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I have an implicit equation in Mathematica, which I solve by using NSolve. Now, I need to weigh the various solutions according to a Gaussian, but I can't quite make it work. Here is my suggestion so far:

a = (4.2*10^(-5));
b = 4067;
c = 112;
sol[d_] := Select[NSolve[s == (1 + a^2*(2*Pi*1000*d)^2)/((1 + c/(1 + (s*b)/(1 + a^2*(2*Pi*1000*d)^2)))^2 + a^2*(2*Pi*1000*d)^2), {s}], Chop[(Im[s] /. #)] == 0 &][[1]][[1]][[2]];

NIntegrate[Exp[-v^2]*sol[v], {v, -2, 2}]

However, this does not work. Does anyone know what I am doing wrong? What I want is pretty straightforward, but I've had some problems implementing it.

Best, Niles.

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I know the expression for "sol" is overwhelming, but Plot[sol[d],{d,-100,100}] should make it more "familiar". (it may take 5-10 seconds) –  BillyJean Dec 15 '12 at 14:00

1 Answer 1

up vote 3 down vote accepted

Try this; the main points are to use the third argument to NSolve to specify the domain and to make sure the function sol2 is called only on a numerical argument.

sol2[d_?NumericQ] := NSolve[s == (1 + 
     a^2*(2*Pi*1000*d)^2)/((1 + 
        c/(1 + (s*b)/(1 + a^2*(2*Pi*1000*d)^2)))^2 + 
     a^2*(2*Pi*1000*d)^2), {s}, Reals][[1]][[1]][[2]]

NIntegrate[Exp[-v^2]*sol2[v], {v, -2, 2}]
(* 1.66556 *)


Plot[Exp[-v^2]*sol2[v], {v, -2, 2}]

plot

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The reason why I explicitly wanted to integrate over v first was such that I could plot it as a function of d. So first NIntegrate over v (where the argument of sol is sol[d + v]) and then plot as a function of d. In my OP I just took the single point d=0 –  BillyJean Dec 15 '12 at 14:16
1  
Integration works too, please see edit. –  b.gatessucks Dec 15 '12 at 14:19

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