Introduction of modified root finding approaches and their comparative study with existing methods

Introduction of modified root finding approaches and their comparative study with existing methods

Root-finding in nonlinear equations is a fundamental problem in numerical analysis with applications in mathematics and engineering. Traditional methods like the Bisection and False Position methods have been widely used, but they often face challenges related to convergence speed, stability, and c...

Full description

Saved in:
Bibliographic Details
Main Authors: Haputhanthrige Hashintha Dilan Kumara, Samoshi Shanika, Haputhanthrige Sachithra Gayashani, Withanage Ujitha Imeshan, Sanjula Thilakarathne
Format: Article
Language:English
Published: Institute of Sciences and Technology, University Center Abdelhafid Boussouf, Mila 2025-07-01
Series:Journal of Innovative Applied Mathematics and Computational Sciences
Subjects:
Root-finding Techniques
Bisection method
False-Position Method
Modified Root-finding Methods
Numerical Algorithms
Online Access:https://jiamcs.centre-univ-mila.dz/index.php/jiamcs/article/view/1921
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Root-finding in nonlinear equations is a fundamental problem in numerical analysis with applications in mathematics and engineering. Traditional methods like the Bisection and False Position methods have been widely used, but they often face challenges related to convergence speed, stability, and computational efficiency. This paper presents two novel numerical root-finding methods that combine the robustness of the Bisection method with the efficiency of the False Position method, improving both convergence rates and stability. Furthermore, we illustrate some numerical applications to discuss error analysis, convergence analysis, and comparisons with existing methods. These findings contribute to the advancement of numerical computation by providing more reliable and efficient root-finding techniques.
ISSN:2773-4196

Similar Items