How to Find the Expectation Value of Momentum?

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Homework Statement


find expectation value of the momentum fro

SI(x,t) = (1/aPI)^1/4 exp((-x^2)/2a)


Homework Equations


pSI(x,t) = -ih dsi/dx
<SI*[p]SI> = integral SI*pSI dx

The Attempt at a Solution



just need help with the integral
 
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I'm having a bit of trouble following your notation, but I'm guessing you're trying to calculate:

&lt;P&gt; = \int_{-\infty}^\infty \psi(p) p \psi^*(p) dp

where:

\psi(p) = \int_{-\infty}^\infty \psi(x) e^{\frac{\imath p x}{\hbar}} dx

Which integral do you need help with?

--------
Assaf
http://www.physicallyincorrect.com/"
 
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yes its the first integral
Im following a soloution to a similar question in my notes and it says something about odd/even function? thanks
 
Have you calculated \psi(p) yet? If so, what was your result? If not, let's start with that.
 
hope you get the notation lol
hopefully this is right

SI(p) = ih(1/aPI)^1/4 ((x/a)exp ((-x^2)/2a)))


what do you use to get the notation on the forum?
 
When you use the operator p on Psi in the integral, a factor of x will pop out when you take the derivative of Psi. Then you'll have something like x times e^(-x^2) and then you should use the properties of even and odd functions to simplify the integral greatly.

Hope that helps
 

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