Discrete and Continuous Models and Applied Computational ScienceDiscrete and Continuous Models and Applied Computational Science2658-46702658-7149Peoples' Friendship University of Russia named after Patrice Lumumba (RUDN University)8600Research ArticleOn the Approximate Solving of the Differential Equations which General Solutions Depend on a Constant of Integration AlgebraicallyMalykhM DFaculty of Materials Sciences; Department of Applied Probability and Informatics Peoples’ Friendship University of Russia Miklukho-Maklaya str., 6, Moscow, Russian Federation, 117198malykhmd@yandex.ruLomonosov Moscow State University1503201535908092016Copyright © 2015,2015Methods of analytically theory of ordinary diﬀerential equations are based on the analysis of singularities, but the most popular method for the numerical solving, that is the method of ﬁnite diﬀerences does not work in neighborhood of singularities. However Painlevé gave an algebraic method for the solution of the diﬀerential equations in ﬁnite terms and general solutions of this equations depend algebraically on a constant of integration. This approach which was presented as Galois theory on the contrary can be well combined with method of ﬁnite diﬀerences. It is well known, the ordinary diﬀerential equation of form y′ = f(x,y) with this property can be algebraically transformed by substitution to Riccati equation. Euler scheme yn+1 = yn + f(xn,yn)Δx always determines (1,k)-correspondence between neighboring layers. But exact solution of Riccati equation determines (1,1)-correspondence between any layers and thus we can write a scheme which determines (1,1)-correspondence between neighboring layers. In this case anharmonic ratio of 4 points does not change from layer to layer not only for exact solution but also for approximate solution. Thus if an exact solution has a pole then the approximate solution passes through inﬁnity without accumulation of an error. In the presented article this property of (1,1)-scheme will be illustrated by two examples: with and without solution in elementary functions. So the cause of destruction of the approximate solution near a pole is put in Euler scheme itself. In more general case when exact solution of ordinary diﬀerential equation depends algebraically on an integration constant we can write a scheme which determines (l,l)-correspondence between neighboring layers. Approximate solution which is found on this way passes through movable algebraic singularities without accumulation of an error.sagesagemathRiccati equationfinite differences methodalgebraic correspondenceуравнение Риккатиметод конечных разностейалгебраические соответствия[Painleve P. Le.cons sur la theorie analytique des equations differentielles. Paris, 1897. Перепечатаны в первом томе Трудов Пенлеве, 1971.][Umemura H. Birational Automorphism Groups and Differential Equations // Nagoya Math. J. 1990. Vol. 119. Pp. 1-80.][Малых М.Д. Об интегралах систем обыкновенных дифференциальных уравнений, представимых в конечном виде // Вестник РУДН. Серия «Математика. Информатика. Физика». 2014. № 3. С. 11-16.][Крылов А.Н. Лекции о приближенных вычислениях. Л.: АН СССР, 1933.][Okamoto K. Sur les feuilletages associ.es aux. equation du second odre apoints critiques fixes de P. Painleve // Japan. J. Math. 1979. T. 5, no 1. Pp. 1-79.][Калиткин Н.Н. Численные методы. СПб.: БХВ-Петербург, 2011.][Stein W.A. et al., 2015. Sage Mathematics Software (Version 6.7). The Sage Development Team. URL: http://www.sagemath.org.]