Abstract
Kung and Traub (1974) proposed an iterative method for solving equations defined on the real line. The convergence order four was shown using Taylor expansions, requiring the existence of the fifth derivative not in this method. However, these hypotheses limit the utilization of it to functions that are at least five times differentiable, although the methods may converge. As far as we know, no semi-local convergence has been given in this setting. Our goal is to extend the applicability of this method in both the local and semi-local convergence case and in the more general setting of Banach space valued operators. Moreover, we use our idea of recurrent functions and conditions only on the first derivative and divided difference, which appear in the method. This idea can be used to extend other high convergence multipoint and multistep methods. Numerical experiments testing the convergence criteria complement this study.
Highlights
We consider approximating a solution x ∗ of equationReceived: 8 September 2021F ( x ) = 0, Accepted: 13 October 2021Published: 19 October 2021Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affilwhere F : Ω ⊂ V1 −→ V2 is an operator acting between Banach spaces V1 and V2 withΩ 6= ∅
Kung and Traub, in [1], introduced a fourth-order iterative method for solving nonlinear equations on the real line. This method in Banach space is defined for n = 0, 1, 2, . . . by iations
As in the semi-local convergence case we develop the following conditions (C1)–(C4)
Summary
We consider approximating a solution x ∗ of equation. F ( x ) = 0, Accepted: 13 October 2021. Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affilwhere F : Ω ⊂ V1 −→ V2 is an operator acting between Banach spaces V1 and V2 with. Kung and Traub, in [1], introduced a fourth-order iterative method for solving nonlinear equations on the real line. This method in Banach space is defined for n = 0, 1, 2, .
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