Solving nonlinear fractional differential equation using a multi-step Laplace Adomian decomposition method

Mohammad Al-Zurigat


This paper presents a numerical technique for solving fractional di¤erential

equations by employing the multi-step Laplace Adomian decomposition method (MLADM).

The proposed scheme is only a simple modi.cation of the Adomian decomposition method,

in which it is treated as an algorithm in a sequence of small intervals (i.e. time step) for

.nding accurate approximate solutions to the corresponding problems. The MLADM is

applied for four problems to solve non-linear fractional di¤erential equations which were

presented as fractional initial value problems. The fractional derivatives are described

in the Caputo sense. Figurative comparisons between the MLADM and the classical

fourth-order Runge.Kutta method (RK4) revealed that MLADM is more e¤ective and


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