Add to ORKGFor certain flow regimes, the nonlinear differential equation Y¨=F(Y)−G, Y≥0, G\u3e0 and constant, models qualitatively the behaviour of a forced, fluid dynamic, harmonic oscillator which has been a popular department store attraction. The device consists of a ball oscillating suspended in the vertical jet from a household fan. From the postulated form of the model, we determine sets of attraction and exploit symmetry properties of the system to show that all solutions are either initially periodic, with the ball never striking the fan, or else eventually approach a periodic limit cycle, after a sufficient number of bounces away from the fan
The goal of this research is to explore criteria sufficient to produce oscillations, sample some dyn...
Abstract In this paper we investigate the conditions under which periodic solutions of the nonline...
International audienceIn this work, we study the existence and stability of time-periodic oscillatio...
For certain flow regimes, the nonlinear differential equation Y¨=F(Y)−G, Y≥0, G\u3e0 and constant, m...
ABSTRACT. For certain flow regimes, the nonlinear differential equation Y F(Y) G, Y> 0, G 0 and c...
For certain flow regimes, the nonlinear differential equation Y¨=F(Y)−G, Y≥0, G>0 and constant, mode...
We consider second order ordinary differential equations describing periodically forced dynamical sy...
20 pagesThe periodic solutions of a type of nonlinear hyperbolic partial differential equations with...
The nonlinear pseudo-oscillator recently tackled by Gadella and Lara is mapped to an Emden–Fowler (E...
International audienceA single-degree of freedom non-linear oscillator is considered. The non-linear...
We study the longtime behavior of the solutions of a second-order autonomous differential equation, ...
A study is made of the free and forced oscillations in dynamic systems with hysteresis, on the basi...
A general first order theory is presented for treating forced oscillations in multiple degree of fre...
Nonlinearly coupled, damped oscillators at 1:1 frequency ratio, one oscillator being driven coherent...
This paper had its origin in a curious discovery by the first author in research performed with an u...
The goal of this research is to explore criteria sufficient to produce oscillations, sample some dyn...
Abstract In this paper we investigate the conditions under which periodic solutions of the nonline...
International audienceIn this work, we study the existence and stability of time-periodic oscillatio...
For certain flow regimes, the nonlinear differential equation Y¨=F(Y)−G, Y≥0, G\u3e0 and constant, m...
ABSTRACT. For certain flow regimes, the nonlinear differential equation Y F(Y) G, Y> 0, G 0 and c...
For certain flow regimes, the nonlinear differential equation Y¨=F(Y)−G, Y≥0, G>0 and constant, mode...
We consider second order ordinary differential equations describing periodically forced dynamical sy...
20 pagesThe periodic solutions of a type of nonlinear hyperbolic partial differential equations with...
The nonlinear pseudo-oscillator recently tackled by Gadella and Lara is mapped to an Emden–Fowler (E...
International audienceA single-degree of freedom non-linear oscillator is considered. The non-linear...
We study the longtime behavior of the solutions of a second-order autonomous differential equation, ...
A study is made of the free and forced oscillations in dynamic systems with hysteresis, on the basi...
A general first order theory is presented for treating forced oscillations in multiple degree of fre...
Nonlinearly coupled, damped oscillators at 1:1 frequency ratio, one oscillator being driven coherent...
This paper had its origin in a curious discovery by the first author in research performed with an u...
The goal of this research is to explore criteria sufficient to produce oscillations, sample some dyn...
Abstract In this paper we investigate the conditions under which periodic solutions of the nonline...
International audienceIn this work, we study the existence and stability of time-periodic oscillatio...