Integrating 1/sqrt(x^2 + y^2 + z^2) Using Trig Substitution: A Physics Problem

AI Thread Summary
The discussion revolves around the challenge of integrating the function 1/sqrt(x^2 + y^2 + z^2) over a specified domain. The original poster initially considers using trigonometric substitution but struggles with the integration process. A suggestion is made to convert to polar coordinates if the domain is circular, but the poster clarifies that the domain is a square sheet. In response, a hyperbolic substitution method is proposed to simplify the integration by treating y^2 + z^2 as a constant with respect to x. The conversation highlights the complexities of double integrals in different coordinate systems.
perryben
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On this physics problem i need to do a double integral (dx,dy) of 1/sqrt(x^2 + y^2 +z^2). Which looks easy enough at first, until I reallized (after many hours) I cannot figure out how to integrate it. I am sure at this point there is some trig substitution (learned too long ago...), but I am basically lost.
 
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What's the shape of the domain of integration...?

If it's a circular one (even the \mathbb{R}^{2} can be thought of as a disk of infinite radius), u can convert to polar plane coordinates...

Daniel.
 
Yah, but its a square sheet. thanks though
 
In that case, u can depict y^{2}+z^{2} as a constant (wrt "x") t^{2} and use a hyperbolic substitution, in this case

x=t\sinh u

and then regroup everything and put "y" back and try to integrate the remaining (only of "y" dependent) function.


Daniel.
 

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