Solution of nonlinear models in engineering using a new sixteenth order scheme and their basin of attraction

VFAST Transactions on Mathematics Pub Date : 2024-03-01 DOI:10.21015/vtm.v12i1.1624

S. Jamali, Z. Kalhoro, Abdul Wasim Shaikh, M. S. Chandio, Jinrui Guan

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Abstract

The utilization of computers in various engineering and mathematical fields has become increasingly important in recent times. In computational and applied mathematics, computer programs can be used to efficiently process complex data in mere seconds. By utilizing different computer tools and programming languages, computers can manipulate various iterative algorithms to solve nonlinear problems. The convergence rate and computational costs per-iteration are essential factors that determine the effectiveness of an iterative algorithm. This article introduces a new and highly efficient iterative approach of sixteenth order. The authors propose a four-step iterative optimal derivative-free method for solving non-linear equations that arise in engineering application problems. The proposed method achieves an accuracy of order sixteen with only five functional evaluations, and the efficiency index is 1.741. To demonstrate the performance of the method, the authors present several numerical examples, application problems, and a study of dynamics, comparing the method with other available methods of the same order in the literature. Numerical results and dynamics are obtained using computer tools.

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使用新的 16 阶方案求解工程中的非线性模型及其吸引力盆地

近年来，计算机在各种工程和数学领域的应用变得越来越重要。在计算数学和应用数学领域，计算机程序可用于在短短几秒钟内高效处理复杂数据。通过利用不同的计算机工具和编程语言，计算机可以操纵各种迭代算法来解决非线性问题。每次迭代的收敛速度和计算成本是决定迭代算法有效性的重要因素。本文介绍了一种新的、高效的十六阶迭代方法。作者提出了一种四步迭代最优无导数方法，用于求解工程应用问题中出现的非线性方程。所提出的方法只需进行五次函数求值就能达到十六阶精度，效率指数为 1.741。为了证明该方法的性能，作者介绍了几个数值示例、应用问题和动力学研究，并将该方法与文献中其他同阶方法进行了比较。数值结果和动力学研究是通过计算机工具获得的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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VFAST Transactions on Mathematics

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