Modeling the movement of electrostatic motors in a 3D finite element code

Here, we demonstrate the first ultra-stable microwave generation via optical fre- quency division using a SESAM-mode-locked DPSSL in the 1.5-lm region, and we compare its

A high-density genetic map of the Medicago truncatula major freezing tolerance QTL on chromosome 6 reveals colinearity with a QTL related to freezing damage on Pisum sativum

Nonlinear Schr¨ odinger equation, two-step time discretization, linearly implicit method, finite element method, L 2 and H 1 error estimates, optimal order of convergence.. ∗

Another evaluation of the model aimed at comparing the kinematics of the model resulting from simulated muscle activations with an actual 3D motion analysis of the patient foot

Neumann or Robin boundary conditions â First results with a mixed formulation Dynamic equation : heat equation. Michel Duprez Rule of the mesh in the Finite Element

5 shows the mechanical deformations of the actuation unit when a dc voltage is applied. One point of investigation was the nonlinear dynamic response of the micropump. The pump

Specifically, in [18] solving the full water wave equations using boundary element methods, it was shown that large amplitude waves can achieve a higher maximum runup during a

The internal erosion of the soil skeleton and the transport of fine particles by pore water are modeled by the mass exchange between solid and fluid phases.. The stress-strain