Dynamic analysis of a flexible hub-beam system with tip mass

The dynamic characteristics of a rotating curved beam are investigated. The equations of motion include all dynamic e!ects such as Coriolis force, centrifugal force and acceleration. The analysis of the rotating beam takes into account the coupling between rigid-body motion and elastic deformation,

In this paper, the equations of motion for a deploying beam with a tip mass are derived by using Hamilton's principle. In the dynamic formulations, the beam is divided into two parts. One part of the beam is outside the rigid support and is free to vibrate, while the remaining part is inside the sup

This paper deals with the derivation of the frequency equation of a special combined dynamic system. It consists of a clamped-free Bernoulli-Euler beam with a tip mass where a spring-mass system is attached to it. The derivation of the frequency equation is essentially carried out by means of the La

In this paper, the equations of motion for a non-linearly constrained flexible manipulator with a tip mass are derived by using Hamilton's principle. Dynamic formulation is based on expressing the kinetic and potential energies of the manipulator system in terms of generalized co-ordinates. Four dyn