To the Mathematical Geniuses out there. (1 Viewer)

Omiums Troll

New Member
Joined
May 14, 2009
Messages
29
Gender
Male
HSC
2007
I was hoping for some help.

I just need to know if what I've done is mathematically legal.

I have "A" which is function of x given by :

A(x) = [Integral from 0 to infinity] cos(t^3 + x*t)) dt

t is an unknown.


Lets say i wish to find the value of x, at which A(x) = 0

Can i simply do this:

A(x) =0

0 = cos(t^3 + x*t)

hence x = something ugly
?
 

madsam

God among men
Joined
Feb 16, 2008
Messages
250
Gender
Male
HSC
2009
no, first you have to integrate it all as an indefinate integral, then sub in t = o, then solve using the limits to find A(0)
 
Last edited:

Omiums Troll

New Member
Joined
May 14, 2009
Messages
29
Gender
Male
HSC
2007
no, first you have to integrate it all as an indefinate integral, then sub in t = o to find A(0)
I don't want A(0)

I would like A(x) = 0

i.e. my function looks like this

A(x )= [Integral from 0 to infinity] cos(t^3 + x*t)) dt

I want

A(x) = 0

Thus i have

0 = [Integral from 0 to infinity] cos(t^3 + x*t)) dt

Can't i simply say "Differentiate both sides with respect to 't' "

and viola integral thingy is gone ?

Iruka or other maths prodigies, any thoughts ?
 

_santa

Member
Joined
Feb 6, 2009
Messages
111
Location
/
Gender
Female
HSC
2008
I don't want A(0)

I would like A(x) = 0

i.e. my function looks like this

A(x )= [Integral from 0 to infinity] cos(t^3 + x*t)) dt

I want

A(x) = 0

Thus i have

0 = [Integral from 0 to infinity] cos(t^3 + x*t)) dt

Can't i simply say "Differentiate both sides with respect to 't' "

and viola integral thingy is gone ?

Iruka or other maths prodigies, any thoughts ?
I dont think you can, because you can only "Differentiate both sides with respect to 't'" when that int is indefinite, here it is (0 to infinity). So yeah you have to calculate the int.
 

undalay

Active Member
Joined
Dec 14, 2006
Messages
1,002
Location
Ashfield
Gender
Male
HSC
2008
Is this question possible ?

edit: like frm a textbook or something?
 

undalay

Active Member
Joined
Dec 14, 2006
Messages
1,002
Location
Ashfield
Gender
Male
HSC
2008
Okay got it (possibly?):

A(x) = [Integral from 0 to infinity] cos(t^3 + x*t)) dt

t^3 + x*t = (pi/2 + kpi) k e Z

x = ((pi/2+kpi) - t^3)/t

now t^3 + x*t is always zero.

So basically you're going to be finding the area under a curve that is always zero.
Which must be zero.

??
 

Omiums Troll

New Member
Joined
May 14, 2009
Messages
29
Gender
Male
HSC
2007
Is this question possible ?

edit: like frm a textbook or something?
Ok i will provide some background.

I'm doing a Quantum mechanics question, I need to solve the schroedinger equation for the potential,

I need to assume that the wavefunction can be solved by an Airy function.

To find the quantised heights i need to find the first 4 roots of the Airy function which is :

Airy function - Wikipedia, the free encyclopedia
 

undalay

Active Member
Joined
Dec 14, 2006
Messages
1,002
Location
Ashfield
Gender
Male
HSC
2008
Is my above solution correct?

I think it's the only way, since with any non zero function you're trying to integrate:

(For the above equation)
It's oscillating (parts will be positive, parts will be negative), and so a limit to infinity will inevitably lead to an oscillating value (and by that I mean no limit)
 

Omiums Troll

New Member
Joined
May 14, 2009
Messages
29
Gender
Male
HSC
2007
Okay got it (possibly?):

A(x) = [Integral from 0 to infinity] cos(t^3 + x*t)) dt

t^3 + x*t = (pi/2 + kpi) k e Z

x = ((pi/2+kpi) - t^3)/t

now t^3 + x*t is always zero.

So basically you're going to be finding the area under a curve that is always zero.
Which must be zero.

??
t^3 + x*t is not always zero.

There are infinitely many roots of which, i need to find the first "4"

Your solution is EXACTLY what i have yes.

But that's not really what I'm after, I still don't know if its legal to do what we've done.

Then again, this seems like the only way to do this problem so it must be legal.
 
Last edited:

undalay

Active Member
Joined
Dec 14, 2006
Messages
1,002
Location
Ashfield
Gender
Male
HSC
2008
t^3 + x*t is not always zero.

There are infinitely many roots of which, i need to find the first "4"

Your solution is EXACTLY what i have yes.

But that's not really what I'm after, I still don't know if its legal to do what we've done.

Then again, this seems like the only way to do this problem so it must be legal.
Oh yeah it is : )

You may need to email your tutor/lecturer they are always helpful.
 

Iruka

Member
Joined
Jan 25, 2006
Messages
544
Gender
Undisclosed
HSC
N/A
I assume that this is for a physics assigment? If so, a sufficiently accurate numerical approximation to the problem should suffice.

The Airy function is defined as the solution to the DE

y'' = xy.

That equation you have is an alternate representation of the Airy function. In this case, not necessarily the most helpful one.

You can use the method of Frobenius to find a series solution to this equation. (If you have done the second year maths subject about DEs you should know what I am talking about.) According to one of my maths books, for small x the series solution converges fairly quickly. This means that you can find an approximate solution by truncating the infinite series after a *reasonable* number of terms. You should probably use Maple or Matlab for this. Maple may already know about the Airy function - you can check the help menu.

Alternately, you can just cite the values given on the wolfram website that lolokay linked to.
 

Omium

Knuckles
Joined
Feb 7, 2008
Messages
1,738
Location
Physics
Gender
Male
HSC
2007
Thanks guys. I figured it out.

One last question dumb math question.

I don't really understand the change of derivative maths rules.

i.e. we will be doing this mathematical problem such as: (THIS IS NOT THE EXACT QUESTION)

x = integral (r^2)/(sqrt(a^2+r^2) d/dr.

Then they suddenly say "Its simpler if we take d/d(r^2)"

Then they write something like

1/sqrt(a^2 + r^2 ) d/d(r^2) and it becomes much simpler to solve.

A large ammount of times with questions they "change the differentiation variable" from lets say "r" to 1/r or 1/r^2

Could someone just tell me what mathematics topic this is (probably something like "change of differentaion variable or similar")

Or explain to me the finer details of what's going on.

I've tried searching on the net for practise problem, but no luck. :(
 

Uncle

Banned
Joined
Feb 5, 2009
Messages
3,265
Location
Retirement Village of Alaska
Gender
Male
HSC
2007
no, first you have to integrate it all as an indefinate integral, then sub in t = o, then solve using the limits to find A(0)
lol hsc 2009

Thanks guys. I figured it out.

One last question dumb math question.

I don't really understand the change of derivative maths rules.

i.e. we will be doing this mathematical problem such as: (THIS IS NOT THE EXACT QUESTION)

x = integral (r^2)/(sqrt(a^2+r^2) d/dr.

Then they suddenly say "Its simpler if we take d/d(r^2)"

Then they write something like

1/sqrt(a^2 + r^2 ) d/d(r^2) and it becomes much simpler to solve.

A large ammount of times with questions they "change the differentiation variable" from lets say "r" to 1/r or 1/r^2

Could someone just tell me what mathematics topic this is (probably something like "change of differentaion variable or similar")

Or explain to me the finer details of what's going on.

I've tried searching on the net for practise problem, but no luck. :(
that integral is a bit hard to read itself but,
ummmm...all i can think of is leibniz's rule:

give it a try:



from m.pahor's math2019 lecture
 

LordPc

Active Member
Joined
May 17, 2007
Messages
1,370
Location
Western Sydney
Gender
Male
HSC
2008
I need help too, although this question is from 1st year maths, so its not purely restricted to "Mathematical Geniuses".

if f is differentiable at a, find

lim h->0 of {f(a+ph) - f(a-ph)} / h
 

ianc

physics is phun!
Joined
Nov 7, 2005
Messages
618
Location
on the train commuting to/from UNSW...
Gender
Male
HSC
2006
I need help too, although this question is from 1st year maths, so its not purely restricted to "Mathematical Geniuses".

if f is differentiable at a, find

lim h->0 of {f(a+ph) - f(a-ph)} / h
sorry i haven't done maths for a while (so it might be wrong), but here goes....

also, im assuming p is just a real constant






hope this helps :)
 

LordPc

Active Member
Joined
May 17, 2007
Messages
1,370
Location
Western Sydney
Gender
Male
HSC
2008
ahh, thx.

although why does { f(a-ph) - f(a) } / ph
become -f'(a)

is this some sort of result that I should know
 

ianc

physics is phun!
Joined
Nov 7, 2005
Messages
618
Location
on the train commuting to/from UNSW...
Gender
Male
HSC
2006
i spose you could memorise the result, but i'll try to explain it:

well basically the derivative = gradient = rise/run

to work out the rise between a and a+h, you use f(a+h)-f(a).

to work out the rise between (a-h) and (a), the definition of rise is f(a)-f(a-h)


but in our equation previously, we had f(a-h)-f(a)
= - [f(a)-f(a-h)]
= - rise
= -f'(a)

it's a dodgy explanation, but does that help?
 

Users Who Are Viewing This Thread (Users: 0, Guests: 1)

Top