Simulation of a flexible polymer tethered to a flat adsorbing surface

## Abstract The exact solution of the problem of adsorption of a long ideal polymer chain with variable degree of stiffness on a plane surface is presented. It is shown that the adsorption of stiff polymer chains is a second‐order phase transition; in the adsorbed state “train” (i.e. adsorbed) sect

The exchange kinetics of polymers adsorbing on a solid surface is extensively studied by dynamic Monte Carlo simulations. A model employed simulates a semidilute polymer solution placed in contact with a solid surface that attracts polymer segments by the adsorption interaction (v s ). The exchange

Aerostats are lighter-than-air vehicles tethered to the ground by a cable and used for broadcasting, communications, surveillance, and drug interdiction. The dynamic response of tethered aerostats subject to extreme atmospheric turbulence often dictates survivability. This paper develops a theoretic

Ahstrae-This paper presents a model for simulating flexible surfaces of cloth objects. The model is to simulate cloth deformations in three-dimensional (3D) space from two-dimensional (2D) patterns by using the tinlte ekment method (FEM) with geometric constraints. A 3D form is obtained from a 2D pa