Implementation of the One-Step One-Hybrid Block Method on the Nonlinear Equation of a Circular Sector Oscillator

M. Farhan; Z. Omar; F. Mebarek-Oudina; J. Raza; Z. Shah; R. V. Choudhari; O. D. Makinde

doi:10.1007/s10598-020-09480-0

Implementation of the One-Step One-Hybrid Block Method on the Nonlinear Equation of a Circular Sector Oscillator

M. Farhan, Z. Omar, F. Mebarek-Oudina, J. Raza, Z. Shah, R. V. Choudhari, O. D. Makinde

Research output: Contribution to journal › Article › peer-review

49 Citations (Scopus)

Abstract

Solving nonlinear differential equation of a circular sector oscillator is of a scientific importance. Thus, to solve such equations, a single- step implicit block method involving one hybrid point with the introduction of a third derivative is proposed. To derive this method, the approximate basis solution is interpolated at {x_n, x_{n + 3/5}} while its second and third derivatives are collocated at all points {x_n, x_{n + 3/5}, x_{n + 1}}on the integrated interval of approximation. Numerical results are presented in the form of table and graphs for the variation of different physical parameters. The study reveals that the proposed hybrid block method is zero stable, which proves that it is convergent beside a significant interval of absolute stability, thus making it suitable for solving stiff ODEs.

Original language	English
Pages (from-to)	116-132
Number of pages	17
Journal	Computational Mathematics and Modeling
Volume	31
Issue number	1
DOIs	https://doi.org/10.1007/s10598-020-09480-0
Publication status	Published - 01-01-2020

All Science Journal Classification (ASJC) codes

Computational Mathematics

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10.1007/s10598-020-09480-0

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abstract = "Solving nonlinear differential equation of a circular sector oscillator is of a scientific importance. Thus, to solve such equations, a single- step implicit block method involving one hybrid point with the introduction of a third derivative is proposed. To derive this method, the approximate basis solution is interpolated at {xn, xn + 3/5} while its second and third derivatives are collocated at all points {xn, xn + 3/5, xn + 1}on the integrated interval of approximation. Numerical results are presented in the form of table and graphs for the variation of different physical parameters. The study reveals that the proposed hybrid block method is zero stable, which proves that it is convergent beside a significant interval of absolute stability, thus making it suitable for solving stiff ODEs.",

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AU - Farhan, M.

AU - Omar, Z.

AU - Mebarek-Oudina, F.

AU - Raza, J.

AU - Shah, Z.

AU - Choudhari, R. V.

AU - Makinde, O. D.

PY - 2020/1/1

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AB - Solving nonlinear differential equation of a circular sector oscillator is of a scientific importance. Thus, to solve such equations, a single- step implicit block method involving one hybrid point with the introduction of a third derivative is proposed. To derive this method, the approximate basis solution is interpolated at {xn, xn + 3/5} while its second and third derivatives are collocated at all points {xn, xn + 3/5, xn + 1}on the integrated interval of approximation. Numerical results are presented in the form of table and graphs for the variation of different physical parameters. The study reveals that the proposed hybrid block method is zero stable, which proves that it is convergent beside a significant interval of absolute stability, thus making it suitable for solving stiff ODEs.

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Implementation of the One-Step One-Hybrid Block Method on the Nonlinear Equation of a Circular Sector Oscillator

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