Double eigenvalues for the uniform Timoshenko beam

Asymptotic formulas are derived for the eigenvalues of a free-ended Timoshenko beam which has variable mass density and constant beam parameters Ž otherwise. These asymptotic formulas show how the eigenvalues and hence how . the natural frequencies of such a beam depend on the material and geometric

The vibration and control of distributed parameter systems is a topic of ongoing interest. The availability of closed form expressions for the Green's functions (or, equivalently, transfer functions) of individual elements facilitates the analysis of these systems. In this paper, a concise formulati

The propagation and scattering of waves on the Timoshenko beam are investigated by using the method of wave propagators. This method is more general than the scattering operators connected to the imbedding and Green function approaches; the wave propagators map the incoming field at an internal posi

Wave reflection in a Timoshenko beam is treated, using wave splitting and the imbedding technique. The beam is assumed to be inhomogeneous and restrained by a viscoelastic suspension. The viscoelasticity is characterized by constitutive relations that involve the past history of deflection and rotat