One approach to analysis of asymptotic and oscillation properties of delay and integral PDE

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Abstract

In this paper we propose an approach to the study of oscillatory and asymptotic properties of solutions to different types of partial functional differential boundary-value problems. An analog of the classical Sturm separation theorem for PDE is presented. Zones of solutions positivity are estimated. Various assertions on the instability of PDE with memory are proved. It is demonstrated that introducing a delay in a classical heat equation, one can essentially change the oscillatory and asymptotic properties of solutions. Namely, for the respective zones, the maximum principle becomes invalid, all solutions oscillate instead of being positive, unbounded solutions appear, while all solutions of the classical Dirichlet problem tend to zero on infinity.

Original languageEnglish
Pages (from-to)263-274
Number of pages12
JournalDynamics of Continuous, Discrete and Impulsive Systems Series A: Mathematical Analysis
Volume12
Issue number2
StatePublished - Apr 2005

Keywords

  • Distance between zeros
  • Functional differential equations
  • Oscillation
  • Phase transition model
  • Unbounded solutions

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