MrAP and @MatheiBoulomenos look too similar
Faust
Faust
01:22
i dont know what the contrapositice is O.o lemme google it
Leaky Nun
Leaky Nun
the only way I can distinguish is by the difficulty of the things they say
Faust
Faust
lol
MrAP
MrAP
Haha
Ted Shifrin
Ted Shifrin
@Faust: Converse and contrapositive you need to know in your sleep.
Mathei has arrows.
Faust
Faust
i know they exist
and i know converse
a if b converse is b if a?
Leaky Nun
Leaky Nun
01:23
yes
MatheiBoulomenos
MatheiBoulomenos
@LeakyNun Well, it's really just the Sylow theorem that says that two $p$ Sylow subgroups are conjugate. You take the action of the group on the set of its $p$ Sylow subgroup and apply Orbit-Stabilizer. Note that the stabilizer of one $p$ Sylow group under this action is its normalizer
Faust
Faust
its like p imply q is equiv to not q imply not p is equiv truth value?
MrAP
MrAP
I have an exam in about 1 hour.
Faust
Faust
Does anyone know why i picked math? physics is so much easier O.o
Ted Shifrin
Ted Shifrin
Actually, upper-level physics is not very easy.
MatheiBoulomenos
MatheiBoulomenos
01:26
I find physics much more difficult
Leaky Nun
Leaky Nun
@MatheiBoulomenos btw maybe you could help me on this: groups and rings and fields I can still somewhat visualize, I can understand what's going on behind the lines, but I completely lost it when I come to Sylow theory: those are just lines of texts and formulas for me, and I can't really "understand" the proofs. They became facts that I just memorize, unlike other things that I really understand and can visualize in my head.
Faust
Faust
how do u write not n latex?
Leaky Nun
Leaky Nun
@Faust \neg
equiv means equivalent
Ted Shifrin
Ted Shifrin
or \not
depends what you're doing
Faust
Faust
how do u write imply?
Leaky Nun
Leaky Nun
01:26
you're using the wrong command if you need to use \not @TedShifrin
Faust
Faust
sorry im retarded today
Leaky Nun
Leaky Nun
@Faust \implies
Faust
Faust
been doing math since
5am
and its 626pm
Leaky Nun
Leaky Nun
@Faust go rest
Faust
Faust
$ p \implies q $ is equivalent in truth value to $ \neg q \implies \neg p $
Leaky Nun
Leaky Nun
01:27
@Faust I said \neg
Faust
Faust
hmm that looks broken
MatheiBoulomenos
MatheiBoulomenos
@LeakyNun well, I don't visualize the Sylow theorems directly. I see them as a demonstration of the fact that group actions can tell us a lot about groups. If you look at the proofs, then they are mostly group actions. I just have a bit of experience applying them, due to my hobby of Sylowing that I mentioned earlier
Leaky Nun
Leaky Nun
@MatheiBoulomenos I envy the hobby of Sylowing lol
Faust
Faust
less broken? is that the contrapositive?
Leaky Nun
Leaky Nun
but well I'm two years behind you, I can really develop it now
@Faust yes
MrAP
MrAP
01:28
Help me somebody
Leaky Nun
Leaky Nun
@MatheiBoulomenos the problem is I can't visualize group actions / normalizer / conjugate / etc
I just view them as words with no meaning
Faust
Faust
@MrAP post it again ill take a whack at it
MatheiBoulomenos
MatheiBoulomenos
@LeakyNun group actions are how I think about groups
Faust
Faust
@LeakyNun that solves it for me. also you never did answer me this morning
Leaky Nun
Leaky Nun
@MrAP if you have an exam in an hour, it is not going to help you to know the answer to that one specific question that won't appear in the exams
@Faust what did you ask me?
MatheiBoulomenos
MatheiBoulomenos
01:29
and I think about conjugate like a change of basis in linear algebra
Faust
Faust
@LeakyNun how old are you
Ted Shifrin
Ted Shifrin
@MrAP: How many ways can you pick a group of 3 people from 12?
Leaky Nun
Leaky Nun
I am 18 @Faust
Faust
Faust
@TedShifrin oh oh i know that one!
Leaky Nun
Leaky Nun
@MatheiBoulomenos "I can't visualize group actions"
@Faust of course you know
but MrAP doesn't know
Faust
Faust
01:30
shit your a spring chicken
MatheiBoulomenos
MatheiBoulomenos
@LeakyNun well, maybe look at some examples. $S_n$ acts on an $n$ element set, $D_n$ acts on a regular n-gon etc.
Leaky Nun
Leaky Nun
@MatheiBoulomenos I can visualize those
Ted Shifrin
Ted Shifrin
I told you to think of symmetries of geometric figures, Leaky, and you rebuffed me.
Faust
Faust
also FYI everyone 3300 divide by 2 is not 1500.
MatheiBoulomenos
MatheiBoulomenos
$\operatorname{GL}_n(K)$ acts on $K^n$
Leaky Nun
Leaky Nun
01:32
@TedShifrin sorry :c
@MatheiBoulomenos what is the relationship between normalizer and centralizer?
Faust
Faust
Hopefully my prof dont take too many marks off of my midterm for that.
MatheiBoulomenos
MatheiBoulomenos
@LeakyNun the centralizer is a subgroup of the normalizer
Leaky Nun
Leaky Nun
@MatheiBoulomenos in terms of group action?
Ted Shifrin
Ted Shifrin
@MrAP: If you can't answer my question in a few seconds, you're in big trouble.
Leaky Nun
Leaky Nun
@TedShifrin in exam, that is
in life, not really a big trouble
Ted Shifrin
Ted Shifrin
01:34
He isn't here about life.
MrAP
MrAP
Oh i am sorry.
I was inactive
Leaky Nun
Leaky Nun
@MrAP you can be friends with @PVAL-inactive
Faust
Faust
@MrAP the answer is one
MrAP
MrAP
just a moment please
Ted Shifrin
Ted Shifrin
smacks Leaky
3
Leaky Nun
Leaky Nun
01:35
@TedShifrin :D
PVAL-inactive
PVAL-inactive
?
MrAP
MrAP
12C3
Leaky Nun
Leaky Nun
@PVAL-inactive LOL
MrAP
MrAP
.
Faust
Faust
lol
MatheiBoulomenos
MatheiBoulomenos
01:35
@LeakyNun the normalizer of a subgroup acts on that subgroup by conjugation (and it is the largest subgroup of the ambient group so that this action is well defined), this action is actually a group homomorphism $N_G(H) \to \operatorname{Aut}(H)$, the kernel of this homomorphism is the centralizer
Ted Shifrin
Ted Shifrin
OK, @MrAP. And now how many are left? We have to next pick a group of 4.
Leaky Nun
Leaky Nun
@MatheiBoulomenos this kind of make sense; why have I never heard of it?
PVAL-inactive
PVAL-inactive
@Ted You saw the proof I linked?
Ted Shifrin
Ted Shifrin
Yeah, @PVAL, but I didn't study it carefully.
I still have the tab open.
MrAP
MrAP
Wait let me first post the question again. The three different sections of a library need the services of 3, 4 and 5 workers respectively. If 12 workers are available, in how many ways can they be allotted to different sections.
Leaky Nun
Leaky Nun
01:36
@MatheiBoulomenos well-defined?
PVAL-inactive
PVAL-inactive
I misremembered it but it avoids talking about the openness of singular holomorphic functions.
MrAP
MrAP
9C4?
MatheiBoulomenos
MatheiBoulomenos
@LeakyNun yes, if you take an element that is not in the normalizer and conjugate the subgroup with that, you will get a different group
Ted Shifrin
Ted Shifrin
OK. Now finish the question, @MrAP.
PVAL-inactive
PVAL-inactive
It uses that polynomials are proper (which is still really easy to prove.).
Leaky Nun
Leaky Nun
01:37
@MatheiBoulomenos oh, closed lol
I was thinking of one elements mapping to two elements
Ted Shifrin
Ted Shifrin
I am OK with properness of polynomials, @PVAL.
MrAP
MrAP
Is it 12C3*9C4*5C5?
PVAL-inactive
PVAL-inactive
I'm okay with the openness of singular holomorphic maps, but I'd rather use topology.
Ted Shifrin
Ted Shifrin
(Sure. But of course 5C5 is 1.)
Meow Mix
Meow Mix
howdy partners
Leaky Nun
Leaky Nun
01:38
@MatheiBoulomenos oh, and Aut(H) is a subgroup of S_H
Ted Shifrin
Ted Shifrin
Hi Meow.
MatheiBoulomenos
MatheiBoulomenos
yes
Leaky Nun
Leaky Nun
@TedShifrin next time introduce trinomial coefficients :P
Ted Shifrin
Ted Shifrin
I taught those in my probability class, but I don't know if @MrAP knows them or not.
PVAL-inactive
PVAL-inactive
@Meow I have a monopoly on the cowboy talk here.
MrAP
MrAP
01:39
i dont'
Leaky Nun
Leaky Nun
@MatheiBoulomenos oh I learnt of this amazing fact that I'm not sure if you know: inner and outer automorphisms are called inner and outer because if you embed your group G to SG, an inner automorphism is a conjugation by an element inside G, and an outer automorphism is a conjugation by an element outside G (but in SG)
MrAP
MrAP
don't
Meow Mix
Meow Mix
too bad
Ted Shifrin
Ted Shifrin
LOL @PVAL
Meow Mix
Meow Mix
i already bought park place and boardwalk
MatheiBoulomenos
MatheiBoulomenos
01:39
@LeakyNun that's really cool
Ted Shifrin
Ted Shifrin
There aren't cowboys on them, @Meow.
Leaky Nun
Leaky Nun
@TedShifrin I'm just joking
Meow Mix
Meow Mix
inner and outer automorphisms like inner and outer belly buttons?
Ted Shifrin
Ted Shifrin
On that note, I'm going to cook dinner. Bye, y'all.
MatheiBoulomenos
MatheiBoulomenos
Bye @Ted
Meow Mix
Meow Mix
01:40
seeya tedulator
MrAP
MrAP
Well thanks for the help.
Faust
Faust
gl with food
Let (sn) be a sequence of real numbers such that $ |s_{n+1} − s{n}| \leq \frac{1}
{2^n} for all n. Show that (sn) converges.
user image
Leaky Nun
Leaky Nun
@MatheiBoulomenos "what is your hobby?" "taking random integers and proving the non-existence of simple groups of order thereof"
Faust
Faust
does this seem reasonable?
MatheiBoulomenos
MatheiBoulomenos
@LeakyNun sure thing
Leaky Nun
Leaky Nun
01:43
@MatheiBoulomenos "you can start working next monday"
PVAL-inactive
PVAL-inactive
@Faust that looks like the right idea.
Leaky Nun
Leaky Nun
@Faust work on your handwriting :P
Faust
Faust
the sum is wierd
i have dysgraphia
PVAL-inactive
PVAL-inactive
Bound the tail s_n-s_m using a geometric series.
Faust
Faust
i did
i was worried though
the geometric sum i wrote looks wierd
Leaky Nun
Leaky Nun
01:44
@MatheiBoulomenos you're doing something wrong if you need to brute force the solution to $143=11a+7b$
seeing that $143$ is divisible by $11$
MatheiBoulomenos
MatheiBoulomenos
I require that $a,b >0$
because else the order of the permutation is not $77$
I mean, it's faster to write one line of code than thinking about it
Leaky Nun
Leaky Nun
@MatheiBoulomenos so you just do 143 = 11x13 = 11x(7+6) = 11x6 + 7x11
wait, you solved it by code :o
which program?
MatheiBoulomenos
MatheiBoulomenos
sure, but why is that the only solution
ghci
Leaky Nun
Leaky Nun
ic
case 2 is taking me everywhere lol
MatheiBoulomenos
MatheiBoulomenos
what's ic?
Leaky Nun
Leaky Nun
01:47
I see
MatheiBoulomenos
MatheiBoulomenos
ic
Faust
Faust
lol
Leaky Nun
Leaky Nun
@MatheiBoulomenos ubung macht den meister
MatheiBoulomenos
MatheiBoulomenos
@LeakyNun that's for sure
Leaky Nun
Leaky Nun
@MatheiBoulomenos could you run me through case 2?
MatheiBoulomenos
MatheiBoulomenos
01:48
@LeakyNun sure
We compute the order of the normalizer like I said
then we make the same argument to find an element of order $77$ in the normalizer
that's $x$
the next thing I want to show is that $x$ is not in the normalizer of any other $11$ Sylow subgroup
it's a consequence of the Sylow theorems that one Sylow subgroup is not contained in the normalizer of any other Sylow subgroup (for the same prime obviously)
so we note that $x^{7}$ is a generator of the Sylow subgroup
Max
Max
I'm a bit stuck with the proof of Kruskals algorithm (that it produces a spanning tree)
> Let P be a connected, weighted graph and let Y be the subgraph of P produced by Kruskals algorithm. Y cannot have a cycle, being within one subtree and not between two different trees.
I don't understand the last sentence, what does ".. being within one subtree and not between two different trees .." mean?
MatheiBoulomenos
MatheiBoulomenos
Now if $x$ would be in the normalizer of some other $11$-Sylow subgroup, so would be $x^7$
but that's impossible by the above
thus $x$ normalizes precisely one $11$-Sylow subgroup
Leaky Nun
Leaky Nun
how is it that Sylow came up with all these stuff a few hundred years ago and then everyone in the world is now learning about it lol
it amazes me that one man alone invented it
Faust
Faust
if n is a positive integer such that 24|(n + 1), then show that $ 24|\sigma(n)$ anyone know how to start this?
MatheiBoulomenos
MatheiBoulomenos
Now comes the group action
$G$ acts on the set of Sylow subgroups by conjugation
Leaky Nun
Leaky Nun
01:54
@Faust if 24|(23+1) then show that 24|22?
Faust
Faust
sigma of n is the sum of all the divisors of n
Leaky Nun
Leaky Nun
oh
Faust
Faust
so in that case 24
cause 23 is prime
Leaky Nun
Leaky Nun
waaaat
$\Huge{23~\text{is}~\text{prime}~\text{:o}}$
Faust
Faust
the divisiors or 23 are 23 and 1
so the sum of those two numbers
Leaky Nun
Leaky Nun
01:56
that's like so amazing
Faust
Faust
is 23+1
O.o
i think your being sarcastic?
Leaky Nun
Leaky Nun
I always thought 23 = 5 x 7
Faust
Faust
now im fairly certain your being sarcastic
MatheiBoulomenos
MatheiBoulomenos
Now this group action (which is faithful by the assumed simplicity of $G$) allows us to think of the elements of $G$ as permutations of the $11$ Sylow subgroup
Leaky Nun
Leaky Nun
@Faust hexadecimal
Faust
Faust
01:57
@LeakyNun nonsense
Leaky Nun
Leaky Nun
$23_{16} = 2 \times 16 + 3 = 32 + 3 = 35 = 5 \times 7$ :P
Faust
Faust
say base 16
Leaky Nun
Leaky Nun
hex-a-dec-i-mal.
MatheiBoulomenos
MatheiBoulomenos
under this identification, an element of $G$ normalizes a $11$-Sylow subgroup if and only if the permutation fixes the "letter" that represents the $11$-Sylow subgroup
Leaky Nun
Leaky Nun
I sense some class equation thing going on
but alright, class equation is just orbits
1+11+...+11+7+...+7
MatheiBoulomenos
MatheiBoulomenos
01:58
So we have just shown that $x$ normalizes exactly one $11$-Sylow subgroup
and we know the order of $x$
this allows us in this case by solving the equation $143=11a+7b$ to deduce the cycle type of $x$
00:00 - 01:0001:00 - 02:0002:00 - 04:0004:00 - 11:0011:00 - 17:0017:00 - 22:0022:00 - 00:00

« first day (2627 days earlier)      last day (2691 days later) »