AbstractThe Adomian decomposition is used in order to obtain a family of methods to solve systems of nonlinear equations. The order of convergence of these methods is proved to be p≥2, under the same conditions as the classical Newton method. Also, numerical examples will confirm the theoretical results
In this paper, we present some new modification of Newton’s method for solving nonlinear equations. ...
We introduce a new family of iterative methods for solving mathematical models whose governing equat...
In this article, a modification of Newton’s method with fifteenth-order convergence is presented. Th...
AbstractIn this paper, we present a sequence of iterative methods improving Newton's method for solv...
In this paper, we suggest and analyze two new algorithm of fourth and fifth order convergence. We re...
AbstractIn this paper, we present a sequence of iterative methods improving Newton's method for solv...
AbstractIn this work we introduce a technique for solving nonlinear systems that improves the order ...
Various problems of pure and applied sciences can be studied in the unified framework of nonlinear e...
This paper presents a methodology for constructing iterative schemes of any order of convergence for...
In this work we introduce a technique for solving nonlinear systems that improves the order of conve...
Abstract – In this paper, we suggest an iterative method of order four for solving nonlinear equatio...
AbstractIn this article, we implement a relatively new numerical technique, the Adomian decompositio...
[EN] A set of multistep iterative methods with increasing order of convergence is presented, for sol...
[EN] A set of multistep iterative methods with increasing order of convergence is presented, for sol...
In this paper, we want to construct a new high-order and efficient iterative technique for solving a...
In this paper, we present some new modification of Newton’s method for solving nonlinear equations. ...
We introduce a new family of iterative methods for solving mathematical models whose governing equat...
In this article, a modification of Newton’s method with fifteenth-order convergence is presented. Th...
AbstractIn this paper, we present a sequence of iterative methods improving Newton's method for solv...
In this paper, we suggest and analyze two new algorithm of fourth and fifth order convergence. We re...
AbstractIn this paper, we present a sequence of iterative methods improving Newton's method for solv...
AbstractIn this work we introduce a technique for solving nonlinear systems that improves the order ...
Various problems of pure and applied sciences can be studied in the unified framework of nonlinear e...
This paper presents a methodology for constructing iterative schemes of any order of convergence for...
In this work we introduce a technique for solving nonlinear systems that improves the order of conve...
Abstract – In this paper, we suggest an iterative method of order four for solving nonlinear equatio...
AbstractIn this article, we implement a relatively new numerical technique, the Adomian decompositio...
[EN] A set of multistep iterative methods with increasing order of convergence is presented, for sol...
[EN] A set of multistep iterative methods with increasing order of convergence is presented, for sol...
In this paper, we want to construct a new high-order and efficient iterative technique for solving a...
In this paper, we present some new modification of Newton’s method for solving nonlinear equations. ...
We introduce a new family of iterative methods for solving mathematical models whose governing equat...
In this article, a modification of Newton’s method with fifteenth-order convergence is presented. Th...
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