Comments on “use of trigonometric terms in the finite element method with application to vibrating membranes”

The finite element method (FEM) is used for solving the Schrodinger equation in one dimension. Simple model potentials are selected to compare analytical and numerical results. Within FEM, polynomials up to eighth order are used. A much higher accuracy of the eigenvalues could be achieved, if the si

this paper, we consider the vibration of a thin rectangular plate supported by identical beams at two opposing sides. This plate-beam system is rigidly supported at the remaining sides. The finite-element method is used to calculate the natural frequencies for the plate-beam system and to solve the

In this paper, two well established Taylor-Galerkin finite element methods and a second-order Godunov-type finite difference scheme are applied to the problem of finite amplitude axisymmetric wave propagation in hyperelastic membranes. The Taylor-Galerkin finite element methods are derived using con

This paper presents an application of the spline element method based on the Mindlin plate theory to analyze the vibration of thick skew plates with varying thickness in the longitudinal direction. To demonstrate the convergence and accuracy of the present method, several examples are solved, and re