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Development and implementation of a tenth-order hybrid block method for solving fifth-order boundary value problems

    Higinio Ramos   Affiliation
    ; Adelegan L. Momoh   Affiliation
DOI: https://doi.org/10.3846/mma.2021.12940

Abstract

A hybrid convergent method of tenth-order is presented in this work for directly solving fifth-order boundary value problems in ordinary differential equations. A unique direct block approach is obtained by combining multiple Finite Difference Formulas which are derived via the collocation technique. The proposed method is fully analyzed and the existence and uniqueness of the discrete solution is established. Different numerical examples are considered and the results are compared with those provided by existing works in the literature. The comparison shows the good performance of the present method over some cited works in the literature, confirming the competitiveness and superiority of the new numerical integrator.

Keyword : block method, fifth-order boundary value problem, convergence analysis, existence and uniqueness of solution, ordinary differential equations

How to Cite
Ramos, H., & Momoh, A. L. (2021). Development and implementation of a tenth-order hybrid block method for solving fifth-order boundary value problems. Mathematical Modelling and Analysis, 26(2), 267-286. https://doi.org/10.3846/mma.2021.12940
Published in Issue
May 26, 2021
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This work is licensed under a Creative Commons Attribution 4.0 International License.

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