ENERGY FLOW ANALYSIS OF BEAMS AND PLATES FOR RANDOM DISTRIBUTED LOADING

Two methods for calculating the power input to vibrating beams and plates excited by multiple discrete random forces are developed. The power input is expressed in terms of the cross-power spectral density between the exciting forces. An approximate energy density solution is obtained using energy f

The finite element method achieves an approximate solution by subdividing the domain of interest into a number of smaller sub-domains, called finite elements, and then approximating the solution by using local, piecewise continuous polynomial functions within each element. The accuracy of the soluti

A semi-analytical method, called the strip distributed transfer function method, is developed for analysis of plate structures that are composed of rectangular plates. In the method, a rectangular plate (substructure) is divided into a number of strips; the response of each strip is interpolated in

## Abstract This paper presents the theory regarding a __moving distributed mass element__, so that the dynamic responses of a rectangular plate subjected to a moving distributed mass, with the effects of inertia force, Coriolis force and centrifugal force considered, can be easily determined. In w