Basin attractors for various methods for multiple roots

Different anomalies in a Jarratt family of iterative root-finding methods ⋮ A general family of third order method for finding multiple roots ⋮ An analysis of a new family of eighth-order optimal methods ⋮ Complex dynamics of a sixth and seventh order family of root finding methods ⋮ An optimal fourth-order family of methods for multiple roots and its dynamics ⋮ On the new family of optimal eighth order methods developed by Lotfi et al. ⋮ Dynamical behaviors of some iterative methods for multiple roots of nonlinear equations ⋮ On the convergence of an optimal fourth-order family of methods and its dynamics ⋮ An analysis of a family of Maheshwari-based optimal eighth order methods ⋮ Dynamics of the family of c-iterative methods ⋮ Comparative study of methods of various orders for finding repeated roots of nonlinear equations ⋮ On the election of the damped parameter of a two-step relaxed Newton-type method ⋮ Basins of attraction for optimal eighth order methods to find simple roots of nonlinear equations ⋮ Choosing weight functions in iterative methods for simple roots ⋮ On developing fourth-order optimal families of methods for multiple roots and their dynamics ⋮ On generalized Halley-like methods for solving nonlinear equations ⋮ On a two-step optimal Steffensen-type method: relaxed local and semi-local convergence analysis and dynamical stability ⋮ On a numerical technique for finding multiple zeros and its dynamic ⋮ Long-term orbit dynamics viewed through the yellow main component in the parameter space of a family of optimal fourth-order multiple-root finders ⋮ An efficient optimal family of sixteenth order methods for nonlinear models ⋮ An optimal reconstruction of Chebyshev-Halley type methods for nonlinear equations having multiple zeros ⋮ On optimal fourth-order iterative methods free from second derivative and their dynamics ⋮ Basins of attraction for several methods to find simple roots of nonlinear equations ⋮ Study of a biparametric family of iterative methods ⋮ On a family of Halley-like methods to find simple roots of nonlinear equations ⋮ Contrasts in the basins of attraction of structurally identical iterative root finding methods ⋮ Dynamics of a family of Chebyshev-Halley type methods ⋮ On a family of Laguerre methods to find multiple roots of nonlinear equations ⋮ Basins of attraction for Zhou-Chen-song fourth order family of methods for multiple roots ⋮ A new class of optimal four-point methods with convergence order 16 for solving nonlinear equations ⋮ A family of optimal quartic-order multiple-zero finders with a weight function of the principal \(k\)th root of a derivative-to-derivative ratio and their basins of attraction ⋮ A sixth-order family of three-point modified Newton-like multiple-root finders and the dynamics behind their extraneous fixed points ⋮ Stability analysis of a parametric family of iterative methods for solving nonlinear models ⋮ Basins of attraction for several optimal fourth order methods for multiple roots ⋮ Real qualitative behavior of a fourth-order family of iterative methods by using the convergence plane ⋮ Symbolic computation and computer graphics as tools for developing and studying new root-finding methods ⋮ Computer visualization and dynamic study of new families of root-solvers ⋮ Stability study of eighth-order iterative methods for solving nonlinear equations ⋮ A sixth order transformation method for finding multiple roots of nonlinear equations and basin attractors for various methods ⋮ Comparison of several families of optimal eighth order methods ⋮ Comparing the basins of attraction for Kanwar-Bhatia-Kansal family to the best fourth order method ⋮ Basins of attraction for several third order methods to find multiple roots of nonlinear equations ⋮ A class of two-point sixth-order multiple-zero finders of modified double-Newton type and their dynamics ⋮ An analysis of a Khattri's 4th order family of methods ⋮ Multipoint methods for solving nonlinear equations: a survey ⋮ An optimal family of eighth-order simple-root finders with weight functions dependent on function-to-function ratios and their dynamics underlying extraneous fixed points ⋮ Constructing a family of optimal eighth-order modified Newton-type multiple-zero finders along with the dynamics behind their purely imaginary extraneous fixed points ⋮ A study on the local convergence and dynamics of the two-step and derivative-free Kung-Traub's method ⋮ General family of third order methods for multiple roots of nonlinear equations and basin attractors for various methods ⋮ A hybrid method for computing the intersection and tangency points of plane curves ⋮ A new class of three-point methods with optimal convergence order eight and its dynamics ⋮ Convergence and dynamics of structurally identical root finding methods ⋮ A study of dynamics via Möbius conjugacy map on a family of sixth-order modified Newton-like multiple-zero finders with bivariate polynomial weight functions ⋮ A novel family of weighted-Newton optimal eighth order methods with dynamics ⋮ The dynamical analysis of a uniparametric family of three-point optimal eighth-order multiple-root finders under the Möbius conjugacy map on the Riemann sphere ⋮ On developing a novel sixth order transformation method for multiple roots and its basins of attraction ⋮ Iterative methods for simultaneous computing arbitrary number of multiple zeros of nonlinear equations ⋮ Chaos in King's iterative family ⋮ COMPARATIVE STUDY OF METHODS OF VARIOUS ORDERS FOR FINDING SIMPLE ROOTS OF NONLINEAR EQUATIONS ⋮ An optimal eighth-order class of three-step weighted Newton's methods and their dynamics behind the purely imaginary extraneous fixed points

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• Basin attractors for various methods
• Recurrence relations for rational cubic methods. II: The Chebyshev method
• New third order nonlinear solvers for multiple roots
• Some fourth-order nonlinear solvers with closed formulae for multiple roots
• A family of root finding methods
• An optimal multiple root-finding method of order three
• High-order nonlinear solver for multiple roots
• Convergence of the Newton process to multiple solutions
• Extension of Murakami's high-order non-linear solver to multiple roots
• A new family of higher order methods for solving equations
• A family of multiopoint iterative functions for finding multiple roots of equations
• A family of one-point iteration formulae for finding roots
• A higher order method for multiple zeros of nonlinear functions
• Technical Notes and Short Papers