A Study of Self-Organization in Small Systems with Simple Dynamics

Oldham, William J. B. and Rejcek, James (2020) A Study of Self-Organization in Small Systems with Simple Dynamics. Physical Science International Journal, 24 (12). pp. 39-59. ISSN 2348-0130

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Abstract

Self-organization in small systems of particles with simple dynamic laws has been simulated. The purpose of this work is to investigate self-organization in small systems where we could follow individual particles. The intention is to look for pattern formation as the system evolves. For the two kinds of systems studied, the motion and the final system state for various dynamic iterations are presented. In the first system design, two kinds of particles are simulated. Like particles have a repulsive force, while unlike particles have an attractive force. Initially, the particles are randomly distributed in a two dimensional square bounded region, and then allowed to dynamically interact for a number of iterations. In experiment 1 the particles have different polarity. Using the inverse square law force, modified at short distances, most cases resulted in equilibrium with the particles of opposite polarity paired up. Since this was a state of equilibrium no more movement occurred. In the second experiment, there are two groups of particles initially separated by a boundary. The particles on each side of the boundary are further divided into two groups referred to as strong or weak particles. In this experiment the resulting patterns were clusters of particles. The forces among all of the particles can be varied to study the configurations that result from the dynamics. The results of the experiments are presented in graphical format. The main conclusion is that this model can be used to study small dynamic systems.

Item Type: Article
Subjects: Lib Research Guardians > Physics and Astronomy
Depositing User: Unnamed user with email support@lib.researchguardians.com
Date Deposited: 03 Mar 2023 11:18
Last Modified: 13 Jul 2024 13:25
URI: http://eprints.classicrepository.com/id/eprint/280

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