In this paper, we provide an overview of fractal calculus as applied to fractal sets. We introduce the concept of power series defined on fractal sets and explore series solutions for second alpha-order fractal linear differential equations, particularly focusing on solutions near ordinary points. We also investigate the radius of convergence for these fractal series, elucidating the region where these series representations are valid. Furthermore, we employ the fractal Frobenius method to derive series solutions for second alpha-order linear fractal differential equations near regular singular points. By utilizing this method, we obtain analytical expressions that are applicable in the vicinity of such singularities, enhancing our understanding of fractal differential equations. To illustrate our findings, we graphically represent these solutions, providing visual demonstrations of the outcomes. These graphs serve to complement our analytical results and offer insights into the behavior of solutions within the context of fractal calculus and differential equations on fractal sets.
Khalili Golmankhaneh A., Bongiorno D., Jebali H., Jorgensen P.E.T. (2024). Power series solution for fractal differential equations. BOLLETTINO DELLA UNIONE MATEMATICA ITALIANA [10.1007/s40574-024-00432-9].
Power series solution for fractal differential equations
Bongiorno D.;
2024-08-12
Abstract
In this paper, we provide an overview of fractal calculus as applied to fractal sets. We introduce the concept of power series defined on fractal sets and explore series solutions for second alpha-order fractal linear differential equations, particularly focusing on solutions near ordinary points. We also investigate the radius of convergence for these fractal series, elucidating the region where these series representations are valid. Furthermore, we employ the fractal Frobenius method to derive series solutions for second alpha-order linear fractal differential equations near regular singular points. By utilizing this method, we obtain analytical expressions that are applicable in the vicinity of such singularities, enhancing our understanding of fractal differential equations. To illustrate our findings, we graphically represent these solutions, providing visual demonstrations of the outcomes. These graphs serve to complement our analytical results and offer insights into the behavior of solutions within the context of fractal calculus and differential equations on fractal sets.
| File | Dimensione | Formato | |
|---|---|---|---|
|
power series.pdf
Solo gestori archvio
Tipologia:
Versione Editoriale
Dimensione
593.8 kB
Formato
Adobe PDF
|
593.8 kB | Adobe PDF | Visualizza/Apri Richiedi una copia |
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
