Mathematics - 2017-09-17 (page 4 of 6)

Fawad

2:17 PM

Hi. I have trouble in quardratics

I think minimum should be $min.(y)=\dfrac{min. Of x^2 -x+1}{max. x^2 + x+1}$

But I am getting wrong x_x

@LeakyNun

Leaky Nun

@Fawad when one is minimum, the other one doesn't have to be maximum, meaning that your min (y) is unattainable

Fawad

@LeakyNun so how to get minimum of y?

Leaky Nun

y=(x^2-x+1)/(x^2+x+1)
(x^2+x+1)y = x^2-x+1
(y-1)x^2 + (2y)x + (y-1) = 0
find the range of y such that the quadratic equation has solution.

Fawad

Or given x Is real then $\Delta\gt 0$

y(min.)=1/2 :D thanks

Leaky Nun

why can't delta be 0?

Fawad

2:25 PM

@LeakyNun it can be.

Semiclassical

3:03 PM

@ShaVuklia ooo, waves

Jasper

@Semiclassical She posted her physics question above, if you can help.

Leaky Nun

2 hours ago, by Sha Vuklia

I don’t understand one thing about the superposition of waves. My book says the following: Say we have $f_1(t)=A_1\cos\omega_1t+A_2\cos\omega_2t$ and $f_2=0$. Then the infinite wave that travels in the positive $z$-direction is given by: $y(z,t)=A_1\cos(\omega_1t-k_1z)+A_2\cos(\omega_2t-k_2z)$. In the same way, when $f_1(t)=f_2(t)=A\cos\omega t$, then we get $y(z,t)=A\cos(\omega t-kz)+A\cos(\omega t+kz)$.

I can see the pattern here; so we write $\pm k_iz$ in the argument with $\omega_it$, and apparently we then take the sum, with equal amplitude, that travel in the opposite direction. My q…

Semiclassical

Well, she also said she'd asked a question. so I figured her question might change a bit once she got back here.

Jasper

I think Doubly Modern would be a good name to juxtapose Semiclassical.

Semiclassical

lol

hypermodern

Leaky Nun

3:15 PM

@Jasper dui lian lol

Jasper

How about bimodern, lol

Semiclassical

(which is actually a school of chess play, I think)

right: en.wikipedia.org/wiki/Hypermodernism_(chess)

which ironically means that hypermodernism in chess is about a hundred years old now...

Leaky Nun

modern means nothing

Semiclassical

non-math question: What's an idiom for someone who perseveres in pursuit of a bad idea?

Leaky Nun

any time is modern from that time's frame of reference

@Semiclassical flogging the dead horse

Semiclassical

3:20 PM

yeah, that works pretty well

when it comes to historical stuff, I think modern tends to be associated with the first half of the twentieth century?

Leaky Nun

@Semiclassical how are people going to call that after a thousand years

change is the only constant

meh.

@LeakyNun yelloha

god dag

I find it interesting enough how and why people use the word now

Kasmir Khaan

3:22 PM

godafton =p

Jasper

@Semiclassical Maybe I would say myopic or short-sighted for that.

Kasmir Khaan

Ehm well leaky , I still dont get group actions

Leaky Nun

jag ater et apple

Kasmir Khaan

But am a bit better now

ett *

äter*

Leaky Nun

lol

Kasmir Khaan

3:23 PM

:D

haha

Leaky Nun

then study examples of group actions

Jasper

@KasmirKhaan I think to get something one has to think about it for a long time outside chat rooms.

Kasmir Khaan

@Jasper been 6 hours on library ><

Leaky Nun

Is any example given?

Kasmir Khaan

but spent only 1 hour on group actions

its about the definition

let me tell you what I got so far

Jasper

3:24 PM

@KasmirKhaan I see. But seriously, we cannot expect to understand everything quickly. But 6 hours is quite a long time indeed.

Kasmir Khaan

g_1(g_2 a )

g_2 a is in the set A

Leaky Nun

Kasmir, definitions don't make you understand; examples do.

Kasmir Khaan

so here g_1 is acting on it

Leaky Nun

definitions are the abstraction of the properties demonstrated in an example

Kasmir Khaan

Yes yes let me just finish what I igot =p

ermm good point ><

Leaky Nun

3:25 PM

ok

Kasmir Khaan

(g_1g_2) is an element of G since G is a group

(g_1g_2) a

is also an element of G acting on an element a in the set A

those are equal , the action ( . ) is not binary

fails the closure , that was not in the book why it is not binary but I figured that one out ><

Leaky Nun

the action is not binary?

Semiclassical

@Jasper here's a terrible mixed metaphor: "Stubborn as a shortsighted mule flogging a dead horse."

Kasmir Khaan

it is not

Leaky Nun

why not?

Kasmir Khaan

3:27 PM

well

that is what is written on the book but let me give you what I understood

Leaky Nun

so what is your point now?

Kasmir Khaan

my point on what?

Semiclassical

let me give you what I understood

Leaky Nun

on all this

Kasmir Khaan

semi how dare you -.-

well my point is that , the group action still not clear to me

Semiclassical

3:29 PM

actually, that was me saying that Leaky should let you finish your point :)

Kasmir Khaan

Oh thanks then =p

Leaky Nun

puts semi on ignore

Kasmir Khaan

what I got so far is that , we have a set A

and a group G

elements of the group acting on this set

what is the idea behind that ? I dont knowyet

there are few important facts on this

i) sigma_g is a permutation of A

Leaky Nun

ping me when you finish

Kasmir Khaan

where sigma_g = g.a

@LeakyNun well if you put it that way am done =P

Leaky Nun

3:31 PM

heh

Kasmir Khaan

@LeakyNun can you give me an example ?

Leaky Nun

is there any example given?

Kasmir Khaan

yes but they are not very clear

Leaky Nun

so what is the example given?

Kasmir Khaan

for any nonempty set A the symmetric group S_A acts on by sigma . a = sigma (a) for all sigma in S_A . the assoociated permutation representation is the identity map from S_A to itself

Leaky Nun

3:34 PM

ugh, more concrete?

Kasmir Khaan

there are but long ones wont look pretty if i type them here

Leaky Nun

alright

Kasmir Khaan

do you still have that link of the book ?

Leaky Nun

are you familiar with D6?

Kasmir Khaan

yes

you use D_2n right?

Leaky Nun

3:35 PM

right

Kasmir Khaan

then yes

Leaky Nun

consider D6 acting on the three vertices

Kasmir Khaan

okay but I dont get what "acting " is

like intuivtivly

Leaky Nun

well

ρ1 acts on 1 to give 2

it carries 1 to 2

Kasmir Khaan

okay hmm ( 123) is what we get when we multiply by rho

lets call the rotation "r "

and reflections "s"

Leaky Nun

3:39 PM

what do you mean (123) is what we get?

Kasmir Khaan

since D_6 is isomorphic to S_3

Leaky Nun

alright

Kasmir Khaan

we use S_3 because of easy type set =p

Leaky Nun

(123) acts on 1 to give 2

r * 1 = 2

Kasmir Khaan

okay

Leaky Nun

3:40 PM

r^2 * 1 = 3

Semiclassical

eh, I'd be careful with that notation. (1) in there is not a permutation

Leaky Nun

ok?

Semiclassical

sure, that works.

Kasmir Khaan

Hmm yes r^2 will send the elemnt 1 to 3

Leaky Nun

and r * 2 = 3

@AlessandroCodenotti buongiorno

Kasmir Khaan

3:42 PM

Yes so far so good

Leaky Nun

and r * (r * 1) = 3

Kasmir Khaan

Yes

Leaky Nun

so we have demonstrated associativity

now is it true that ga=a implies g=e?

Kasmir Khaan

Hmm dont know

Leaky Nun

use this example

Kasmir Khaan

3:44 PM

one second then :D

r^3 (1) = 1

but r^3 = e so that dont work

Not really sure here because we doing the action on the left only

Leaky Nun

continue exploring

what do you mean action on the left?

Kasmir Khaan

we multiply by g on the left

ga

Leaky Nun

is there action on the right?

Kasmir Khaan

I think yes =p

Leaky Nun

continue exploring.

Kasmir Khaan

3:50 PM

from ga =a , we can get (a'g) a =1

Leaky Nun

I mean exploring the xample

and there is no action on the right

and stop using what is obvious to you

without justifying it

the rules are given, not a dot more, not a dot less.

1. g(ha) = (gh)a
2. ea = a

a is an element of a set.

a' is hardly meaningful.

D6 has 6 elements

you have only tried 3 and gave up

Kasmir Khaan

am still trying

there cannot be such element

ga=a in D_6 at least

Leaky Nun

show me what you have tried

Kasmir Khaan

each product is a permutation of the vertices

Leaky Nun

and?

Kasmir Khaan

3:57 PM

well D_6 wont be a group if we can find other elment than the identity such that ga =a

Leaky Nun

what is s1 * 1?

Kasmir Khaan

and from the definiton we have that 1a =a

what is s ?

Leaky Nun

reflection

Kasmir Khaan

the notation comfuses me now

s1 should be (23) right?

Leaky Nun

right

Kasmir Khaan

3:59 PM

(23)*1 = (23)

Leaky Nun

hmm?

Kasmir Khaan

or what is it am missing

1 is the identity ?

Leaky Nun

no, 1 is the vertex labelled 1

this is group action

Semiclassical

one way to keep it straight would be to write the elements of A differently than the elements of G

e.g. (23)[1]=[1]

Leaky Nun

@Semiclassical hey!

alright, (123)[1] = [2]; (132)[1] = [3]

Kasmir Khaan

4:01 PM

You mean the permutation that changes 2 and 3 and keeps 1 fixed

Semiclassical

you could instead do |1> but then you'd get people calling you a physicist :P

Kasmir Khaan

it does not do anything to 1

Leaky Nun

@Semiclassical I mean, hey you gave it away

Semiclassical

ah.

oh well.

Kasmir Khaan

so this is not a normal product

Leaky Nun

4:02 PM

????

Kasmir Khaan

from what I understood now

it is a bit odd

why would we have an element from S_3 acting on a vertex of A

Leaky Nun

but you accepted that (123)[1] = [2] and (132)[1] = [3] @_@

Kasmir Khaan

Hmm yes I did that but after a bit thinking realizing am doing different thing

hmm let me keep thinking

so we have a set A = {1,2,3}

we doing this magic operation on the vertices and we permuting them

(12) [3] = [3]

and (123)[1] = [2]

what kind of black magic is this -.-

is the operation on the set not beteen groups?

Leaky Nun

a group action is a function that takes an element of a group and an element of a set and gives an element of said set

Kasmir Khaan

@LeakyNun what is a said set?

Leaky Nun

4:09 PM

said = aforementioned

Kasmir Khaan

okay

so this product keeps us in A

hmm if we do ( (1234) (14) ) [4]

we get [2]

Leaky Nun

right

Kasmir Khaan

and if we do first (14) [4]

then on the left by (1234) we get 2 also :D

(1234) (14) = (234)

so the first property work =p

and 1a=a

we need the identity of G to do nothing

Leaky Nun

now what is (234)[1]?

Kasmir Khaan

is keeps it [1]

so there is an elemnt ga =a

such that g is not e ofc

pretty neat

Leaky Nun

4:14 PM

prove that {g:ga=a} for a fixed a is a subgroup of G

Semiclassical

I know there's a name for that subgroup, but I forget what it is.

Stabilizer?

Leaky Nun

right

Jasper

stabiliser, centraliser, normaliser, interesting terms.

Kasmir Khaan

well is it not empty because 1a=a

Leaky Nun

I feel like you're going to be extremely hand-wavy in the following steps

Kasmir Khaan

4:17 PM

we assumed ga=a and ha=a , we want to show gha =a

what is hand wavy ? ><

Leaky Nun

relying on intuition

not justifying any step

Kasmir Khaan

oh i just wrote the definiton so far

Semiclassical

You should include a statement like: Suppose $g,h$ are elements of $\{g\in G:ga=a\}$

Leaky Nun

which is why I said "following steps"

@Semiclassical that's alright, lol

Kasmir Khaan

g (ha) = ga =a

used the associative axiom

Leaky Nun

4:19 PM

good

Kasmir Khaan

we need inverse now :D

1.a =a
g'ga =a
g' (ga) = a
g'a=a

used axiom for associativity and 1a=a

ga=a by defintion

Leaky Nun

good

Kasmir Khaan

:Dd

so we have the closure and inverse and non-empty so it is a subgroup

Leaky Nun

right

Kasmir Khaan

@LeakyNun what got me stuck today was group actions and things related to functions, like preimage and left inverse and stuff like that

Leaky Nun

4:26 PM

ok

Kasmir Khaan

I know they are important when we gonna do homomorphisms so really should get those

Can you help me with those? :) i put couple of notes on them

or we can finish this first =p group actions

Leaky Nun

what?

Kasmir Khaan

I mean, do we continue with group actions now or can I ask about functions

only those 2 topics I did not get from chaper 1 and 2

Leaky Nun

whatever you like

Kasmir Khaan

okay , a map is surjective if it has a right inverse

if we have like x^2

from R^+ to R^+

what is its inverse?

Leaky Nun

4:30 PM

sqrt(x)

Kasmir Khaan

sqrt is what I think of , but

hmm why is that a right inverse?

like what is the definiton of right and left inverse in genral

if we have f : A--> B

Semiclassical

If you don't know a definition, look it up.

Kasmir Khaan

the book only sais that injective means left invser

inverse*

and surjective has right inverse

Leaky Nun

look it up on google

Semiclassical

:/

Kasmir Khaan

4:31 PM

nothing else was mentioned ><

Okay I will :D

okay from what I understood

f: A-->B

g:B-->A

gf (x) = x is the left inverse

and fg(x) = x is the right inverse

is that right?

Semiclassical

you wrote the same thing twice.

Kasmir Khaan

oups ><

BAYMAX

Is $\lim_{x \rightarrow 0} x . \tan{\frac{1}{x}} = 0$

Leaky Nun

what is the left inverse? @KasmirKhaan

@BAYMAX no

BAYMAX

its of the form $0 . \infty$

Kasmir Khaan

4:43 PM

@LeakyNun it is the same as in groups =P

gf(x) = x

f has a left invser

Leaky Nun

g is the left inverse.

gf(x)=x is not the left inverse.

BAYMAX

the limit doesnot exist!

Kasmir Khaan

oh yes that what i meant to say =p

but it works the same as in groups

Leaky Nun

@BAYMAX yes

@KasmirKhaan right

Kasmir Khaan

exept here its composition

Semiclassical

4:50 PM

@BAYMAX it may help to let $z=1/x$ and study the limit instead as $z\to \infty$.

Leaky Nun

@TobiasKildetoft how tedious can 7 get lol

BAYMAX

yes $\lim_{z \rightarrow \infty}\frac{\tan(z)}{z}$

@Semiclassical

I think then i should apply l'Hospital rule

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$Mathematics$ Mathematics