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Uniformly Valid Asymptotics for Carrier’s Mathematical Model of String Oscillations

    Paulius Miškinis Affiliation
    ; Aleksandras Krylovas Affiliation
    ; Olga Lavcel-Budko Affiliation

Abstract

In the paper, an asymptotic analysis of G.F. Carrier’s mathematical model of string oscillation is presented. The model consists of a system of two nonlinear second order partial differential equations and periodic initial conditions. The longitudinal and transversal string oscillations are analyzed together when at the initial moment of time the system’s solutions have amplitudes proportional to a small parameter. The problem is reduced to a system of two weakly nonlinear wave equations. The resonant interaction of periodic waves is analyzed. An uniformly valid asymptotic approximation in the long time interval, which is inversely proportional to the small parameter, is constructed. This asymptotic approximation is a solution of averaged along characteristics integro-differential system. Conditions of appearance of combinatoric resonances in the system have been established. The results of numerical experiments are presented.

Keyword : asymptotic analysis, averaging, nonlinear waves, resonances

How to Cite
Miškinis, P., Krylovas, A., & Lavcel-Budko, O. (2017). Uniformly Valid Asymptotics for Carrier’s Mathematical Model of String Oscillations. Mathematical Modelling and Analysis, 22(3), 337-351. https://doi.org/10.3846/13926292.2017.1309702
Published in Issue
May 19, 2017
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This work is licensed under a Creative Commons Attribution 4.0 International License.