A Three Step Implicit Hybrid Linear Multistep Method for the Solution of Third Order Ordinary Differential Equations

Please use this identifier to cite or link to this item: http://repository.futminna.edu.ng:8080/jspui/handle/123456789/428

Title:	A Three Step Implicit Hybrid Linear Multistep Method for the Solution of Third Order Ordinary Differential Equations
Authors:	Mohammed, Umaru Adeniyi, Raphael Babatunde
Keywords:	Multiple finite difference methods Third order Boundary value problem multistep methods
Issue Date:	Nov-2014
Publisher:	Gen. Math. Notes
Citation:	U. Mohammed and R.B. Adeniyi (2014). A Three Step Implicit Hybrid Linear Multistep Method for the Solution of Third Order Ordinary Differential Equations. Gen. Math. Notes (GMN), Vol. 25, No. 1, pp. 62-74
Abstract:	A Linear Multistep Hybrid Method (LMHM) with continuous coefficients is considered and directly applied to solve third order Initial Value Problems (IVPs). The continuous method is used to obtain Multiple Finite Difference Methods (MFDMs) each of order 5 which are combined as simultaneous numerical integrators to provide a direct solution to IVPs over sub-intervals which do not overlap. The convergence of the MFDMs is discussed by conveniently representing the MFDMs as a block method and verifying that the block method is zero-stable and consistent. The superiority of the MFDMs over the existing methods is established numerically.
URI:	http://repository.futminna.edu.ng:8080/jspui/handle/123456789/428
ISSN:	ISSN 2219-7184
Appears in Collections:	Mathematics

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