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Topic: Determine the normalization constant?  (Read 22166 times)

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Offline mnq

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Determine the normalization constant?
« on: September 07, 2010, 10:14:23 PM »

Determine the Normalization constant for a particle in a 1-D box given that the eigenfunctions for a particle in a box can be expressed as Psi(x)=N Sin((n*pi*x)/a) where N is the normalization constant. Use the relationship Sin^2 y = 1/2(1-cos 2y)

Any help would be appreciated.

Offline MrTeo

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Re: Determine the normalization constant?
« Reply #1 on: September 08, 2010, 03:21:38 AM »
I don't know... maybe I'm wrong but I can't find it...
Here's your function:



The normalizing constant N makes the area under the graph of the function equal to 1:



So we find:



But the following limit doesn't exist:



Also, why do they give you the half-angle formula as a hint? I don't know where you can use it...
The way of the superior man may be compared to what takes place in traveling, when to go to a distance we must first traverse the space that is near, and in ascending a height, when we must begin from the lower ground. (Confucius)

Offline tamim83

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Re: Determine the normalization constant?
« Reply #2 on: September 08, 2010, 08:24:15 AM »
Remember, you are only integrating between 0 and a (the length of the box) since this is a boundary condition. 

Offline MrTeo

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Re: Determine the normalization constant?
« Reply #3 on: September 08, 2010, 12:57:03 PM »
Remember, you are only integrating between 0 and a (the length of the box) since this is a boundary condition.  

Thanks for the advice  ;)
So:



and:



Knowing that $$ \cos\left(n\pi\right)=-1 /$$ and that $$ \cos\left(0\right)=1 /$$ we have:



Right?


The way of the superior man may be compared to what takes place in traveling, when to go to a distance we must first traverse the space that is near, and in ascending a height, when we must begin from the lower ground. (Confucius)

Offline Jorriss

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Re: Determine the normalization constant?
« Reply #4 on: September 10, 2010, 09:58:49 PM »
Mr. Teo, you forgot that you are taking the intergral of the wave function squared. It would be the integral from 0 to a of N^2Sin^2(stuff), etc, etc.

Man, how are you writing those symbols lol?

Offline MrTeo

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Re: Determine the normalization constant?
« Reply #5 on: September 11, 2010, 02:35:08 AM »
Mr. Teo, you forgot that you are taking the intergral of the wave function squared. It would be the integral from 0 to a of N^2Sin^2(stuff), etc, etc.

Can't convince myself that I'm not working with a gaussian...  ::)
So (Erratum):

$$ \int_0^a\left(\psi\left(x\right)\right)^2dx=1 \\
N\int_0^a\left(\sin\frac{n\pi x}{a}\right)^2dx=1 \\
\int\left(\sin\frac{n\pi x}{a}\right)^2dx=\int\frac{1-\cos\frac{2n\pi x}{a}}{2}dx=\frac{1}{2}x-\frac{a}{4n \pi}\sin\frac{2n\pi x}{a}+k \\
\int_0^a\left(\psi\left(x\right)\right)^2dx=N\left[\frac{1}{2}x-\frac{a}{4n \pi}\sin\frac{2n\pi x}{a}\right]_0^a=1 \\
N=\frac{2}{a} /$$

Man, how are you writing those symbols lol?

http://en.wikibooks.org/wiki/LaTeX
http://www.chemicalforums.com/index.php?topic=28176.0
The way of the superior man may be compared to what takes place in traveling, when to go to a distance we must first traverse the space that is near, and in ascending a height, when we must begin from the lower ground. (Confucius)

Offline Jorriss

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Offline tamim83

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Re: Determine the normalization constant?
« Reply #7 on: September 11, 2010, 11:15:07 PM »
Don't forget to square the "N" as well, that will change your answer a bit. 

I am actually having some problems getting LaTex to work.  I guess my browser (Safari) isn't recognizing the code?  It just shows up as written. 

Offline MrTeo

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Re: Determine the normalization constant?
« Reply #8 on: September 12, 2010, 02:23:14 AM »
Don't forget to square the "N" as well, that will change your answer a bit. 

$$ N=\sqrt{\frac{2}{a}} /$$

I am actually having some problems getting LaTex to work.  I guess my browser (Safari) isn't recognizing the code?  It just shows up as written. 

I use Safari too (5.0.1) and LaTeX works like a charm... but I also have a TeX distribution installed.
The way of the superior man may be compared to what takes place in traveling, when to go to a distance we must first traverse the space that is near, and in ascending a height, when we must begin from the lower ground. (Confucius)

Offline tamim83

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Re: Determine the normalization constant?
« Reply #9 on: September 12, 2010, 10:44:36 AM »
I had an older version of Safari.  Lets see if this works:

 

Success!

Offline mnq

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Re: Determine the normalization constant?
« Reply #10 on: September 14, 2010, 07:20:11 PM »
Thanks you guys

Offline love48

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Re: Determine the normalization constant?
« Reply #11 on: January 30, 2011, 12:18:40 PM »
The wave function Ψ(theta), for the motion of a particle in a ring is  Ψ= Ne^(imφ).
Determine the normalization constant.

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