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Inverse Family of Numerical Methods for Approximating All Simple and Roots with Multiplicity of Nonlinear Polynomial Equations with Engineering Applications

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  • Mudassir Shams
  • Naila Rafiq
  • Nasreen Kausar
  • Shams Forruque Ahmed
  • Nazir Ahmad Mir
  • Suvash Chandra Saha

Abstract

A new inverse family of the iterative method is interrogated in the present article for simultaneously estimating all distinct and multiple roots of nonlinear polynomial equations. Convergence analysis proves that the order of convergence of the newly constructed family of methods is two. The computer algebra systems CAS-Mathematica is used to determine the lower bound of convergence order, which justifies the local convergence of the newly developed method. Some nonlinear models from physics, chemistry, and engineering sciences are considered to demonstrate the performance and efficiency of the newly constructed family of inverse simultaneous methods in comparison to classical methods in the literature. The computational time in seconds and residual error graph of the inverse simultaneous methods are also presented to elaborate their convergence behavior.

Suggested Citation

  • Mudassir Shams & Naila Rafiq & Nasreen Kausar & Shams Forruque Ahmed & Nazir Ahmad Mir & Suvash Chandra Saha, 2021. "Inverse Family of Numerical Methods for Approximating All Simple and Roots with Multiplicity of Nonlinear Polynomial Equations with Engineering Applications," Mathematical Problems in Engineering, Hindawi, vol. 2021, pages 1-9, December.
    • Handle: RePEc:hin:jnlmpe:3124615
    DOI: 10.1155/2021/3124615
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