Periodic Solution and Stability Behavior for Nonlinear Oscillator Having a Cubic Nonlinearity Time-Delayed

Authors

  • Yusry Osman El-Dib Department of Mathematics, Faculty of Education, Ain Shams University, Roxy, Egypt

DOI:

https://doi.org/10.21467/ias.5.1.12-25

Abstract

The current paper investigates the dynamics of the dissipative system with a cubic nonlinear time-delayed of the type of the damping Duffing equation. A coupling between the method of the multiple scales and the homotopy perturbation has been utilized to study the complicated dynamic problem. Through this approach, a cubic nonlinear amplitude equation resulted in at the first-order of perturbation; meanwhile, a quintic equation appears at the second-order of perturbation. These equations are combined into one nonlinear quintic Landau equation. The polar form solution is used, and linearized stability configuration is applied to the nonlinear amplitude equation. Also, a second-order approximate solution is achieved. The numerical illustrations showed that the damping, delay coefficient, and time delay play dual roles in the stability behavior. In addition, the nonlinear coefficient plays a destabilizing influence.

Keywords:

Homotopy perturbation method, multiple scales method, stability analysis, damping delay oscillator Duffing equation

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Published

2018-05-23

Issue

Vol. 5 No. 1 (2018)

Section

Research Article

How to Cite

[1]
Y. O. El-Dib, “Periodic Solution and Stability Behavior for Nonlinear Oscillator Having a Cubic Nonlinearity Time-Delayed”, Int. Ann. Sci., vol. 5, no. 1, pp. 12–25, May 2018.
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