Solve Troublesome Integral Homework Problem

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Homework Help Overview

The discussion revolves around a complex integral problem involving a Dirac delta function and constants related to physics. The problem is set in a three-dimensional space and requires understanding of the integration process and the variables involved.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning, Assumption checking

Approaches and Questions Raised

  • Participants discuss the nature of the integrand and its implications for the integral's evaluation. Questions arise regarding the integration variables and the meaning of certain notations, such as the Dirac delta function and the notation for integration in three dimensions.

Discussion Status

There is an ongoing exploration of the notation and the setup of the problem. Some participants have provided clarifications regarding the integration process and the use of the Dirac delta function, while others are questioning the definitions and assumptions related to the variables involved.

Contextual Notes

Participants note issues with the forum's LaTeX functionality and discuss potential typos in the problem statement. There is also uncertainty regarding the interpretation of the variable p and its relationship to the three-dimensional space being integrated over.

Appledave
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Homework Statement



Here is the problem: http://img810.imageshack.us/i/skjghl.jpg/
(I failed repeatedly to write the problem with forum latex code)

Homework Equations



N/A

The Attempt at a Solution


I thought that since the integrand is nonzero only when b - E - p = 0, the integral would be equal to all the constant terms times the area of a sphere with radius given by b - E - p = 0 (that is, p = (b^2 - a^2)/2b), but I wound up with the wrong answer.
 
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The use of LaTex on the forum has a bug. To get a page displayed correctly, you must use the "preview" function of the editor and then use the refresh or reload feature of your browser. Before the reload, a preview can look crazy since it picks up symbols from old messages. You must use a similar procedure when you edit a message.

\omega = 2 \pi G^2 \int \frac{ d^3p}{(2\pi)^3} \frac{f^2 a^2}{2E}\delta(b - E - p)

E = \sqrt{a^2 + p^2) and a,b,f and G are constants.

Show that \omega = \frac{ G^2 f^2 a^2 b (1 - \frac{a^2}{b^2} )^2}{8\pi}

We are integrating with respect to which variables? Is p a function of a single variable?
 
Last edited:
We are integrating over all space for the single variable p.

You've made a small typo, the Dirac's delta function isn't supposed to be squared, but thanks for the heads up on the bug and for putting my question into forum latex code =].
 
I edited it to fix the typo.
And I fixed another typo. I had p instead of b listed as a constant.
 
Last edited:
I still don't understand the notation completely. This is 3D space, right? What is d ?
Is d^3 a constant or a notation for a derivative?
 
d^{3}p is like the dx usually found at the end of integrals, and it means that we integrate the variable p over all of the 3D space. It should be at the end, but for some reason many people (at least among physicists) like to put it right after the integration symbol.
 
How does the constraint p = \frac{ b^2 - a^2} {2b} define a surface of any kind?

The letter p [/tex] denotes some function p(x,y,z) , right? Is p(x,y,z) = \sqrt(x^2 + y^2 + z^2)?
 

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