Symmetry in Engineering Sciences II

Symmetry in Engineering Sciences II

Symmetry can be understood in two different ways: as a property or as a principle. As Plato said, the symmetry that can be seen in nature is not random in itself, because it is a result of the symmetries of the physical laws. Thus, the principles of symmetry have been used to solve mechanical proble...

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Bibliographic Details
Main Authors: Gil Montoya, Francisco, Baños Navarro, Raúl, Alcayde García, Alfredo, Manzano Agugliaro, Francisco
Format: info:eu-repo/semantics/article
Language:English
Published: MDPI 2020
Subjects:
asymmetry
chemical engineering
civil engineering
complex networks
computation
electrical engineering
geometry
graphs
measures
mechanical engineering
operations
optimization
synchronization
topology
Online Access:http://hdl.handle.net/10835/8316
Description
Summary:Symmetry can be understood in two different ways: as a property or as a principle. As Plato said, the symmetry that can be seen in nature is not random in itself, because it is a result of the symmetries of the physical laws. Thus, the principles of symmetry have been used to solve mechanical problems since antiquity. Today, these principles are still being researched; for example, in chemical engineering, the spatial symmetry properties of crystal lattices are being studied, or in electrical engineering, the temporal symmetry of the periodic processes of oscillators can be observed. This Special Issue is dedicated to symmetry in engineering sciences (electrical, mechanical, civil, and others) and aims to cover both engineering solutions related to symmetry and the search for patterns to understand the phenomena observed.

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