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Can I ask for some help in the assigning of variables in my matematica module to solve for my PD function.

 PD[a_,l_]:= Module[(a=[x1,y1,P],l=[x2,y2]; PD.=P./(4*pi*((x2-x1)^2)+(y2-y1)^2))]
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Welcome to Stack Overflow. There is a website, I'm suggesting that is a better place for your question. A moderator should be able to migrate it for you. – Jeremy Thompson Oct 22 '12 at 4:32
If I understand what you mean (the syntax is incorrect) the inputs to PD are x1, y1, x2, y2, P rather than a, l. – b.gatessucks Oct 22 '12 at 6:55
Here's some unasked for help: PD.= does not have a syntactically-correct form, nor does P./; don't expect the variable pi to be interpreted to have the value 3.14159...; finally, it's unusual in Mathematica to make an assignment in a function to a variable with the same name as the function, a Module will return a value or values if you write it properly. – High Performance Mark Oct 22 '12 at 7:30
Thanks B.gatessucks !! I am confused in the assigning of variables. the argument 'a' is made up of my list of {x1,y1,P} and 'l' is made up of {x2,y2} these elements are components of my final equation which I have edited to be N[PD=(P/(4*Pi*((x2 - x1) + (y2 - y1)))) ]] - My question is how do I assign the elements of the list to their specific arguments. My in function would have values for each of the elements listed as such PD[{x1,y1,P},{x2,y2}] – user1766845 Oct 22 '12 at 23:37

Something like :

pd[a_, l_] :=  a[[3]]/(4 Pi ((l[[1]] - a[[1]])^2 + (l[[2]] - a[[2]])^2))

pd[{1, 2, 3}, {4, 5}]
(* 1/(24 \[Pi]) *)

You might also want to redefine your arguments; for instance :

pd2[r1_, r2_, p_] = p/(4 Pi EuclideanDistance[r1, r2]^2);

pd2[{1, 2}, {4, 5}, 3]
(* 1/(24 \[Pi]) *)
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