In this paper, we derive a new modified third order convergence iterative methods for computing multiple roots of non-linear equations. Our proposed scheme requires one evaluation of function and two evaluations of first derivative. Error term is proved to possess a third order. Numerical performance shows that the proposed method provides a highest accuracy results as compared to other existing third order iterative methods
In this paper we present three new methods of order four using an accelerating generator that genera...
AbstractIn this paper, we present two new families of iterative methods for multiple roots of nonlin...
A three-step iterative method with fifth-order convergence as a new modification of Newton’s method ...
In this paper, we derive a new modified third order convergence iterative methods for computing mult...
We present a new third order convergence iterative method for solving multiple roots of nonlinear eq...
We present a new third order convergence iterative method for m multiple roots of nonlinear equation...
Two families of third-order iterative methods for finding multiple roots of nonlinear equations are ...
AbstractIn this paper, a new family of third-order methods for finding multiple roots of nonlinear e...
AbstractThis paper concentrates on iterative methods for obtaining the multiple roots of nonlinear e...
This paper presents a fifth-order iterative method as a new modification of Newton's method for...
In this paper , an efficient new procedure is proposed to modify third –order iterative method obtai...
AbstractIn recent papers (Appl. Math. Comput. 140 (2003) 419–426; Appl. Math. Lett. 13 (2000) 87–93)...
This paper presents a fifth-order iterative method as a new modification of Newton's method for find...
Solving nonlinear equations with root finding is very common in science and engineering models. In p...
In this paper, a new three-step iterative method for finding a simple root of the nonlinear equatio...
In this paper we present three new methods of order four using an accelerating generator that genera...
AbstractIn this paper, we present two new families of iterative methods for multiple roots of nonlin...
A three-step iterative method with fifth-order convergence as a new modification of Newton’s method ...
In this paper, we derive a new modified third order convergence iterative methods for computing mult...
We present a new third order convergence iterative method for solving multiple roots of nonlinear eq...
We present a new third order convergence iterative method for m multiple roots of nonlinear equation...
Two families of third-order iterative methods for finding multiple roots of nonlinear equations are ...
AbstractIn this paper, a new family of third-order methods for finding multiple roots of nonlinear e...
AbstractThis paper concentrates on iterative methods for obtaining the multiple roots of nonlinear e...
This paper presents a fifth-order iterative method as a new modification of Newton's method for...
In this paper , an efficient new procedure is proposed to modify third –order iterative method obtai...
AbstractIn recent papers (Appl. Math. Comput. 140 (2003) 419–426; Appl. Math. Lett. 13 (2000) 87–93)...
This paper presents a fifth-order iterative method as a new modification of Newton's method for find...
Solving nonlinear equations with root finding is very common in science and engineering models. In p...
In this paper, a new three-step iterative method for finding a simple root of the nonlinear equatio...
In this paper we present three new methods of order four using an accelerating generator that genera...
AbstractIn this paper, we present two new families of iterative methods for multiple roots of nonlin...
A three-step iterative method with fifth-order convergence as a new modification of Newton’s method ...