The well-known information available on undamped forced vibration of single- and two-degree-of-freedom systems at resonance is critically investigated. The investigation reveals singular behavior of the single-degree-of-freedom systems and the necessity for modification of the presently available results for the two-degree-of-freedom system at resonance
The forced vibrations of stretched strings near their resonance frequencies exhibit several features...
We analyze isolated resonance curves (IRCs) in single-degree-of-freedom systems possessing nonlinear...
A general first order theory is presented for treating forced oscillations in multiple degree of fre...
The response of single-degree-of-freedom systems to harmonic excitation has a very important part in...
Two forced vibrations problems are fundamental from academic and technological viewpoints; the sudde...
There are many systems which consist of a nonlinear oscillator attached to a linear system, examples...
The presence of fixed points in a frequency response of vibrating systems can greatly complicate the...
A new method of multiple scales procedure is used to analyze the forced responses of multiple degree...
International audienceThis paper describes the dynamic behaviour of a coupled system which includes ...
The undamped vibration response of a single degree of freedom system with a hardening non-linear spr...
Geared toward advanced undergraduate and graduate students in engineering, this concise textbook dis...
The dynamic behavior of rigid free-standing blocks subjected to earthquake ground motions is highly ...
In the last decade, the problem of detached resonant curves (DRCs) has received a growing attention....
The ultraharmonic resonance of order 2, excited by a centrifugal type disturbing force, is investiga...
The complexities of resonance in multi-degree of freedom systems (multi-DOF) may be clarified using ...
The forced vibrations of stretched strings near their resonance frequencies exhibit several features...
We analyze isolated resonance curves (IRCs) in single-degree-of-freedom systems possessing nonlinear...
A general first order theory is presented for treating forced oscillations in multiple degree of fre...
The response of single-degree-of-freedom systems to harmonic excitation has a very important part in...
Two forced vibrations problems are fundamental from academic and technological viewpoints; the sudde...
There are many systems which consist of a nonlinear oscillator attached to a linear system, examples...
The presence of fixed points in a frequency response of vibrating systems can greatly complicate the...
A new method of multiple scales procedure is used to analyze the forced responses of multiple degree...
International audienceThis paper describes the dynamic behaviour of a coupled system which includes ...
The undamped vibration response of a single degree of freedom system with a hardening non-linear spr...
Geared toward advanced undergraduate and graduate students in engineering, this concise textbook dis...
The dynamic behavior of rigid free-standing blocks subjected to earthquake ground motions is highly ...
In the last decade, the problem of detached resonant curves (DRCs) has received a growing attention....
The ultraharmonic resonance of order 2, excited by a centrifugal type disturbing force, is investiga...
The complexities of resonance in multi-degree of freedom systems (multi-DOF) may be clarified using ...
The forced vibrations of stretched strings near their resonance frequencies exhibit several features...
We analyze isolated resonance curves (IRCs) in single-degree-of-freedom systems possessing nonlinear...
A general first order theory is presented for treating forced oscillations in multiple degree of fre...