FUNDAMENTAL FREQUENCY OF A BEAM ON TWO ELASTIC SUPPORTS

The title problem is approximately solved in a unified manner in the case of rectangular and circular plates elastically restrained against rotation along the boundary. Polynomial coordinate Junctions and a variational approach are used in order to obtain an approximatejrequency equation. JudgingJ?

This work presents a method to find the exact vibration frequencies of beams resting on variable one- and two-parameter elastic foundations. The proposed solution is based on a new method that enables one to find the dynamic stiffness matrix for the member including the effects of the variable found

The resonant frequency of a reciprocating point load on an elastic beam is considered. Employing the elementary beam theory and applying the Fourier expansion technique, the exact solution is obtained in the form of double series. We have found that the resonant frequency of the reciprocating load i

Figure 1. (a) A freely vibrating Timoshenko beam mounted on Pasternak foundation. The foundation is modelled as an in"nite series of massless vertical springs of sti!ness k 5 per unit length, connected at top by a shearing layer of shearing sti!ness k . per unit length. (b) A small element of the be