I tried this method and so far i got correct values for the real part ( A ) but they re wrong for the imaginary part ("B") I want to know if someone tried in his side this solution
Cordialement Lahoussaine BOURRICHE 3A, ENSEEIHT , Physique numérique +33 6 20 76 17 12 De: "Lahoussaine Bourriche" <lahoussaine.bourri...@etu.toulouse-inp.fr> À: "Tetsuo Koyama" <tkoyama...@gmail.com> Cc: "getfem-users" <getfem-users@nongnu.org> Envoyé: Mardi 17 Mai 2022 10:33:33 Objet: Re: Harmonic Studies I don't know i need to compare results with another software who does the same thing as this algorithme i wrote (Compute the losses for each harmonique ) Cordialement Lahoussaine BOURRICHE 3A, ENSEEIHT , Physique numérique +33 6 20 76 17 12 De: "Tetsuo Koyama" <tkoyama...@gmail.com> À: "Lahoussaine Bourriche" <lahoussaine.bourri...@etu.toulouse-inp.fr>, "getfem-users" <getfem-users@nongnu.org> Envoyé: Mardi 17 Mai 2022 10:09:05 Objet: Re: Harmonic Studies Dear Lahoussaine I think it's the best way to do it. Are there any problems with that method? Best Regards Tetsuo 2022年5月17日(火) 16:24 Bourriche Lahoussaine < [ mailto:lahoussaine.bourri...@etu.toulouse-inp.fr | lahoussaine.bourri...@etu.toulouse-inp.fr ] >: Hello, I'm still working of diffusion equation; In my part i wrote the vector as A=A_nCos(omega*n*t)+B_nSin(omega*n*t) Then i extract two equations and i implmented them Cordialement Lahoussaine BOURRICHE 3A, ENSEEIHT , Physique numérique +33 6 20 76 17 12 De: "Tetsuo Koyama" < [ mailto:tkoyama...@gmail.com | tkoyama...@gmail.com ] > À: "Lahoussaine Bourriche" < [ mailto:lahoussaine.bourri...@etu.toulouse-inp.fr | lahoussaine.bourri...@etu.toulouse-inp.fr ] > Envoyé: Mardi 17 Mai 2022 08:03:55 Objet: Re: Harmonic Studies Dear Bourriche > Do you have any idea how treat harmonics in magnetic problems ( another > approach to treat the time problem ) . Please explain about the problem more explicitly. - Which equation do you want to solve? - What discretization is assumed? Best Tetsuo