TWO-STEP HYBRID BLOCK BACKWARD DIFFERENTIATION FORMULAE FOR THE SOLUTION OF STIFF ORDINARY DIFFERENTIAL EQUATIONS

  • Ibrahim Abba Bakari
  • Sunday Babuba
  • Pius Tumba
  • A. Danladi
Keywords: Interpolation and Collocation, Backward Differentiation Formula, Hybrid, Stiff ODEs

Abstract

In this study, we construct two -Step Second derivative hybrid block backward differentiation formula. The newly proposed scheme was derived based on interpolation and collocation approach. The discrete schemes were obtained from the continuous scheme. The derived method is applied to solve non-linear systems of stiff ordinary differential equations. The numerical result obtained using newly constructed method showed that it is good for stiff systems.

References

Baiyeri . J.F, Esan .O.A , Salawu .S .O & Oke. I.S. (2015). Numerical Solutions of Stiff Initial Value Problems Using Modified Extended Backward Differentiation Formula. Journal of Mathematics (IOSR-JM) Volume 11, PP 37-40.

Fatunla, S. O. (1991). Block Methods for Second Order Differential Equations. International Journal of Computer Mathematics, 41(1), 55–66.

Fatunla. S.O. (1988). Numerical methods for initial value problems in ordinary Differential, Academic press Inc. Harcourt Brace Jovanovich Publishers, New York.

Henrici, P. (1962). Discrete variable methods in Ordinary Differential Equations. John Willey and sons Inc. New York-London Sydney.

Hojjati, G. (2015). A class of parallel methods with superfuture points technique for the numerical solution of stiff systems. Journal of Modern Methods in Numerical Mathematics 6:2.

Kumleng, G. M , Adee S. O & Skwame. Y (2013). Implicit Two Step Adam Moulton Hybrid Block Method with Two Off-Step Points for Solving Stiff Ordinary Differential Equations. Journal of Natural Sciences Research; Vol.3,pp 77-81.

Lambert, J.D. (1973). Computational Methods in ODEs, John Wiley & Sons New York.

Timothy. A. A, David. O. A & Adetola. A. A (2012). A One Step Method for the Solution of General Second Order Ordinary Differential Equations. International Journal of Science and Technology, Volume2 pp 159-163.

Umaru. M and Yusuph .A.Y (2010). Fully Implicit Four Point Block Backward Difference Formulae for Solving First Order Initial Value Problems. Leonardo Journal of Sciences; ISSN 1583- 0233, pp 21-30.

Zurni .O and Ra'ft A. (2016). Direct solution of second-order ordinary differential equation using a single-step hybrid block method of order five. Mathematical and Computational Application. 21:12.DOI: 10.3390/mca21020012.

Published
2020-04-17
How to Cite
BakariI. A., BabubaS., TumbaP., & DanladiA. (2020). TWO-STEP HYBRID BLOCK BACKWARD DIFFERENTIATION FORMULAE FOR THE SOLUTION OF STIFF ORDINARY DIFFERENTIAL EQUATIONS. FUDMA JOURNAL OF SCIENCES, 4(1), 668 - 676. Retrieved from https://fjs.fudutsinma.edu.ng/index.php/fjs/article/view/101
Issue
Vol. 4 No. 1 (2020): FUDMA Journal of Sciences - Vol. 4 No. 1
Section
Research Articles
Copyright (c) 2020 FUDMA JOURNAL OF SCIENCES

FUDMA Journal of Sciences