Martha Schwartz Partners
Add comment April 7, 2009
Que vos parece? Londres?
Rhino Updates:
April 15 – Shape To Fabrication 3, London, UK
«Industry leaders from Architecture, Landscaping, Urban Planning & Engineering will present and share projects from around the world highlighting issues related to design, use of technology and methodology. Every phase will be covered, from concept forms and shapes, to complex engineering analysis and final manufacturing.
Speakers include EDAW, Zaha Hadid Architects, Studio Mode, Buro Happold, Expedition Engineering, NEX Architecture, Adams Kara Taylor.
Each presentation will put a strong emphasis on narrowing the links between complex and challenging architectural forms and fabrication.
You will also see the latest developments in Rhino modeling technology, with a look ahead to Rhino 5.0, plus updates on Grasshopper, the graphical algorithm editor for Rhino 4.0, the popular V-Ray for Rhino rendering technology, the terrain modeling and analysis solution RhinoTerrain, VisualARQ for Rhino and more. »
Where:
Lecture Theatre, London Metropolitan University
16 Goulston Street
London, E1 7TP, United Kingtom
Assinem o NewsLetter do site do Rhino se quiserem receber as ultimas informações do programa e de Lectures sobre o programa.
Add comment April 7, 2009
Marc Fornes
MARC FORNES
Marc Fornes, Architect DPLG, is the founder of THEVERYMANY, www.theverymany.net, a design studio and collaborative research forum engaging the field of architecture via encoded and explicit processes.
O website explica os processos de desenvolvimento dos projectos assim como as metodologias a seguir na programação dos algoritmos e na sua execução.
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Exercicio 5
Exercicio 5 - Transformações de elipses por diferentes eixos de rotação.
Eixos: de simetria, pelo foco, pelos limites, por eixos perpendiculares e por vários pontos de tangencia.
Tool: Revolve
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Kepler’s laws
Kepler’s Platonic solid model of the Solar system from Mysterium Cosmographicum (1596)
«In the 16th century, the German astronomer Johannes Kepler attempted to find a relation between the five known planets at that time (excluding the Earth) and the five Platonic solids. In Mysterium Cosmographicum, published in 1596, Kepler laid out a model of the solar system in which the five solids were set inside one another and separated by a series of inscribed and circumscribed spheres. The six spheres each corresponded to one of the planets (Mercury, Venus, Earth, Mars, Jupiter, and Saturn). The solids were ordered with the innermost being the octahedron, followed by the icosahedron, dodecahedron, tetrahedron, and finally the cube. In this way the structure of the solar system and the distance relationships between the planets was dictated by the Platonic solids. In the end, Kepler’s original idea had to be abandoned, but out of his research came the discovery of the Kepler solids, the realization that the orbits of planets are not circles, and Kepler’s laws of planetary motion for which he is now famous.»
http://en.wikipedia.org/wiki/Platonic_solid
Add comment April 7, 2009
Cuboctaedro
Cuboctaedro
Execução: pontos médios de cada aresta do Octaedro.
Cuboctaedro
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