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On the Global Behaviour of Solutions for a Delayed Viscoelastic-Type Petrovesky Wave Equation with p-Laplacian Operator and Logarithmic Source

Bochra Belhadji, Jehad Alzabut, Mohammad Esmael Samei, Nahid Fatima

2022Mathematics11 citationsDOIOpen Access PDF

Abstract

This research is concerned with a nonlinear p-Laplacian-type wave equation with a strong damping and logarithmic source term under the null Dirichlet boundary condition. We establish the global existence of the solutions by using the potential well method. Moreover, we prove the stability of the solutions by the Nakao technique. An example with illustrative figures is provided as an application.

Topics & Concepts

LogarithmMathematical analysisMathematicsOperator (biology)Laplace operatorWave equationDirichlet boundary conditionType (biology)Boundary (topology)Nonlinear systemBoundary value problemStability (learning theory)Term (time)Null (SQL)ViscoelasticityPhysicsComputer scienceGeologyChemistryBiochemistryGeneDatabaseTranscription factorPaleontologyMachine learningRepressorQuantum mechanicsThermodynamicsStability and Controllability of Differential EquationsAdvanced Mathematical Physics ProblemsAdvanced Mathematical Modeling in Engineering