How to code Taylor's series approximation of Error function? Is following code right? Please help

8 Mar 2017
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Mise à jour 9 Mar 2017
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z=0:4; ert=zeros(1,length(z)); sm=zeros(1,length(z)); sm=0; for k=1:length(z) for n=0:500 sm=sm+((-1)^n*z(k)^(2*n+1))/(gamma(n-1)*(2*n+1)); end ert(k)=(2/sqrt(pi))*sm; end

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Torsten
Torsten le 8 Mar 2017
Modifié(e) : Torsten le 8 Mar 2017

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Although the coding is not optimal, it looks ok.
Why don't you just compare "ert(k)" and erf(z(k)) to get an answer to your question ?
Best wishes
Torsten.

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Priya Khot
Priya Khot le 8 Mar 2017
if true
% code
end
In the above code, I've compared answers with inbuilt 'erf' MATLAB command answers. I'm getting correct answers only for 0 to 3 after that m getting NaN.

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Torsten
Torsten le 8 Mar 2017
Modifié(e) : Torsten le 9 Mar 2017

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You must avoid to explictly calculate z^(2*n+1)/n!.
For large n and |z|>1, you'll get an infinity/infinity problem.
Use that
[(z^2)^n/n!] = [(z^2)^(n-1)/(n-1)!] * (z^2/n).
Thus, you can calculate summand (n) of the series from summand (n-1) instead of recalculating every summand anew.
Best wishes
Torsten.

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Torsten
Torsten
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