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Volume 10, Issue 1 (2022), Pages [1] - [114]

FAST CONVERGENT APPROXIMATION METHOD FOR SOLUTION OF SECOND ORDER LINEAR ORDINARY DIFFERENTIAL EQUATIONS 

[1] A. A. Anulo, A. Sh. Kibret, G. G. Gonfa and A. D. Negasa, Numerical solution of linear second order ordinary differential equations with mixed boundary conditions by Galerkin method, Mathematics and Computer Science 2(5) (2017), 66-78.

 

DOI: https://doi.org/10.11648/j.mcs.20170205.12

 

[2] F. W. J. Olver, Numerical solution of second-order linear difference equations, Journal of Research of the National Bureou of Standards - B, Mathematics and Mathematical Physics 71 B(2/3) (1967), 111-129.

 

[3] Y. A. Yahaya and A. M. Badmus, A class of collocation methods for general second order ordinary differential equations, African Journal of Mathematics and Computer Sciences Research 2(4) (2009), 69-72.

 

[4] T. Chen, W. Chen, G. Chen and H. He, Recursive formulation of the WKB solution for linear time-varying dynamic systems, Acta Mechanica 232(3) (2021), 907-920.

 

DOI: https://doi.org/10.1007/s00707-020-02875-5

 

[5] O. A. Taivo and J. A. Osilagun, On approximate solution of second order differential equation by iterative decomposition method, Asian Journal of Mathematics and Statistics 4(1) (2011), 1-7.

 

DOI: https://doi.org/10.3923/ajms.2011.1.7

 

[6] Md. J. Hossain, Md. Sh. Alam and Md. B. Hossain, A study on numerical solutions of second order initial value problem (IVP) for ordinary differential equations with fourth order and Butcher’s fifth order Runge-Kutta method, American Journal of Computational and Applied Mathematics 7(5) (2017), 129-137.

 

DOI: https://doi.org/10.5923/j.ajcam.20170705.02

 

[7] N. Waeleh and Z. A. Majid, Numerical Algorithm of Block Method for General Second Order ODEs using Variable Step Size, Sains Malaysiana 46(5) (2017),      817-824.

 

DOI: https://doi.org/10.17576/jsm-2017-4605-16

 

[8] N. Echi, Approximate solution of second-order linear differential equation, Open Access Scientific Reports 2(1) (2013), 1-5.

 

[9] J. E. Mamadu and I. N. Njoseh, Tau-collocation approximation approach for solving first and second order ordinary differential equations, Journal of Applied Mathematics and Physics 4(2) (2016), 383-390.

 

DOI: https://doi.org/10.4236/jamp.2016.42045

 

[10] T. G. Nezbajlo, Theory of Integration of Linear Ordinary Differential Equations, Sanct Peterburg (2007), 160 pages.

 

[11] Ph. Hartman, Ordinary Differential Equations, Second Edition, SIAM, 2002.

 

[12] N. W. McLachlan, Theory and Application of Mathieu Functions, Oxford: Claredon Press, 1947.

 

[13] L. Chezari, Asimptoticheskoe povedenie i ustoichivost reshenii obyknovennykh differentsialnykh uravnenii, Mir, M., 1964.