• Least Action Principle of Crystal Formation of Dense Packing Type and Kepler's Conjecture

Least Action Principle of Crystal Formation of Dense Packing Type and Kepler's Conjecture

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Overview

The dense packing of microscopic spheres (i.e. atoms) is the basic geometric arrangement in crystals of mono-atomic elements with weak covalent bonds, which achieves the optimal ?known density? of B/û18. In 1611, Johannes Kepler had already ?conjectured? that B/û18 should be the optimal ?density? of sphere packings. Thus, the central problems in the study of sphere packings are the proof of Kepler's conjecture that B/û18 is the optimal density, and the establishing of the least action principle that the hexagonal dense packings in crystals are the geometric consequence of optimization of density. This important book provides a self-contained proof of both, using vector algebra and spherical geometry as the main techniques and in the tradition of classical geometry.

Product Details

ISBN-13: 9789810246709
ISBN-10: 9810246706
Publisher: World Scientific
Publication date: 2001
Pages: 402
Product dimensions: Height: 8.5 Inches, Length: 6.25 Inches, Weight: 0 Pounds, Width: 1.25 Inches
Author: Wu Yi Hsiang
Language: en
Binding: Hardcover

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