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A New Nonlinear Ninth-Order Root-Finding Method with Error Analysis and Basins of Attraction

Sania Qureshi, Higinio Ramos and Abdul Karim Soomro
Additional contact information
Sania Qureshi: Department of Mathematics, Near East University TRNC, Mersin 99138, Turkey
Higinio Ramos: Scientific Computing Group, Universidad de Salamanca, 37008 Salamanca, Spain
Abdul Karim Soomro: Institute of Mathematics and Computer Sciences, University of Sindh, Jamshoro 76062, Pakistan

Mathematics, 2021, vol. 9, issue 16, 1-19

Abstract: Nonlinear phenomena occur in various fields of science, business, and engineering. Research in the area of computational science is constantly growing, with the development of new numerical schemes or with the modification of existing ones. However, such numerical schemes, objectively need to be computationally inexpensive with a higher order of convergence. Taking into account these demanding features, this article attempted to develop a new three-step numerical scheme to solve nonlinear scalar and vector equations. The scheme was shown to have ninth order convergence and requires six function evaluations per iteration. The efficiency index is approximately 1.4422, which is higher than the Newton’s scheme and several other known optimal schemes. Its dependence on the initial estimates was studied by using real multidimensional dynamical schemes, showing its stable behavior when tested upon some nonlinear models. Based on absolute errors, the number of iterations, the number of function evaluations, preassigned tolerance, convergence speed, and CPU time (sec), comparisons with well-known optimal schemes available in the literature showed a better performance of the proposed scheme. Practical models under consideration include open-channel flow in civil engineering, Planck’s radiation law in physics, the van der Waals equation in chemistry, and the steady-state of the Lorenz system in meteorology.

Keywords: root-finding scheme; nonlinear models; efficiency index; computational cost; Halley’s algorithm; basins of attraction (search for similar items in EconPapers)
JEL-codes: C (search for similar items in EconPapers)
Date: 2021
References: View references in EconPapers View complete reference list from CitEc
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