The experimental study of damping in a time-varying inertia pendulum is presented. The system consists of a disk travelling along an oscillating pendulum: large swinging angles are reached, so that its equation of motion is not only time-varying but also nonlinear. Signals are acquired from a rotary sensor, but some remarks are also proposed as regards signals measured by piezoelectric or capacitive accelerometers. Time-varying inertia due to the relative motion of the mass is associated with the Coriolis-type effects appearing in the system, which can reduce and also amplify the oscillations. The analytical model of the pendulum is introduced and an equivalent damping ratio is estimated by applying energy considerations. An accurate model ...
In the field of physics teaching, the simple pendulum provides a very simple way to study the harmon...
Experiments on the oscillatory motion of a suspended bar magnet throws light on the damping effects ...
Within the framework of a flat model, steady-state modes of motion of a system composed of a platfor...
The experimental study of damping in a time-varying inertia pendulum is presented. The system consis...
Abstract Oscillation method is the most effective approach to determine the inertia properties of ri...
In this paper two of the main sources of non-stationary dynamics, namely the time-variability and th...
AbstractWe study stochastic forced oscillations of a mass-spring system with time-dependent, stochas...
The present article addresses the quantification of damping in a parametric pendulum, with a view on...
This paper presents an original method that can be used for identifying time-varying nonlinear dampi...
A method to extract energy from an excitation which is stochastic in nature is presented. The experi...
Characterization of damping forces in a vibrating structure has long been an active area of research...
AbstractThis paper studies the rotational motion of a parametrically excited pendulum, dynamics of w...
This paper focuses on a practical, low budget image processing approach developed to quantify the da...
An energy-based method is proposed to identify damping parameters from time histories of responses ...
A pendulum in form of an equal arms angle body being a part of a two degrees-of-freedom mechanical ...
In the field of physics teaching, the simple pendulum provides a very simple way to study the harmon...
Experiments on the oscillatory motion of a suspended bar magnet throws light on the damping effects ...
Within the framework of a flat model, steady-state modes of motion of a system composed of a platfor...
The experimental study of damping in a time-varying inertia pendulum is presented. The system consis...
Abstract Oscillation method is the most effective approach to determine the inertia properties of ri...
In this paper two of the main sources of non-stationary dynamics, namely the time-variability and th...
AbstractWe study stochastic forced oscillations of a mass-spring system with time-dependent, stochas...
The present article addresses the quantification of damping in a parametric pendulum, with a view on...
This paper presents an original method that can be used for identifying time-varying nonlinear dampi...
A method to extract energy from an excitation which is stochastic in nature is presented. The experi...
Characterization of damping forces in a vibrating structure has long been an active area of research...
AbstractThis paper studies the rotational motion of a parametrically excited pendulum, dynamics of w...
This paper focuses on a practical, low budget image processing approach developed to quantify the da...
An energy-based method is proposed to identify damping parameters from time histories of responses ...
A pendulum in form of an equal arms angle body being a part of a two degrees-of-freedom mechanical ...
In the field of physics teaching, the simple pendulum provides a very simple way to study the harmon...
Experiments on the oscillatory motion of a suspended bar magnet throws light on the damping effects ...
Within the framework of a flat model, steady-state modes of motion of a system composed of a platfor...