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ZeroTheHero
ZeroTheHero
2:28 PM
@JohnRennie any relation to one of en.wikipedia.org/wiki/John_Rennie ?
 
ACuriousMind
ACuriousMind
He's clearly the MI6 director who faked his death and now answers physics questions on the internet.
 
0celo7
0celo7
@ACuriousMind but why would he still use the same name ?
 
ACuriousMind
ACuriousMind
Vanity
 
0celo7
0celo7
he is British after all
 
ACuriousMind
ACuriousMind
No one will believe he's a retired spy anyway, so why hide?
 
Emilio Pisanty
Emilio Pisanty
2:37 PM
@ACuriousMind have you seen Secret's search starred above?
 
ACuriousMind
ACuriousMind
@EmilioPisanty Yes
SE is working on a method to remove these spammers in bulk, it's infeasible for individual mods to try and combat them
 
Emilio Pisanty
Emilio Pisanty
@ACuriousMind a'ight
 
0celo7
0celo7
Russian bots?
 
ACuriousMind
ACuriousMind
For instance, the poor SU mods would have to remove so many users that it would take them more than a day at 1 deletion every 5 seconds :P
 
Emilio Pisanty
Emilio Pisanty
@ACuriousMind oooof
I guess that, so long as those users aren't posting, they're not really that harmful, and their removal can wait until SE has a solid automated solution
 
ACuriousMind
ACuriousMind
2:42 PM
@EmilioPisanty yup
 
Emilio Pisanty
Emilio Pisanty
like, faster than @ACuriousMind fast
and purely community action too
 
ACuriousMind
ACuriousMind
Nope, it was my spam flag that deleted it :)
 
Emilio Pisanty
Emilio Pisanty
huh
then why doesn't it attribute it to you?
 
ACuriousMind
ACuriousMind
@EmilioPisanty Because I didn't delete by "mod deletion" but by casting a spam flag (which is binding when coming from a mod)
 
Emilio Pisanty
Emilio Pisanty
or were there more flags before yours?
 
ACuriousMind
ACuriousMind
2:47 PM
@EmilioPisanty You can usually assume that Smokey will raise flags on obviously spammy posts before even I get to it ;)
 
Emilio Pisanty
Emilio Pisanty
@ACuriousMind ah, fair enough
-1 no hand drawn circles on the graphs, I don't know where to look. — Bhargav Rao Feb 20 at 15:29
lolz
 
ACuriousMind
ACuriousMind
Ah, meta.
I'll bet there's a "-1 not enough JQuery" somewhere there, too :P
 
John Rennie
John Rennie
@ZeroTheHero Not that I know of.
 
Sid
Sid
@JohnRennie Your namesake was an MI-6 officer? :o
 
John Rennie
John Rennie
One of them ...
 
0celo7
0celo7
2:56 PM
JR is a killer
 
John Rennie
John Rennie
There were lots of engineers called Rennie
It's a Gaelic name
 
Sid
Sid
@0celo7 he is a spy.
 
ACuriousMind
ACuriousMind
@JohnRennie That's exactly what the MI6 director would say!
3
 
John Rennie
John Rennie
@ACuriousMind this is one of those no win situations isn't it :-)
 
ACuriousMind
ACuriousMind
yup :)
 
0celo7
0celo7
2:59 PM
this is how I concluded ACM is Alicia Keys
 
ACuriousMind
ACuriousMind
I wonder if being the top rep user on physics.SE fulfills Wikipedia's criteria of notability...
@0celo7 No, you concluded that because I was on fire ;)
 
0celo7
0celo7
@ACuriousMind well, you saying very suspsicious things didn't help your case
 
John Rennie
John Rennie
The most closely related famous Rennie is Michael Rennie who's a second cousin several times removed or something like that. But then he's not really very famous ...
 
ACuriousMind
ACuriousMind
Ah, you hail from a "space visitor"
 
0celo7
0celo7
John Rennie is an alien.
 
ACuriousMind
ACuriousMind
3:04 PM
Sure, try to throw us off the spy trail with an alien conspiracy theory
 
John Rennie
John Rennie
Explains a lot really :-)
 
Anonymous
@ACuriousMind Well, he's the only soap scientist in the world who is also an expert in GR and Javascript! :P
 
ACuriousMind
ACuriousMind
[citation needed]
 
John Rennie
John Rennie
I know all about bubbles in spacetime.
 
Master Yushi
Master Yushi
I can derive the distance traveled by a point on the circumference of a pure rolling circle in one revolution, it makes a cycloid and the arc length comes out to be 8R but all this is considering constant angular velocity. What if the circle starts from rest being accelerated by a constant tangential force?
 
Anonymous
3:07 PM
@ACuriousMind lol
 
Master Yushi
Master Yushi
Will the distance traveled by the point in one revolution change?
 
Anonymous
@MasterYushi Yeah, in the case of sliding on surface, that distance traveled should increase. Suppose you apply a very large force it will travel a large distance before it completes one full rotation.
 
Master Yushi
Master Yushi
Assuming that I know the force and other info about the circle, how can I find that distance?
 
John Rennie
John Rennie
Who would have thought car insurers were so interested in physics :-)
 
Anonymous
Looks like the same person made all those accounts XD
 
Anonymous
3:16 PM
@MasterYushi I'm thinking
 
Anonymous
Will let you know if I come up with something
 
Anonymous
Meanwhile try searching the net
 
John Rennie
John Rennie
@Blue I imagine it's part of the big spam accounts attack on the SE
What surprises me is that it's worth the time taken to do it.
 
Master Yushi
Master Yushi
@Blue I did, couldn't find anything for accelerated motion
 
ACuriousMind
ACuriousMind
@JohnRennie I'd wager they just have a botnet doing that, no? But I don't really know how spammers work
 
John Rennie
John Rennie
3:19 PM
@ACuriousMind Yes I'm sure the attack was automated, but will anyone actually get any extra business as a result of all this?
 
Master Yushi
Master Yushi
It's Q.83
 
ACuriousMind
ACuriousMind
@JohnRennie Does anyone get extra business from all the other spam I find in my mailbox daily? If yes, then why wouldn't they get some from this, if no, why do any of this in the first place? :P
 
Anonymous
@JohnRennie That's not at all surprising. Spammers and trollers find spamming and trolling to be a refreshment or a "nice" method for procrastination. Also, I don't think that's any real company. Probably a troll who got bored and decided to play pranks on PSE.
 
ZeroTheHero
ZeroTheHero
@JohnRennie well... was worth asking.
 
John Rennie
John Rennie
@ZeroTheHero Rennie was originally a clan name, so in principle all Rennie's are related though you'd probably have to back a long way. I think the name originated in about the tenth century in the Kingdom of the Gaels.
 
Anonymous
3:26 PM
@MasterYushi Do you know the derivation of the general cycloid equation?
 
Balarka Sen
Balarka Sen
@JohnRennie Oh, that guy
 
ACuriousMind
ACuriousMind
@JohnRennie All Europeans are related to basically everyone who lived in Europe around 1000 CE :P
 
Master Yushi
Master Yushi
@Blue
x = r(t-sint)
y = r(1-cost)
This?
 
John Rennie
John Rennie
@ACuriousMind well humans will keep shagging each other. Disgraceful really - no better than rabbits.
 
ACuriousMind
ACuriousMind
@JohnRennie Eh, we build nicer abodes than rabbits :P
 
Balarka Sen
Balarka Sen
3:32 PM
That's what the rabbits say when they see us
I need to keep up with British slangs...
 
Anonymous
@MasterYushi Yeah, now try to find the $x$ coordinate when there is a force applied at the top
 
Anonymous
 
Anonymous
Any guesses from this picture? @MasterYushi
 
Anonymous
@BalarkaSen Tell me about the fractal stuff you learnt!
 
Anonymous
We could shift to the other room if you wish :P
 
Master Yushi
Master Yushi
3:41 PM
@Blue the x coordinate would be the same in terms of t, it's just the angle(t) that will change according to angular acc.
wait
x = r(t-sint) + (aT^2)/2?
 
Balarka Sen
Balarka Sen
@Blue Well there's not much on my end to say so I'll just say it here
 
Anonymous
Wait a bit. The question asks only for the distance travelled by the "sphere". Not a point on it's surface. That is a way simpler problem
 
Balarka Sen
Balarka Sen
Say $f : \Bbb C \to \Bbb C$ is a rational function of $z$
 
Anonymous
@BalarkaSen Okaies
 
Balarka Sen
Balarka Sen
Fact: There is an open dense subset (not necessarily connected) $U$ of $\Bbb C$ such that $f(U) = U$. So under successive iterations of $f$, $U$ is left invariant
 
Anonymous
3:48 PM
What does iteration mean in this context?
 
Balarka Sen
Balarka Sen
Oh, like, $\{f, f\circ f, f \circ f \circ f, \cdots\}$
It's a discrete dynamical system
 
Master Yushi
Master Yushi
I thought you were gonna talk about the fun part of fractals
@Blue Oh right, that's easy
 
Balarka Sen
Balarka Sen
where each time interval is taken to be 1 and what happens after each interval of time is an extra iteration of $f$
 
Anonymous
Alright, gotcha
 
Balarka Sen
Balarka Sen
$\Bbb C \setminus U$ is usually the fractal-like subset that comes out of this system
This is called the Julia set, I think
 
Anonymous
3:51 PM
Dense set just means that all the limit points are contained within it, right?
 
Balarka Sen
Balarka Sen
Oh, no, dense means every point of $\Bbb C$ is a limit point of $U$
Rationals are dense on the reals for example
 
Master Yushi
Master Yushi
 
Anonymous
@BalarkaSen But $5$ is not a limit point of the rationals, no?
 
Anonymous
It is a rational!
 
Balarka Sen
Balarka Sen
sure it is
it's limit of the sequence $5, 5, 5, \cdots$ :P
 
Anonymous
3:53 PM
@BalarkaSen Oh, lol
 
Anonymous
Got it
 
Balarka Sen
Balarka Sen
So yeah I have been given an example I don't really understand
And that's $f(z) = z^2 + c$
For large enough $c$, apparently it's Julia set is supposed to be a Cantor set
 
Sid
Sid
Only today did I find out why my college leaves were not getting sanctioned..
 
Anonymous
"The Cantor ternary set ${\displaystyle {\mathcal {C}}}$ is created by iteratively deleting the open middle third from a set of line segments." and "Julia set consists of values such that an arbitrarily small perturbation can cause drastic changes in the sequence of iterated function values"
 
Balarka Sen
Balarka Sen
I just told you what a Julia set is
 
Anonymous
3:59 PM
@BalarkaSen Uh, where?
 
Anonymous
Did I miss something?
 
Balarka Sen
Balarka Sen
Yes. :P
 
Anonymous
12 mins ago, by Balarka Sen
Fact: There is an open dense subset (not necessarily connected) $U$ of $\Bbb C$ such that $f(U) = U$. So under successive iterations of $f$, $U$ is left invariant
 
Anonymous
This?
 
Anonymous
If we change values of that open dense subset...
 
Anonymous
4:01 PM
The successive iterations will no longer be invariant
 
Balarka Sen
Balarka Sen
No, read carefully
10 mins ago, by Balarka Sen
This is called the Julia set, I think
 
Anonymous
Oh, damn. I dunno how I missed that message
 
Anonymous
Let's see..hmm
 
Anonymous
I don't know the notation C/U
 
Balarka Sen
Balarka Sen
C \ U. Setminus
 
Anonymous
4:03 PM
C-U. Oh, alright, got it
 
Anonymous
Interesting. This makes more sense
 
Anonymous
The complement of an open set is closed
 
Master Yushi
Master Yushi
What fractals are you talking about?
 
Anonymous
@MasterYushi Fractals in mathematics...
 
Master Yushi
Master Yushi
These are not the fractals I've worked with lol
 
Anonymous
4:08 PM
This is indeed related to the fractal geometry you worked with, I guess. Unless you are talking of fractals in art
 
Anonymous
@BalarkaSen Silly question. C-U would be the complement of U, or no?
 
Balarka Sen
Balarka Sen
Yes it is
 
Anonymous
Phew. It's making sense. Go on
 
Balarka Sen
Balarka Sen
I don't have anything else to say, really
 
Master Yushi
Master Yushi
I am talking about procedurally generated graphics, I've coded a few. L-systems and stuff
 
Balarka Sen
Balarka Sen
4:09 PM
I'd like to understand the picture for $z^2 + c$, like I said
 
Anonymous
 
Anonymous
@MasterYushi If you are talking of these fractal images, the yes...it is related to mathematics
 
Anonymous
In fact it IS the mathematics we are talking about
 
Master Yushi
Master Yushi
I know this one, I've written code to generate it
 
Anonymous
@BalarkaSen I see. Interesting. Will think about it
 
Anonymous
4:15 PM
In fact the Mandelbrot set is the set of complex numbers for which the function $f_c(z)=z^2+c$ does not diverge when iterated from $0$ (as wiki says)
 
Anonymous
hmm
 
Sid
Sid
@blue ping me whenever you are free.
 
Abcd
Abcd
@JohnRennie Got an exam tomorrow. Confused about some concepts. Are you busy?
 
Anonymous
@BalarkaSen Did you check the Wiki page on Mandelbrot set? That function looks exactly similar. But I think there is a more generalized version
 
Balarka Sen
Balarka Sen
I did
 
Anonymous
4:16 PM
I'm reading it
 
Anonymous
@Sid Ping!
 
Sid
Sid
@Blue What all things do I have to revise for that ML Course that you had convinced me to sign up for?
 
Master Yushi
Master Yushi
 
Anonymous
@Sid I think one of those two courses are already online (as one of them is a re-run of a previous course). Try to go through the course material once. Also complete the Python (Algo and Data Structures) lecture series by them
 
Anonymous
I think you can do that by December
 
Master Yushi
Master Yushi
4:20 PM
One buggy line and you end up with spiderman instead of mandelbrot
 
Anonymous
I'll start as soon as my exams end
 
Anonymous
@MasterYushi That's characteristic of Julia sets it seems. I'm going through the Wiki page
 
0celo7
0celo7
@BalarkaSen Is the scalar curvature of $H^n$ like $-n$ or is it just $-1$
 
Abcd
Abcd
@Blue Could you help? Or are you busy?
 
Anonymous
@Abcd A bit busy. But you could ask...someone might be able to answer...
 
Balarka Sen
Balarka Sen
4:23 PM
@0celo7 i have forgotten scalar curvature
can't help
 
Master Yushi
Master Yushi
 
Abcd
Abcd
In $y = y_m \sin (kx-\omega t+\phi)$, could anyone tell me the significance of $k, \omega$ and $\phi$?
 
Master Yushi
Master Yushi
phi is the initial phase
 
Anonymous
@Abcd $k$ is the wave vector. $\omega$ is angular frequency. $\phi$ is the initial phase.
 
Anonymous
Check those terms on Wiki
 
Master Yushi
Master Yushi
4:25 PM
tells you about the particle at x=0 at t=0
 
John Rennie
John Rennie
@Abcd I've just finished lunch so I'm happy to chat now. What's up?
 
Master Yushi
Master Yushi
k is wave number, it is the number of waves in unit length
 
Anonymous
@MasterYushi "trying to get into a good university to pursue cse without having to burn my nerves on pcm". Story of every kid nowadays :) Good luck :P
 
Abcd
Abcd
@JohnRennie what is wave vector, and phi?
 
Anonymous
@MasterYushi Nice. Will watch
 
Master Yushi
Master Yushi
4:27 PM
@Blue Haha, thanks!
 
John Rennie
John Rennie
@Abcd Let's take $\phi$ first because that's quite easy.
 
Abcd
Abcd
Ok
 
John Rennie
John Rennie
Suppose you look at the point $x=0$ and $t=0$ and ask what is $y$ at the time and place.
 
Abcd
Abcd
@JohnRennie Is this the correct use of phi : desmos.com/calculator/ojbbwm5tjw
 
John Rennie
John Rennie
We know the values of $y$ range from $-y_m$ to $+y_m$, but there's nothing in our equation to say what the value of $y$ is.
 
Master Yushi
Master Yushi
4:30 PM
@JohnRennie I've seen k as number of waves in unit length so that should be 1/wavelength but somewhere I've seen it written 2pi/wavelength also. What's up with that?
 
John Rennie
John Rennie
The value of $y$ is what we call an initial condition for our equation.
 
Anonymous
@BalarkaSen Got the PDE book by Farlow's, today. It looks quite thorough and readable! So all book-buying done for the next one year! XD Hirsch-Smale, Farlow, Shakarchi-Stein, Gallian/Artin, Nash-Sen and Arfken. I really hope I can complete all of them. Lot of interesting stuff to learn. Just waiting for 14th Dec :p
 
Balarka Sen
Balarka Sen
Nice
 
John Rennie
John Rennie
@MasterYushi in these sorts of situations you sometimes see angular frequency $\omega$ used, and you sometimes see frequency $f$ used. They're basically the same thing with just a factor of $2\pi$ difference.
 
user228700
Hello, everyone :-)
 
John Rennie
John Rennie
4:33 PM
Well we get the same thing with the wave vector. Sometimes we include the factor of $2\pi$ and sometimes we don't. The difference is that people tend to be sloppy and use the same symbol for both.
 
ACuriousMind
ACuriousMind
@Kaumudi.H Hey. Getting enough food? ;)
 
Abcd
Abcd
@JohnRennie I can't understand.
 
Emilio Pisanty
Emilio Pisanty
 
user228700
@ACuriousMind Hi :-) Yes, today was a good day, in terms of the amount of food I was able to eat :-P How's it going?
 
John Rennie
John Rennie
@Abcd that was an answer to @MasterYushi ...
@Abcd suppose we take your equation $y = y_m \sin (kx-\omega t+\phi)$ and set $x=t=0$ then we get $$\frac{y}{y_m} = \sin\phi $$
 
Abcd
Abcd
4:35 PM
Yes
 
Emilio Pisanty
Emilio Pisanty
Also, @ACuriousMind: boom, double rep-cap =D
 
ACuriousMind
ACuriousMind
@Kaumudi.H Going well, just watching the chat while listening to music and playing Dungeon Crawl
@EmilioPisanty grmbl
 
John Rennie
John Rennie
@Abcd so if $\phi=0$ that means $y(0,0)=0$, or if if $\phi=\pi/2$ that means $y(0,0)=y_m$
 
Emilio Pisanty
Emilio Pisanty
@ACuriousMind ::grin::
 
ACuriousMind
ACuriousMind
You're much more profilic in answering than I am, currently
 
user228700
4:37 PM
@ACuriousMind Sounds fun :-)
 
user228700
I am slowly dying.
 
ACuriousMind
ACuriousMind
@Kaumudi.H We all are, it's called living.
 
John Rennie
John Rennie
@Abcd The parameter $\phi$ just determines our initial value for $y$.
 
user228700
:-P Right, of course.
 
Emilio Pisanty
Emilio Pisanty
it might yet be rolled away by the system's anti-systematic-voting defenses, I suspect
yesterday I got one vote each on my top-scoring answers
I appreciate the gesture from whoever it was, but the system does tend to not like that
 
user228700
4:38 PM
I meant to emphasize the fact that I feel like I am dying :-P
 
ACuriousMind
ACuriousMind
@Kaumudi.H Well, that sucks. What's up?
 
user228700
Engineering Drawing exam tomorrow :-/
 
ACuriousMind
ACuriousMind
@EmilioPisanty The reversal script runs each day at 3 am UTC, so yesterday's serial votes should already be reversed if it wanted to reverse them
 
Emilio Pisanty
Emilio Pisanty
@Kaumudi.H if everything else fails, bring some crayons and a crayon sharpener
 
Master Yushi
Master Yushi
@JohnRennie So we use omega in the wave equation if we use k = 2pi/wavelength, and if we use k=1/wavelength, it should be Asin(2pi(kx-ft)) ?
 
Emilio Pisanty
Emilio Pisanty
4:40 PM
::grins::
aaaaand
::ducks::
 
user228700
:-)
 
user228700
@EmilioPisanty It's OK, I lack the energy to come at you :-P
 
Balarka Sen
Balarka Sen
I rate my day as NOT GOOD/10
 
Emilio Pisanty
Emilio Pisanty
which one was it?
this one?
 
user228700
@BalarkaSen :-/ Damn, what happened to you?
 
Abcd
Abcd
4:42 PM
@JohnRennie Understood. Wait a minute. Let me note that.
 
Balarka Sen
Balarka Sen
Allergy
General idleness
 
user228700
Ah :-/ Dang, I hope you feel better soon.
 
Balarka Sen
Balarka Sen
I don't
 
ACuriousMind
ACuriousMind
@Kaumudi.H Well, that's tomorrow-you's problem ;)
 
Balarka Sen
Balarka Sen
I like to live in perpetual misery
 
user228700
4:43 PM
Ah, right, I'd forgotten.
 
John Rennie
John Rennie
@MasterYushi Yes, I suppose so, but no-one will applaud you for using $f$ in a wave equation, or for using $k$ that doesn't include the factor of $2\pi$.
 
Emilio Pisanty
Emilio Pisanty
no, that's not it
 
ACuriousMind
ACuriousMind
@EmilioPisanty Whatcha looking for?
 
Abcd
Abcd
@JohnRennie Ok, what next?
 
user228700
May 15 at 9:41, by Balarka Sen
@Kenshin I don't want to feel good! That's the point!
 
ACuriousMind
ACuriousMind
4:44 PM
I think I know most Minchin clips by heart :P
 
Emilio Pisanty
Emilio Pisanty
@ACuriousMind Tim Minchin going "aaaaaaand, duck"
 
user228700
I remember this well enough :-P
 
John Rennie
John Rennie
@Abcd can't remember, were you asking about $k$?
 
Emilio Pisanty
Emilio Pisanty
then says he's just practicing for his American tour
 
Abcd
Abcd
@JohnRennie $k$ and $\omega$
 
ACuriousMind
ACuriousMind
4:45 PM
@EmilioPisanty Ahhh
Hm
 
Emilio Pisanty
Emilio Pisanty
@ACuriousMind exactly
it's one of those, innit
the question is which one
 
John Rennie
John Rennie
@Abcd shall we go to the problem solving room? It's getting noisy in here ...
 
Master Yushi
Master Yushi
@JohnRennie Well I'm confused now, according to the definition of k, shouldn't the proper way of writing the equation would be using ft?
 
Abcd
Abcd
@JohnRennie Yes, sure. Even I was getting confused by the parallel discussion on the same topic with Yushi.
 
John Rennie
John Rennie
@MasterYushi I would define k as $2\pi/\lambda$ ...
 
Master Yushi
Master Yushi
4:47 PM
@JohnRennie But it is defined to be the number of waves in unit length
 
John Rennie
John Rennie
Wave vector
In physics, a wave vector (also spelled wavevector) is a vector which helps describe a wave. Like any vector, it has a magnitude and direction, both of which are important: Its magnitude is either the wavenumber or angular wavenumber of the wave (inversely proportional to the wavelength), and its direction is ordinarily the direction of wave propagation (but not always, see below). In the context of special relativity the wave vector can also be defined as a four-vector. == Definitions == There are two common definitions of wave vector, which differ by a factor of 2π in their magnitudes....
> Its magnitude is either the wavenumber or angular wavenumber of the wave
 
ACuriousMind
ACuriousMind
@EmilioPisanty Well, unfortunately there are a lot of spots in his routines where he might want to duck in front of certain audiences ;P
 
Balarka Sen
Balarka Sen
@Kaumudi It's a good ontological exercise to defend my position about misery against the sword of "enjoyment of misery is also enjoyment of a sadistic sort". I leave this as an exercise to the reader.
 
ACuriousMind
ACuriousMind
So I don't recall either where exactly that was
 
Emilio Pisanty
Emilio Pisanty
@ACuriousMind I'm pretty sure it was religion-related
which narrows it down by maybe 10 to 15%
 
user228700
4:49 PM
@BalarkaSen -.- I'll pass, thanks.
 
Master Yushi
Master Yushi
@JohnRennie So technically it is both, but angular wave number is usually used in physics
 
ACuriousMind
ACuriousMind
@BalarkaSen Enjoyment of your own misery would be masochistic, not sadistic.
 
John Rennie
John Rennie
@MasterYushi usually, yes
 
Balarka Sen
Balarka Sen
@ACuriousMind Well, depending of course, upon which end of the action that inflicts the pain you are in. In this case, uh, both?
 
Master Yushi
Master Yushi
@JohnRennie thanks
 
Secret
Secret
4:51 PM
If I see anymore "Please help me", the other chat room will be dead :P
 
Emilio Pisanty
Emilio Pisanty
@MasterYushi yes. In signal processing, as I understand it, they do use the FT normalized as $\int f(x) e^{2\pi i k x}dx$, but that would just get you some very puzzled looks if you used it anywhere I've been in physics
 
Anonymous
@Secret There's an user who well known for using that phrase. Hehe
 
0celo7
0celo7
@ACuriousMind Coordinates are $\{x^i\}$ or $(x^i)$?
Probably the latter because we use parentheses for vectors
 
Secret
Secret
@Blue not that I knew for h bar. h bar recently is relatively free of help vampire infestation
 
Balarka Sen
Balarka Sen
hbar is full of trolls though
 
Anonymous
4:54 PM
@Secret I was talking about Math SE chat
 
Anonymous
hbar did have some vampires previously
 
Anonymous
Now it's just trolls
 
Balarka Sen
Balarka Sen
not sure that's any better than help vampires
 
Anonymous
Trolls are at least funny
 
Anonymous
Vampires...are well....just annoying
 
Balarka Sen
Balarka Sen
4:55 PM
and help vampires at least ask productive questions :P
even though, well, in a vampirish manner
 
Anonymous
Well, lol
 
Secret
Secret
I have been observing Maneesh Narayanan for more than 2 months already, and he is not showing signs of improving. Mary Star is only a bit better than him. It seems he will become the next koolman
This is one reason I hate the downtimes in maths chat, because a chat inhabited with vampires is so boringand annoying I just want to spam it to nonexistence
 
Anonymous
@Secret Maybe someone should point that out to Maneesh directly. Apparently he is preparing for some entrance exam and needs help every now and then.
 
Balarka Sen
Balarka Sen
@Blue But, as the pejorative against the vampire culture goes, "Still a better love story than Twilight"
So I prefer trolls anyway
 
Secret
Secret
@Blue I know. but for other people (recall the numerous JEE people a year ago), at least they are showing effort
 
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