二阶初值问题解的不存在性

D. Biles
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引用次数: 2

摘要

考虑二阶初值问题解的不存在性。给出了两种结果:一种是时间变量奇异的结果,另一种是时间变量和状态变量都奇异的结果。考虑奇异二阶初值问题解的不存在性。结果和证明最初是由[6]中的命题3.2驱动的。奇异微分方程解的存在性已经受到了极大的关注——例如,参见专著[1]。有关二阶问题的最新结果,请参见[2]、[4]、[7]、[9]、[10]、[12]、[13]、[16]和[17]。另一方面,有时不存在性可以是微不足道的:例如,如果f在0的邻域内不是Lebesgue可积的,那么显然x ' ' (t) = f (t), x(0) = x0, x ' (0) = x1没有carathimodory解。文献中关于二阶奇异微分方程不存在性的结果通常涉及边界条件,如[3]、[5]、[11]、[14]、[15]。文献[8]研究了问题x ' ' = f (t,x,x '),x (0) = 0, x '(0) = 0的正解的存在性和不存在性。我们从下面的定义开始。定义1。u是初值问题p(t)u ' (t) = g(t,u(t),u ' (t)) u(0) = α, u ' (0) = β的解,如果存在一个t > 0且满足以下所有条件:i) u,u '在[0,t]上是绝对连续的,ii) p(t)u ' (t) = g(t,u(t),u ' (t)) a.e.在[0,t]上,iii) u(0) = α, u ' (0) = β。我们同样地定义定理2中问题的解。在本文中,我们假设a,b, f, p,q和u是实值。我们的第一个结果如下:数学学科分类(2010):34A12, 34A34, 34A36。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Nonexistence of solutions for second-order initial value problems
We consider nonexistence of solutions for second-order initial value problems. Two results are given: one in which the problems are singular in the time variable, and one in which the problems are singular in both the time and state variables. We consider nonexistence of solutions to singular second-order initial value problems. The results and proofs were originally motivated by Proposition 3.2 in [6]. Existence of solutions to singular differential equations has received a great deal of attention – see, for example, the monograph [1]. For more recent results regarding second-order problems, see [2], [4], [7], [9], [10], [12], [13], [16] and [17]. On the other hand, sometimes nonexistence can be trivial: For example, if f is not Lebesgue integrable in a neighborhood of 0, then clearly x′′(t) = f (t) , x(0) = x0 , x′(0) = x1 has no Carathéodory solution. Results in the literature for nonexistence for singular second-order differential equations typically involve boundary conditions, see for example, [3], [5], [11], [14] and [15]. In [8], existence and nonexistence of positive solutions are studied for the problem x′′ = f (t,x,x′) , x(0) = 0, x′(0) = 0. We begin with the following definition. DEFINITION 1. u is a solution to the initial value problem p(t)u′′(t) = g(t,u(t),u′(t)) u(0) = α, u′(0) = β if there exists a T > 0 such that all of the following are satisfied: i) u , u′ are absolutely continuous on [0,T ] , ii) p(t)u′′(t) = g(t,u(t),u′(t)) a.e. on [0,T ] , iii) u(0) = α , u′(0) = β . We define solution for the problem in Theorem 2 below similarly. Throughout the paper, we assume a,b, f , p,q and u are real-valued. Our first result is the following: Mathematics subject classification (2010): 34A12, 34A34, 34A36.
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