AbstractA biparametric family of four-step multipoint iterative methods of order sixteen to solve nonlinear equations are developed and their convergence properties are established. The optimal efficiency indices are all found to be 161/5≈1.741101. Numerical examples as well as comparison with existing methods are demonstrated to verify the developed theory
[EN] There is a few number of optimal fourth-order iterative methods for obtaining the multiple root...
2000 Mathematics Subject Classification: 65H10.Here we give methodological survey of contemporary me...
In this paper we deal with iterative methods of interpolatory type, for solving nonlinear equations ...
AbstractA biparametric family of four-step multipoint iterative methods of order sixteen to numerica...
A class of optimal iterative methods for solving nonlinear equations is extended up to sixteenth-ord...
Kung-Traub conjecture states that an iterative method without memory for finding the simple zero of ...
AbstractA second-derivative-free iteration method is proposed below for finding a root of a nonlinea...
AbstractIn this paper, a new family of third-order methods for finding multiple roots of nonlinear e...
In this paper, we present a family of optimal, in the sense of Kung-Traub's conjecture, iterative me...
A family of derivative-free methods of seventh-order convergence for solving nonlinear equations is ...
This article considers the implementation of one step hybrid block method, three generalized hybrid ...
AbstractLet f:C→C have a multiple zero α with integer multiplicity m≥1 and be analytic in a sufficie...
[EN] In this paper, we have constructed a derivative¿free weighted eighth¿order iterative method ...
We provide a tighter than before convergence analysis for the two-step Newton method of order four u...
Abstract: This paper studies a novel without memory sixth-order method for computing simple roots of...
[EN] There is a few number of optimal fourth-order iterative methods for obtaining the multiple root...
2000 Mathematics Subject Classification: 65H10.Here we give methodological survey of contemporary me...
In this paper we deal with iterative methods of interpolatory type, for solving nonlinear equations ...
AbstractA biparametric family of four-step multipoint iterative methods of order sixteen to numerica...
A class of optimal iterative methods for solving nonlinear equations is extended up to sixteenth-ord...
Kung-Traub conjecture states that an iterative method without memory for finding the simple zero of ...
AbstractA second-derivative-free iteration method is proposed below for finding a root of a nonlinea...
AbstractIn this paper, a new family of third-order methods for finding multiple roots of nonlinear e...
In this paper, we present a family of optimal, in the sense of Kung-Traub's conjecture, iterative me...
A family of derivative-free methods of seventh-order convergence for solving nonlinear equations is ...
This article considers the implementation of one step hybrid block method, three generalized hybrid ...
AbstractLet f:C→C have a multiple zero α with integer multiplicity m≥1 and be analytic in a sufficie...
[EN] In this paper, we have constructed a derivative¿free weighted eighth¿order iterative method ...
We provide a tighter than before convergence analysis for the two-step Newton method of order four u...
Abstract: This paper studies a novel without memory sixth-order method for computing simple roots of...
[EN] There is a few number of optimal fourth-order iterative methods for obtaining the multiple root...
2000 Mathematics Subject Classification: 65H10.Here we give methodological survey of contemporary me...
In this paper we deal with iterative methods of interpolatory type, for solving nonlinear equations ...