A Multistep Method for a Special Class of Second—Order Differential Equations

S. O. Ayinde, M. O. Oke, R. Ogunrinde, A. Obayomi, S. Ogunyebi, S. E. Fadugba, O. Abolarin
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Abstract

A multi–step numerical method for the solution of second order ordinary differential equation was developed by interpolating in a finite range with a basis function. The basis function consists of a combination of exponential and trigonometric functions to ensure that such problems possess unique and continuously differentiable solutions. The method has been tested and found to be reliable, efficient and less tedious than other multi-step methods which require reduction of higher order equations into several first order equations. The method was applied to some special second order equations arising from mechanics and engineering problems. The requisite numerical properties were obtained.
一类特殊二阶微分方程的多步解法
利用基函数在有限范围内插值,提出了求解二阶常微分方程的多步数值解法。基函数由指数函数和三角函数的组合组成,以确保此类问题具有唯一且连续可微的解。与其他需要将高阶方程简化为若干个一阶方程的多步方法相比,该方法可靠、有效且不繁琐。将该方法应用于一些由力学和工程问题引起的特殊二阶方程。得到了所需的数值性质。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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