The Characteristic Equation of the Euler-Cauchy Differential Equation and its Related Solution Using MATLAB

Asian Journal of Science and Applied Technology Pub Date : 2021-05-15 DOI:10.51983/ajsat-2021.10.1.2792

S. Karthigai Selvam

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Abstract

The behavior of nature is usually modelled with Differential Equations in various forms. Depending on the constrains and the accuracy of a model, the connected equations may be more or less complicated. For simple models we may use Non Homogeneous Equations but in general, we have to deal with Homogeneous ones since from a physicists point of view nature seems to be Homogeneous. In many applications of sciences, for solving many of them, often appear equations of type nth order Linear differential equations, where the number of them is Euler-Cauchy differential equations. i.e. Euler-Cauchy differential equations often appear in analysis of computer algorithms, notably in analysis of quick sort and search trees; a number of physics and engineering applications. In this paper, the researcher aims to present the solutions of a homogeneous Euler-Cauchy differential equation from the roots of the characteristics equation related with this differential equation using MATLAB. It is hoped that this work can contribute to minimize the lag in teaching and learning of this important Ordinary Differential Equation.

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欧拉-柯西微分方程的特征方程及其MATLAB解法

自然界的行为通常用各种形式的微分方程来模拟。根据约束条件和模型精度的不同，连接方程可能会或多或少复杂。对于简单的模型，我们可以使用非齐次方程，但一般来说，我们必须处理齐次方程，因为从物理学家的角度来看，自然似乎是齐次的。在许多科学应用中，为了求解其中的许多问题，经常出现n阶线性微分方程的方程，其中的数量是欧拉-柯西微分方程。即欧拉-柯西微分方程经常出现在计算机算法的分析中，特别是在快速排序和搜索树的分析中;许多物理和工程应用。本文的目的是利用MATLAB从与该微分方程相关的特征方程的根出发，给出齐次Euler-Cauchy微分方程的解。希望通过本文的研究，可以减少这一重要常微分方程在教学中的滞后现象。

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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Asian Journal of Science and Applied Technology

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