In this paper, a few single-step iterative methods, including classical Newton’s method and Halley’s method, are suggested by applying [ 1 , n ] -order Padé approximation of function for finding the roots of nonlinear equations at first. In order to avoid the operation of high-order derivatives of function, we modify the presented methods with fourth-order convergence by using the approximants of the second derivative and third derivative, respectively. Thus, several modified two-step iterative methods are obtained for solving nonlinear equations, and the convergence of the variants is then analyzed that they are of the fourth-order convergence. Finally, numerical experiments are given to illustrate the practicabil...
We present a new fourth order method for finding simple roots of a nonlinear equation f(x)=0. In ter...
In this work, we have developed a fourth order Newton-like method based on harmonic mean and its mul...
In this paper, we derive a new modified third order convergence iterative methods for computing mult...
In this paper, we present some new modification of Newton’s method for solving nonlinear equations. ...
In this paper, a new three-step iterative method for finding a simple root of the nonlinear equatio...
In this work, two iterative methods, based on Newton’s method, to obtain the numerical solutions of ...
We present another simple way of deriving several iterative methods for solving nonlinear equations ...
AbstractIn this work we introduce a technique for solving nonlinear systems that improves the order ...
In this paper, we consider a modification of the Newton's method which produce iterative method with...
In this paper , an efficient new procedure is proposed to modify third –order iterative method obtai...
Abstract – In this paper, we suggest an iterative method of order four for solving nonlinear equatio...
AbstractThis paper concentrates on iterative methods for obtaining the multiple roots of nonlinear e...
We present new high-order optimal iterative methods for solving a nonlinear equation, f(x)=0, by usi...
AbstractIn [YoonMee Ham etal., Some higher-order modifications of Newton’s method for solving nonlin...
In this study, a three-point iterative method for solving nonlinear equations is presented. The purp...
We present a new fourth order method for finding simple roots of a nonlinear equation f(x)=0. In ter...
In this work, we have developed a fourth order Newton-like method based on harmonic mean and its mul...
In this paper, we derive a new modified third order convergence iterative methods for computing mult...
In this paper, we present some new modification of Newton’s method for solving nonlinear equations. ...
In this paper, a new three-step iterative method for finding a simple root of the nonlinear equatio...
In this work, two iterative methods, based on Newton’s method, to obtain the numerical solutions of ...
We present another simple way of deriving several iterative methods for solving nonlinear equations ...
AbstractIn this work we introduce a technique for solving nonlinear systems that improves the order ...
In this paper, we consider a modification of the Newton's method which produce iterative method with...
In this paper , an efficient new procedure is proposed to modify third –order iterative method obtai...
Abstract – In this paper, we suggest an iterative method of order four for solving nonlinear equatio...
AbstractThis paper concentrates on iterative methods for obtaining the multiple roots of nonlinear e...
We present new high-order optimal iterative methods for solving a nonlinear equation, f(x)=0, by usi...
AbstractIn [YoonMee Ham etal., Some higher-order modifications of Newton’s method for solving nonlin...
In this study, a three-point iterative method for solving nonlinear equations is presented. The purp...
We present a new fourth order method for finding simple roots of a nonlinear equation f(x)=0. In ter...
In this work, we have developed a fourth order Newton-like method based on harmonic mean and its mul...
In this paper, we derive a new modified third order convergence iterative methods for computing mult...