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922 results on '"Archimedean solid"'

1. Archimedean solid-like superconducting framework in phase-separated K0.8Fe1.6+xSe2 (0<=x<=0.15)

Author

Wang, Z., Cai, Y., Wang, Z. W., Ma, C., Chen, Z., Yang, H. X., Tian, H. F., and Li, J. Q.

Subjects
Condensed Matter - Superconductivity
Abstract

The superconducting (SC) phase in the phase-separated (PS) K0.8Fe1.6+xSe2 (0<=x<=0.15) materials is found to crystallize on Archimedean solid-like frameworks, this structural feature originate from a spinodal phase separation (SPS) at around Ts~540K depending slightly on the Fe concentration. Two stable phases in K0.8Fe1.6+xSe2 are demonstrated to be the SC K0.5Fe2Se2 and antiferromagnetic (AFM) K0.8Fe1.6Se2. The spinodal waves go along the systematic [113] direction and result in notable lamellar structure as illustrated by using the strain-field theoretical simulation. The 3-dimentional SC framework is constructed by hollow truncated octahedra similar with what discussed for Archimedean solids. Based on this structural model, we can efficiently calculate the volume fraction of SC phase in this type of PS SC materials., Comment: 14 pages, 4 figures + Suppl. material (7 pages, 7 figures)

Published
2014
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2. Johannes Kepler: Nova stereometria doliorum vinariorum/New solid geometry of wine barrels. Accessit Stereometriæ Archimedeæ supplementum/A supplement to the Archimedean solid geometry has been added: Edited and translated, with an Introduction, by Eberhard Knobloch (Sciences et Savoirs. Bibliothèque de science, tradition et savoirs humanistes 4). Les Belles Lettres, Paris 2018, 348 S., ISBN 978-2-251-44832-9, ISSN 0184-7155, € 95

Author

Hellmann, Martin

Published
2019
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4. AN APPLICATION OF CLIFFORD ALGEBRA ON THE SEMI-SYMMETRICAL ARCHIMEDEAN SOLID TRUNCATED ICOSAHEDRON

Author

Şadiye ÇAKMAK

Subjects
General Medicine
Abstract

Mathematical systems are needed to explain and prove the concepts in physics. This could be in algebra. Various algebras have been introduced and discussed by physicists and mathematicians throughout history. In this work, one of them, Clifford algebra, or in other words geometric algebra, is discussed and its application in physics is examined. Today, Clifford algebra provides convenience in many fields. It is frequently used in application areas such as robotics, quantum mechanics, and crystallography. After presenting Clifford algebra and quaternions, symmetry operations with Clifford algebra and quaternions are defined in molecular physics. Here, these symmetry operations are also applied to the fourth Archimedean solid, the truncated icosahedron. Also, the vertices of this solid presented in Cartesian coordinates are calculated.

Published
2021
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8. A platonic solid templating Archimedean solid: an unprecedented nanometre-sized Ag37cluster

Author

Kai Yu, Yuan-Zhi Tan, Ya-Qin Zhao, Hai-Feng Su, Di Sun, Lan-Sun Zheng, Xing-Po Wang, and Xiao-Yu Li

Subjects
symbols.namesake, Polyhedron, Crystallography, Chemistry, Truncated tetrahedron, symbols, Shell (structure), Cluster (physics), Tetrahedron, General Materials Science, Single crystal, Archimedean solid, Platonic solid
Abstract

The spontaneous formation of discrete spherical nanosized molecules is prevalent in nature, but the authentic structural mimicry of such highly symmetric polyhedra from edge sharing of regular polygons has remained elusive. Here we present a novel ball-shaped {(HNEt3)[Ag37S4(SC6H4(t)Bu)24(CF3COO)6(H2O)12]} cluster () that is assembled via a one-pot process from polymeric {(HNEt3)2[Ag10(SC6H4(t)Bu)12]}n and CF3COOAg. Single crystal X-ray analysis confirmed that is a Td symmetric spherical molecule with a [Ag36(SC6H4(t)Bu)24] anion shell enwrapping a AgS4 tetrahedron. The shell topology of belongs to one of 13 Archimedean solids, a truncated tetrahedron with four edge-shared hexagons and trigons, which are supported by a AgS4 Platonic solid in the core. Interestingly, the cluster emits green luminescence centered at 515 nm at room temperature. Our investigations have provided a promising synthetic protocol for a high-nuclearity silver cluster based on underlying geometrical principles.

Published
2015
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9. Compte rendu de Johannes Kepler : «Nova stereometria doliorum vinariorum = New solid geometry of wine barrels. Accessit Stereometriæ Archimedeæ supplementum = A supplement to the Archimedean solid geometry has been added»

Author

Godofredo Iommi Amunátegui

Abstract

Kepler (Johannes), Nova stereometria doliorum vinariorum = New solid geometry of wine barrels. Accessit Stereometriæ Archimedeæ supplementum = A supplement to the Archimedean solid geometry has been added / edited and translated, with an Introduction by Eberhard Knobloch. – Paris : Les Belles Lettres, 2018. – 350 p. – (Sciences et Savoirs - Bibliothèque de science, tradition et savoirs humanistes ; 4). – 1 vol. broché de 16 × 24 cm. – 95,00 €. – isbn 978-2-251-44832-9.

Published
2019
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13. Tridecanuclear Gd(III)-silsesquioxane: Synthesis, structure, and magnetic property

Author

Kai Sheng, Ran Wang, Alexey Bilyachenko, Victor Khrustalev, Marko Jagodič, Zvonko Jagličić, Zhaoyang Li, Likai Wang, Chenho Tung, and Di Sun

Subjects
Gd-silsesquioxane, Crystal structure, Archimedean solid, Magnetic property, Magnetocaloric effects, Chemistry, QD1-999, Physics, QC1-999
Abstract

Polynuclear metal clusters, particularly those with aesthetically appealing structures, are of increasing interest. In this study, by employing C4 symmetrical macrocyclic silsesquioxane ligand, a novel tridecanuclear Gd(III) cluster (Gd13) with a {Gd13O8} core featuring unprecedent body-centered Archimedean cuboctahedron conformation is realized using an efficient solvothermal method instead of conventional Schlenk techniques. To the best of our knowledge, Gd13 cluster is thus far the highest nuclearity of lanthanide-silsesquioxane. Moreover, a magnetic study reveals a weak antiferromagnetic interaction between adjacent Gd ions in the cluster. In addition, Gd13 exhibits cryogenic magnetocaloric effects with a maximum −ΔSM value of 20 J kg−1 K−1 at 2 K and ΔH = 7.0 T.

Published
2022
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18. Algebras of Distributions of Binary Formulas for Theories of Archimedean Solids

Author

D.Yu. Emelyanov

Subjects
algebra of distributions of binary formulas, Archimedean solid, Mathematics, QA1-939
Abstract

Algebras of distributions of binary isolating and semi-isolating formulas are derived objects for given theory and reflect binary formula relations between realizations of 1-types. These algebras are associated with the following natural classification questions: 1) for a given class of theories, determine which algebras correspond to the theories from this class and classify these algebras; 2) to classify theories from a given class depending on the algebras defined by these theories of isolating and semi-isolating formulas. Here the description of a finite algebra of binary isolating formulas unambiguously entails a description of the algebra of binary semi-isolating formulas, which makes it possible to track the behavior of all binary formula relations of a given theory. In the article we describe algebras of binary formulas for the theories of Archimedean solids. For the obtained algebras, Cayley tables are given. It is shown that these algebras are exhausted by described algebras for a truncated cube, truncated octahedron, rhombocuboctahedron, icosododecahedron, truncated tetrahedron, cubooctahedron, flatnosed cube, flat-nosed dodecahedron, truncated cubooctahedron, rhomboicosododecahedron, truncated icosahedron, truncated dodecahedron, rhombo-truncated icosododecahedron.

Published
2019
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20. A Keplerian Ag90 nest of Platonic and Archimedean polyhedra in different symmetry groups

Author

Yan-Min Su, Chen-Ho Tung, Zhi Wang, Stan Schein, and Di Sun

Subjects
Multidisciplinary, 010405 organic chemistry, Icosahedral symmetry, Science, General Physics and Astronomy, General Chemistry, 010402 general chemistry, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, 0104 chemical sciences, Archimedean solid, Platonic solid, Rhombicosidodecahedron, Combinatorics, Polyhedron, Truncated octahedron, symbols.namesake, Octahedron, symbols, lcsh:Q, lcsh:Science, Goldberg polyhedron
Abstract

Polyhedra are ubiquitous in chemistry, biology, mathematics and other disciplines. Coordination-driven self-assembly has created molecules mimicking Platonic, Archimedean and even Goldberg polyhedra, however, nesting multiple polyhedra in one cluster is challenging, not only for synthesis but also for determining the alignment of the polyhedra. Here, we synthesize a nested Ag90 nanocluster under solvothermal condition. This pseudo-Th symmetric Ag90 ball contains three concentric Ag polyhedra with apparently incompatible symmetry. Specifically, the inner (Ag6) and middle (Ag24) shells are octahedral (Oh), an octahedron (a Platonic solid with six 3.3.3.3 vertices) and a truncated octahedron (an Archimedean solid with twenty-four 4.6.6 vertices), whereas the outer (Ag60) shell is icosahedral (Ih), a rhombicosidodecahedron (an Archimedean solid with sixty 3.4.5.4 vertices). The Ag90 nanocluster solves the apparent incompatibility with the most symmetric arrangement of 2- and 3-fold rotational axes, similar to the arrangement in the model called Kepler’s Kosmos, devised by the mathematician John Conway.

Published
2020
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22. Modeling and visualizing of the formation of a snub dodecahedron in the AutoCAD system

Author

Victoryna Anatolevna Romanova and S.V. Strashnov

Subjects
autocad, Computer science, archimedean solids, semi-regular polyhedron, edge, Geometry, flat-nosed dodecahedron, Platonic solid, symbols.namesake, Dodecahedron, lcsh:Architectural engineering. Structural engineering of buildings, vertice, AutoLISP, computer.programming_language, Angle of rotation, Snub dodecahedron, platonic solids, snub dodecahedron, rhomboicosododecahedron, Truncation (geometry), Archimedean solid, autolisp, lcsh:TH845-895, symbols, Rotation (mathematics), computer
Abstract

The article is devoted to modeling and visualization of the formation of flat-nosed (snub-nosed) dodecahedron (snub dodecahedron). The purpose of the research is to model the snub dodecahedron (flat-nosed dodecahedron) and visualize the process of its formation. The formation of the faces of the flat-nosed dodecahedron consists in the truncation of the edges and vertices of the Platonic dodecahedron with the subsequent rotation of the new faces around their centers. The values of the truncation of the dodecahedron edges, the angle of rotation of the faces and the length of the edge of the flat-nosed dodecahedron are the parameters of three equations composed as the distances between the vertices of triangles located between the faces of the snub dodecahedron. The solution of these equations was carried out by the method of successive approximations. The results of the calculations were used to create an electronic model of the flat-nosed dodecahedron and visualize its formation. The task was generally achieved in the AutoCAD system using programs in the AutoLISP language. Software has been created for calculating the parameters of modeling a snub dodecahedron and visualizing its formation.

Published
2021

23. On Some Properties of Distance in TO-Space

Author

Zeynep Can and Sabire Yazıcı Fen Edebiyat Fakültesi

Subjects
Unit sphere, Physics, Distance Between Two Lines, Distance of a Point to a Line, Environmental Engineering, Convex Polyhedra, Basic Sciences, Euclidean space, Truncated Octahedron, Temel Bilimler, Mathematical analysis, Convex set, Space (mathematics), Industrial and Manufacturing Engineering, Archimedean solid, symbols.namesake, Truncated octahedron, Minkowski space, Metric (mathematics), symbols, Mathematics::Metric Geometry, Metric, Metric,Convex polyhedra,Truncated octahedron,Distance of a point to a line,Distance of a point to a plane,Distance between two lines
Abstract

The aim of this work is to investigate some properties of the truncated octahedron metric introduced in the space in further studies on metric geometry. With this metric, the 3-dimensional analytical space is a Minkowski geometry which is a non-Euclidean geometry in a finite number of dimensions. In a Minkowski geometry, the unit ball is a certain symmetric closed convex set instead of the usual sphere in Euclidean space. The unit ball of the truncated octahedron geometry is a truncated octahedron which is an Archimedean solid. In this study, first, metric properties of truncated octahedron distance, d_TO, in R^2 has been examined by metric approach. Then, by using synthetic approach some distance formulae in R_TO^3, 3-dimensional analytical space furnished with the truncated octahedron metric has been found.

Published
2020
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24. Supramolecular triangular orthobicupola: Self-assembly of a giant Johnson solid J27

Author

Zhiyuan Jiang, Zhengbin Tang, Xiaopeng Li, Tun Wu, Mingzhao Chen, Zhe Zhang, Yiming Li, Shuhua Mao, Lukasz Wojtas, Ting-Zheng Xie, Ming Wang, Pingshan Wang, Qixia Bai, and Hao Yu

Subjects
Cuboctahedron, Materials science, General Chemical Engineering, Biochemistry (medical), Pentagonal prism, Supramolecular chemistry, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Biochemistry, 0104 chemical sciences, Archimedean solid, Platonic solid, symbols.namesake, Crystallography, Polyhedron, Materials Chemistry, symbols, Environmental Chemistry, Johnson solid, Self-assembly, 0210 nano-technology
Abstract

Summary The design principle of supramolecular architectures through a bottom-up strategy has always been guided by polyhedra such as Platonic solids, Archimedean solids, and prisms (antiprisms) with high symmetry. Non-uniform convex polyhedra with regular faces, i.e., Johnson solids, are rarely constructed experimentally although their topologies have been predicted through mathematical theory. Herein, self-assembly of a giant triangular orthobicupola [Zn24612], one of 92 Johnson solids J27, has been achieved from the coordination between 24 Zn2+ and 12 tetrakis-terpyridine building blocks 6 in DMF (N,N-Dimethylformamide). Different from classical Oh or Td symmetric cuboctahedron, the structure of this triangular orthobicupola revealed D3 symmetry which has been unambiguously determined by synchrotron X-ray analysis, NMR, and mass spectrometry. Surprisingly, the self-assembly process has been found to be solvent dependent. The same Zn2+ and tetrakis-terpyridine ligand 6 assembled into another pentagonal prism with the composition of [Zn20610] when using methanol as the reaction solvent.

Published
2021
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26. Facile Synthesis of a Fully Fused, Three-Dimensional π-Conjugated Archimedean Cage with Magnetically Shielded Cavity

Author

Jishan Wu, Jun Zhu, Zhengtao Li, Shaofei Wu, Yong Ni, Tianyu Jiao, Yi Han, and Qiuyu Zhang

Subjects
Solvent molecule, Chemistry, General Chemistry, Conjugated system, Biochemistry, Catalysis, Archimedean solid, law.invention, symbols.namesake, Crystallography, Colloid and Surface Chemistry, law, Truncated tetrahedron, Large strain, Shielded cable, symbols, Solubility, Cage
Abstract

The synthesis of molecular cages consisting of fully fused, π-conjugated rings is rare due to synthetic challenges including preorganization, large strain, and poor solubility. Herein, we report such an example in which a tris-2-aminobenzophenone precursor undergoes acid-mediated self-condensation to form a truncated tetrahedron, one of the 13 Archimedean solids. Formation of eight-membered [1,5]diazocine rings provides preorganization and releases the strain while still maintains weak π-conjugation of the backbone. Thorough characterizations were performed by X-ray, NMR, and UV-vis analysis, assisted by theoretical calculations. The cage exhibits a rigid backbone structure with a well-defined cavity that confines a magnetically shielded environment. The solvent molecule, o-dichlorobenzene, is precisely encapsulated in the cavity at a 1:1 ratio with multiple π···π, C-H···π, and halogen···π interactions with the cage skeleton, implying its template effect for the cage closing reaction. Our synthetic strategy opens the opportunity to access more complex, fully fused, three-dimensional π-conjugated cages.

Published
2021
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27. Keplerate Ag192 Cluster with 6 Silver and 14 Chalcogenide Octahedral and Tetrahedral Shells

Author

Di Sun, Zhi Wang, Chen-Ho Tung, Stan Schein, and Yan-Min Su

Subjects
chemistry.chemical_classification, Chemistry, General Chemistry, Tetrahedral symmetry, Biochemistry, Catalysis, Archimedean solid, Coordination complex, Rhombic dodecahedron, Crystal, symbols.namesake, Crystallography, Colloid and Surface Chemistry, Octahedron, symbols, Tetrahedron, Cluster (physics)
Abstract

Silver clusters with more than 2 concentric silver shells are scarce. Here, we enable self-assembly and crystallize SD/Ag192a, a highly symmetric silver chalcogenide cluster (SCC) with 192 silver cations in 6 shells and 136 anionic groups in 14 shells. All but 1 of these 20 concentric shells are Platonic or Archimedean solids. All have octahedral or tetrahedral symmetry and align the maximum number of their 2-, 3-, and 4-fold axes of rotational symmetry, thus identifying the cluster as a Keplerate. A rhombic dodecahedron supershell, formed from the first 3 anionic shells, is the keystone for the entire structure. But, nearly all of the edges in these polyhedral shells are too long to represent bonds. What mechanism of coordination chemistry holds the shells together? Like Na+ ions held electrostatically inside adjacent cube-shaped anionic compartments in a crystal of NaCl, individual Ag+ ions sit inside adjacent octahedron-shaped anionic compartments that fill space. Similarly, like Cl- ions in NaCl, individual anionic groups sit inside adjacent cationic (Ag+) compartments, mostly uniform polyhedra, that also fill space.

Published
2021
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28. A classification of semi-equivelar maps on the surface of Euler characteristic $$-1$$

Author

Ashish Kumar Upadhyay and Debashis Bhowmik

Subjects
Surface (mathematics), Pure mathematics, symbols.namesake, Applied Mathematics, General Mathematics, Numerical analysis, Euler characteristic, Euler's formula, symbols, Automorphism, Vertex (geometry), Mathematics, Archimedean solid
Abstract

Semi Equivelar maps are generalizations of Archimedean solids to surfaces other than 2-sphere. Semi Equivelar Maps were introduced by Upadhyay et. al. in 2014. They also studied semi equivelar maps on the surface of Euler characteristics $$\chi = -1$$ . In this article we classify all the semi equivelar maps on this surface with upto 12 vertices. We show that there are exactly four such maps. We also prove that there are at least 10 semi equivelar maps on this surface. We compute their Automorphism groups and show that none of these maps are vertex transitive.

Published
2021
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29. On the dimension of Archimedean solids

Author

Tomáš Madaras and Pavol Široczki

Subjects
Archimedean solid, unit-distance graph, dimension of a graph, Applied mathematics. Quantitative methods, T57-57.97
Abstract

We study the dimension of graphs of the Archimedean solids. For most of these graphs we find the exact value of their dimension by finding unit-distance embeddings in the euclidean plane or by proving that such an embedding is not possible.

Published
2014
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30. Introduction

Author

Hartshorne, Robin, Axler, S., editor, Gehring, F. W., editor, Ribet, K. A., editor, and Hartshorne, Robin

Published
2000
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32. Some Semi-equivelar Maps of Euler Characteristics-2

Author

Ashish Kumar Upadhyay and Debashis Bhowmik

Subjects
0106 biological sciences, Surface (mathematics), Pure mathematics, 02 engineering and technology, Automorphism, 01 natural sciences, Archimedean solid, symbols.namesake, 0202 electrical engineering, electronic engineering, information engineering, Euler's formula, symbols, 020201 artificial intelligence & image processing, Engineering (miscellaneous), 010606 plant biology & botany, Mathematics
Abstract

Semi-equivelar maps are generalizations of Archimedean solids. We classify all the semi-equivelar maps on the surface of Euler Characteristics-2 with vertices up to 12. We calculate their automorphism groups and study their vertex-transitivity.

Published
2020
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34. POLYHEDRA AND QUASI- POLYHEDRA IN ARCHITECTURE OF CIVIL AND INDUSTRIAL ERECTIONS

Subjects
Engineering drawing, Engineering, Geodesic dome, business.industry, General Engineering, Base (geometry), Archimedean solid, law.invention, Platonic solid, symbols.namesake, Polyhedron, law, symbols, Joint (building), Architecture, business, Pyramid (geometry)
Abstract

Innovative spatial forms appear and develop at the joint of science, art, and architecture. Geometry is the most important, fundamental components of architectural forming. Now, having passed the stages of passion for the large-span shells, the sky-scrapers, typical inexpensive buildings, architectural bionics and ergonomics; pneumatic, membrane, wire rope and shrouds erections, the architects and designers payed attention at analytically non-given forms of erections and at the polyhedron. It is noticeably especially at the last 10-15 years. In a paper, the problems of application of the polyhedron and their modifications in architecture, building, and technics are analyzed. They consider prisms, pyramids, prismatoids, Platonic and several Archimedean solids, quasi-polyhedrons, and some figures constituted on their base. Polyhedral domes, umbrella shells, and hipped plate constructions are presented too. Large quantity of the illustrations devoted to the architecture of buildings and erections, to the landscape architecture and to the sculptural compositions is presented for the confirmation of increasing interest to these structures. 31 titles of the used original sources are given.

Published
2020
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35. THE STUDY OF CLASSICS PARTICLES' ENERGY AT ARCHIMEDEAN SOLIDS WITH CLIFFORD ALGEBRA

Author

Şadiye Çakmak and Abidin Kiliç

Subjects
Pure mathematics, Euclidean space, Clifford algebra, General Medicine, law.invention, Archimedean solid, Geometric algebra, symbols.namesake, law, Homogeneous space, symbols, Cartesian coordinate system, Quaternion, Complex number, Mathematics
Abstract

Geometric algebras known as a generalization of Grassmann algebras complex numbers and quaternions are presented by Clifford (1878). Geometric algebra describing the geometric symmetries of both physical space and spacetime is a strong language for physics. Groups generated from `Clifford numbers` are firstly defined by Lipschitz (1886). They are used for defining rotations in a Euclidean space. In this work, Clifford algebra is identified. The energy of classic particles with Clifford algebra are defined. This calculations are applied to some Archimedean solids. Also, the vertices of Archimedean solids presented in the Cartesian coordinates are calculated.

Published
2019
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36. Golden Section and Golden Rectangles When Building Icosahedron, Dodecahedron and Archimedean Solids Based On Them

Author

V. Vasil'eva

Subjects
020301 aerospace & aeronautics, Dodecahedron, symbols.namesake, 0203 mechanical engineering, Computer science, Section (archaeology), symbols, Geometry, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, 0104 chemical sciences, Archimedean solid
Abstract

A brief history of the development of the regular polyhedrons theory is given. The work introduces the reader to modelling of the two most complex regular polyhedrons – Platonic solids: icosahedron and dodecahedron, in AutoCAD package. It is suggested to apply the method of the icosahedron and dodecahedron building using rectangles with their sides’ ratio like in the golden section, having taken the icosahedron’s golden rectangles as a basis. This method is well-known-of and is used for icosahedron, but is extremely rarely applied to dodecahedron, as in the available literature it is suggested to build the latter one as a figure dual to icosahedron. The work provides information on the first mentioning of this building method by an Italian mathematician L. Pacioli in his Divine Proportion book. In 1937, a Soviet mathematician D.I. Perepelkin published a paper On One Building Case of the Regular Icosahedron and Regular Dodecahedron, where he noted that this “method is not very well known of” and provided a building based “solely on dividing an intercept in the golden section ratio”. Taking into account the simplicity and good visualization of the building based on golden rectangles, a computer modeling of icosahedron and dodecahedron inscribed in a regular hexahedron is performed in the article. Given that, if we think in terms of the golden section concepts, the bigger side of the rectangle equals a whole intercept – side of the regular hexahedron, and the smaller sides of the icosahedron and dodecahedron rectangles are calculated as parts of the golden section ratio (of the bigger part and the smaller one, respectively). It is demonstrated how, using the scheme of a wireframe image of the dual connection of these polyhedrons as a basis, to calculate the sides of the rectangles in the golden section ratio in order to build an “infinite” cascade of these dual figures, as well as to build the icosahedron and dodecahedron circumscribed about the regular hexahedron. The method based on using the golden-section rectangles is also applied to building semiregular polyhedrons – Archimedean solids: a truncated icosahedron, truncated dodecahedron, icosidodecahedron, rhombicosidodecahedron, and rhombitruncated icosidodecahedron, which are based on icosahedron and dodecahedron.

Published
2019
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37. Face-Sharing Archimedean Solids Stacking for the Construction of Mixed-Ligand Metal–Organic Frameworks

Author

Ya-Qian Lan, Hannah F. Drake, Lei Jiang, Shuai Yuan, Yu Chen Qiu, Cong Wang, Hong-Cai Zhou, Jun-Sheng Qin, Dong-Ying Du, and Xiao Xin Li

Subjects
Chemistry, Stacking, General Chemistry, Mixed ligand, 010402 general chemistry, 01 natural sciences, Biochemistry, Catalysis, 0104 chemical sciences, Archimedean solid, symbols.namesake, Colloid and Surface Chemistry, Chemical engineering, Face (geometry), symbols, Molecule, Metal-organic framework
Abstract

Reticular chemistry has been an important guiding principle for the design of metal-organic frameworks (MOFs). This approach utilizes discrete building units (molecules and clusters) that are connected through strong bonds into extended networks assisted by topological considerations. Although the simple design principle of connecting points and lines has proved successful, new design strategies are still needed to further explore the structures and functions of MOFs. Herein, we report the design and synthesis of two mixed-ligand MOFs, [(CH

Published
2019
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38. Truncated Truncated Dodecahedron ve Truncated Truncated Icosahedron Uzayları

Author

Ümit Ziya Savci

Subjects
çokyüzlü, Polyhedron,Metric,Truncated Truncated Dodecahedron,Truncated Truncated Icosahedron, Truncated icosahedron, Platonic solid, Combinatorics, Polyhedron, symbols.namesake, Mathematics::Metric Geometry, Truncated dodecahedron, metrik, lcsh:Science, lcsh:Science (General), Mathematics, truncated truncated dodecahedron, Basic Sciences, metric, Temel Bilimler, General Medicine, Archimedean solid, polyhedron, lcsh:TA1-2040, Deltoidal icositetrahedron, symbols, Çokyüzlü,Metrik,Truncated Truncated Dodecahedron,Truncated Truncated Icosahedron, Dual polyhedron, lcsh:Q, Cube, lcsh:Engineering (General). Civil engineering (General), truncated truncated icosahedron, lcsh:Q1-390
Abstract

The theory of convex sets is a vibrant and classicalfield of modern mathematics with rich applications. The more geometric aspectsof convex sets are developed introducing some notions, but primarily polyhedra.A polyhedra, when it is convex, is an extremely important special solid in . Some examples of convex subsets of Euclidean3-dimensional space are Platonic Solids, Archimedean Solids and ArchimedeanDuals or Catalan Solids. There are some relations between metrics andpolyhedra. For example, it has been shown that cube, octahedron, deltoidalicositetrahedron are maximum, taxicab, Chinese Checker’s unit sphere,respectively. In this study, we give two new metrics to be their spherestruncated truncated dodecahedron and truncated truncated icosahedron., Konveks kümeler teorisi, zengin uygulamalara sahipmodern matematiğin canlı ve klasik bir alanıdır. Konveks kümelerin geometrikyönleri, bazı kavramlar, fakat öncelikle çokyüzlülerin tanıtılmasıylageliştirilmiştir. Konveks olduğunda bir çokyüzlü, de çok önemlibir özel cisimdir. Öklid 3 boyutlu uzayın konveks alt kümelerinin bazıörnekleri Platonik cisimler, Arşimet cisimleri ve Arşimet dualleri veya Katalancisimleridir. Metriklerle çokyüzlüler arasında bazı ilişkiler vardır. Örneğin,küp, sekizyüzlü, deltoidal icositetrahedron'un sırasıyla, maksimum, Taksi, Çindama uzaylarının birim küresi olduğu görülmektedir. Bu çalışmada, kürelerinintruncated truncated dodecahedron ve truncated truncated icosahedron olan ikiyeni metrik tanıtıldı.

Published
2019

39. Hierarchical Self-Assembly of Nanowires on the Surface by Metallo-Supramolecular Truncated Cuboctahedra

Author

Peter J. Stang, Yang Jiao, Xuzhou Yan, Qing-Fu Sun, Jiaqing He, Xu Qing Wang, Xiaopeng Li, Yaping Xu, Chang Wei Zhang, Shaohua Chen, Bingqian Xu, Ju-Hoon Lee, Heng Wang, Lin Gan, Jonathan L. Sessler, Matthew Hart, Wu Wang, Tianyou Zhai, Xian-Sheng Ke, Lukasz Wojtas, Shasha Zhou, Yiming Li, Hai-Bo Yang, Kun Wang, Li Peng Zhou, and Ming Wang

Subjects
Surface (mathematics), Porphyrins, Macromolecular Substances, Supramolecular chemistry, Nanowire, Molecular Conformation, Nanotechnology, 010402 general chemistry, 01 natural sciences, Biochemistry, Catalysis, symbols.namesake, Colloid and Surface Chemistry, Microscopy, Electron, Transmission, Platinum, Truncated cuboctahedron, Chemistry, Nanowires, General Chemistry, Symmetry (physics), 0104 chemical sciences, Archimedean solid, Helix, symbols, Graphite, Self-assembly, Monte Carlo Method
Abstract

Parastichy, the spiral arrangement of plant organs, is an example of the long-range apparent order seen in biological systems. These ordered arrangements provide scientists with both an aesthetic challenge and a mathematical inspiration. Synthetic efforts to replicate the regularity of parastichy may allow for molecular-scale control over particle arrangement processes. Here we report the packing of a supramolecular truncated cuboctahedron (TCO) into double-helical (DH) nanowires on a graphite surface with a non-natural parastichy pattern ascribed to the symmetry of the TCOs and interactions between TCOs. Such a study is expected to advance our understanding of the design inputs needed to create complex, but precisely controlled, hierarchical materials. It is also one of the few reported helical packing structures based on Platonic or Archimedean solids since the discovery of the Boerdijk-Coxeter helix. As such, it may provide experimental support for studies of packing theory at the molecular level.

Published
2021

40. The Dome as Minimal Housing Unit: 'Ghibli' and 'D-Home' Prototypes

Author

Micaela Colella, Vera Viana, Vítor Murtinho, João Pedro Xavier, and Colella, Micaela

Subjects
Prefabrication, Engineering drawing, symbols.namesake, Subtractive color, Tessellation, Discretization, Computer science, symbols, Constructive, Unitary state, Truncated icosahedron, Archimedean solid
Abstract

In this paper are presented two domed minimal housing units: Ghibli and D-Home. Both prototypes were outlined from the discretization of a domed space, using the geometry of the truncated icosahedron, an Archimedean solid that allows the discretization and tessellation of a concentric sphere with only two types of flat surfaces: pentagonal and hexagonal. In this way, both manufacturing and assembly operations will be facilitated and hastened by the presence of only two structural modules. The prototypes are verged in two different constructive solutions—D-Home uses a lightweight timber system, while Ghibli is an experimentation that employs a massive system. The prototypes show the possibilities offered by digital fabrication combined with subtractive and additive manufacturing techniques. The prototypes also show, specifically, how important is for a designer to master geometry and thus be able to create visually complex and unitary solutions, at the same time, reducing costs and facilitating the assembly.

Published
2020
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42. Hidden Structures in Tessellations of Convex Uniform Honeycombs

Author

László Vörös

Subjects
Truncated cuboctahedron, Orientation (vector space), symbols.namesake, Tessellation, Convex uniform honeycomb, symbols, Regular polygon, Geometry, Hypercube, Cube, Archimedean solid, Mathematics
Abstract

The contribution deals with tessellations of convex uniform honeycombs that consist of only Platonic and Archimedean solids. The Archimedean truncated cuboctahedron is the hull of a 3D model of the 9D cube. Its edges have nine different orientations and are parallel to those of solids applied in the considered space-filling mosaics. The segments connecting the centroids of same cells of a tessellation, have also nine different orientations. These belong to two sets and can be the initial edges of two different 3D models of the 9D cube. Sequences of elements along the segments can be considered a compound edge of a compound model. The elements of the models can be marked by different colours according to their shapes, orientation and roles. The above described correlations make it possible to mark all compound models of all considered convex uniform honeycombs and their tessellations in all original ones by colouring. Using the compound models of the solids, new compound solids and tessellations can be built and this process can be repeated. This way, fractals or fractal like structures can be created. Differently oriented planes cut out periodical plane-tiling patterns from the gained spatial tessellations. An intersecting plane moved parallel to itself creates a series of patterns transforming into each other. These can be queued up as frames of an animation or give the level line depictions of the tessellations.

Published
2020
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43. Groups, Platonic solids and Bell inequalities

Author

Katarzyna Bolonek-Lasoń and Piotr Kosinski

Subjects
Quantum Physics, Physics and Astronomy (miscellaneous), Physics, QC1-999, FOS: Physical sciences, Atomic and Molecular Physics, and Optics, Action (physics), Platonic solid, Archimedean solid, symbols.namesake, Theoretical physics, symbols, High Energy Physics::Experiment, Quantum Physics (quant-ph), Quantum, Mathematics
Abstract

The construction of Bell inequalities based on Platonic and Archimedean solids (Quantum 4 (2020), 293) is generalized to the case of orbits generated by the action of some finite groups. A number of examples with considerable violation of Bell inequalities is presented., 15 pages, 6 figures, modified version as suggested by the reviewers, accepted in Quantum 2021-11-18, Licence statement "arXiv.org perpetual, non-exclusive license" changed to CC-BY 4.0 as demanded by Quantum

Published
2020

44. Equi–size nesting of Platonic and Archimedean metal–organic polyhedra into a twin capsid

Author

Chao Qin, Na Xu, Zhong-Min Su, Xin-Long Wang, Hongmei Gan, and Chun-Yi Sun

Subjects
0301 basic medicine, Materials science, Science, Supramolecular chemistry, General Physics and Astronomy, 02 engineering and technology, General Biochemistry, Genetics and Molecular Biology, Article, Metal, 03 medical and health sciences, symbols.namesake, Polyhedron, Molecule, lcsh:Science, Multidisciplinary, General Chemistry, Self-assembly, 021001 nanoscience & nanotechnology, Archimedean solid, Coordination chemistry, 030104 developmental biology, Capsid, Chemical physics, visual_art, visual_art.visual_art_medium, symbols, Nesting (computing), lcsh:Q, 0210 nano-technology
Abstract

Inspired by the structures of virus capsids, chemists have long pursued the synthesis of their artificial molecular counterparts through self–assembly. Building nanoscale hierarchical structures to simulate double-shell virus capsids is believed to be a daunting challenge in supramolecular chemistry. Here, we report a double-shell cage wherein two independent metal–organic polyhedra featuring Platonic and Archimedean solids are nested together. The inner (3.2 nm) and outer (3.3 nm) shells do not follow the traditional “small vs. large” pattern, but are basically of the same size. Furthermore, the assembly of the inner and outer shells is based on supramolecular recognition, a behavior analogous to the assembly principle found in double-shell viruses. These two unique nested characteristics provide a new model for Matryoshka–type assemblies. The inner cage can be isolated individually and proves to be a potential molecular receptor to selectively trap guest molecules., Supramolecular constructs that mimic complex biological assemblies are synthetically challenging. Here, the authors present a double-shell cage wherein two independent metal-organic polyhedra are nested together in a manner analogous to that found in double-shell virus capsids.

Published
2020

46. From Solid to Plane Tessellations, and Back

Author

Vera Viana

Subjects
Pure mathematics, Tessellation, Visual Arts and Performing Arts, Plane (geometry), Computer science, General Mathematics, 010102 general mathematics, Regular polygon, 02 engineering and technology, Computer Science::Computational Geometry, 021001 nanoscience & nanotechnology, Space (mathematics), 01 natural sciences, Archimedean solid, symbols.namesake, Polyhedron, Face (geometry), Architecture, symbols, Point (geometry), 0101 mathematics, 0210 nano-technology
Abstract

In solid tessellations or three-dimensional honeycombs, polyhedra fit together to fill space, so that every face of each polyhedron belongs to another polyhedron. Solid and plane tessellations are intrinsically connected, since any section cut through a solid tessellation always produces some kind of plane tessellation. To clarify this relation, we will mention a short list of convex polyhedra that fill space monohedrally and illustrate the convex uniform honeycombs, focusing on those with structural potential to outline spaceframes. With regular plane tessellations as starting point, we hint at the geometrical possibilities in which the Platonic and two Archimedean solids are explorable in topological interlocking, aiming to expand the repertoire of blocks for monohedral topological interlocking assemblies. This has possible applications in architecture, in relation, for example, to space frames.

Published
2018
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47. Rupert Property of Archimedean Solids

Author

Ying Chai, Liping Yuan, and Tudor Zamfirescu

Subjects
symbols.namesake, Pure mathematics, Property (philosophy), General Mathematics, 010102 general mathematics, 0103 physical sciences, symbols, Polytope, 010307 mathematical physics, 0101 mathematics, 01 natural sciences, Mathematics, Archimedean solid
Abstract

We say that a polytope has the Rupert property if we can make a hole large enough in to permit another copy of to pass through. In this article, we show that among the 13 Archimedean solids, 8 have...

Published
2018
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48. Platonic solids, Archimedean solids and semi-equivelar maps on the sphere

Author

Dipendu Maity and Basudeb Datta

Subjects
Class (set theory), 010102 general mathematics, Combinatorial proof, Geometric Topology (math.GT), Torus, 0102 computer and information sciences, Surface (topology), 01 natural sciences, Theoretical Computer Science, Archimedean solid, Vertex (geometry), Platonic solid, Combinatorics, symbols.namesake, Mathematics - Geometric Topology, 52C20, 52B70, 51M20, 57M60, 010201 computation theory & mathematics, FOS: Mathematics, symbols, Discrete Mathematics and Combinatorics, Mathematics - Combinatorics, Combinatorics (math.CO), 0101 mathematics, Klein bottle, Mathematics
Abstract

A vertex-transitive map $X$ is a map on a surface on which the automorphism group of $X$ acts transitively on the set of vertices of $X$. If the face-cycles at all the vertices in a map are of same type then the map is called a semi-equivelar map. Clearly, a vertex-transitive map is semi-equivelar. Converse of this is not true in general. In particular, there are semi-equivelar maps on the torus, on the Klein bottle and on the surfaces of Euler characteristics $-1$ $\&$ $-2$ which are not vertex-transitive. It is known that the boundaries of Platonic solids, Archimedean solids, regular prisms and antiprisms are vertex-transitive maps on $\mathbb{S}^2$. Here we show that there is exactly one semi-equivelar map on $\mathbb{S}^2$ which is not vertex-transitive. More precisely, we show that a semi-equivelar map on $\mathbb{S}^2$ is the boundary of a Platonic solid, an Archimedean solid, a regular prism, an antiprism or the pseudorhombicuboctahedron. As a consequence, we show that all the semi-equivelar maps on $\mathbb{RP}^2$ are vertex-transitive. Moreover, every semi-equivelar map on $\mathbb{S}^2$ can be geometrized, i.e., every semi-equivelar map on $\mathbb{S}^2$ is isomorphic to a semi-regular tiling of $\mathbb{S}^2$. In the course of the proof of our main result, we present a combinatorial characterization in terms of an inequality of all the types of semi-equivelar maps on $\mathbb{S}^2$. Here, we present self-contained combinatorial proofs of all our results., Final version. To appear in `Discrete mathematics'

Published
2018

49. Semi-equivelar maps on the torus and the Klein bottle with few vertices

Author

Anand K. Tiwari and Ashish Kumar Upadhyay

Subjects
Plane (geometry), General Mathematics, 010102 general mathematics, Torus, 0102 computer and information sciences, Mathematics::Geometric Topology, 01 natural sciences, Archimedean solid, Combinatorics, symbols.namesake, 010201 computation theory & mathematics, symbols, Isomorphism, 0101 mathematics, Mathematics::Symplectic Geometry, Klein bottle, Mathematics
Abstract

Semi-equivelar maps are generalizations of maps on the surfaces of Archimedean solids to surfaces other than the 2-sphere. The well known 11 types of normal tilings of the plane suggest the possible types of semi-equivelar maps on the torus and the Klein bottle. In this article we classify (up to isomorphism) semi-equivelar maps on the torus and the Klein bottle with few vertices.

Published
2017
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