Thomson (unit): Difference between revisions

From formulasearchengine
Jump to navigation Jump to search
en>Tide rolls
m Reverted edits by 78.170.75.104 (talk) to last revision by Jonesey95 (HG)
en>Solomonfromfinland
Definition: Clutter out.
 
Line 1: Line 1:
[[Image:Umbilic Torus.png|thumb|right|Computer representation of an Umbilic Torus]]
Hi there. Let me start by introducing the writer, her title is Myrtle Cleary. Years ago we moved to Puerto Rico and my family members enjoys it. I am a meter reader. To gather coins is what her family members and her appreciate.<br><br>Here is my web-site; [http://dns125.dolzer.at/?q=node/696 home std test]
[[File:Petrie Plaza.jpg|thumb|upright|"Eternity" by [[John Robinson (sculptor)|John Robinson]]]]
 
The '''umbilic torus''' or '''umbilic braclet''' is a single-edged 3-dimensional shape. The lone edge goes three times around the ring before returning to the starting point. The shape also has a single external face. A [[cross section (geometry)|cross section]] of the surface forms a [[Deltoid curve|deltoid]].
 
The umbilic torus occurs in the mathematical subject of [[singularity theory]], in particular in the classification of [[umbilical point]]s which are determined by real [[cubic form]]s <math>a x^3 + 3 b x^2 y + 3 c x y^2 + d y^3</math>. The equivalence classes of such cubics form a three dimensional real projective space and the subset of parabolic forms define a surface – the umbilic torus. [[Christopher Zeeman]] named this set the umbilic braclet in 1976.<ref name=port>{{Citation|first=Ian R.|last=Porteous|title=Geometric Differentiation, For the Intelligence of Curves and Surfaces|ISBN=978-0-521-00264-6|pp=350
|date=2001|publisher=Cambridge University Press| edition=2nd}}</ref>
 
The torus is defined by the following set of [[parametric equations]].<ref>Larson, Roland E., et al. ''Calculus''. Ed. Charles Hartford. 6th ed. Boston: Houghton Mifflin Company, 1998.</ref>
 
:<math>x = \sin u \left(7+\cos\left({u \over 3} - 2v\right) + 2\cos\left({u \over3} + v\right)\right) </math>
 
:<math>y = \cos u \left(7 + \cos\left({u \over 3} - 2v\right) + 2\cos\left({u \over 3} + v\right)\right)</math>
 
:<math>z = \sin\left({u \over 3} - 2v\right) + 2\sin \left({u \over 3} + v\right)</math>
 
:::<math>\mbox{for }-\pi \le u \le \pi,\quad -\pi \le v \le \pi \,</math>
 
[[John Robinson (sculptor)|John Robinson]] created a sculpture ''Eternity'' based on the shape in 1989, this had a triangular cross-section rather than a deltoid of a true Umbilic bracelet. This appeared on the cover of Geometric Differentiation by [[Ian R. Porteous]].<ref name="port"/>
 
[[Helaman Ferguson]] has created a 27-inch (69 centimeters) bronze sculpture, '''Umbilic Torus''', and it is his most widely known piece of art. In 2010, it was announced that [[James Harris Simons|Jim Simons]] had commissioned an Umbilic Torus sculpture to be constructed outside the Math and Physics buildings at [[Stony Brook University]], in proximity to the [[Simons Center for Geometry and Physics]]. The torus is made out of cast bronze, and is mounted on a stainless steel column. The total weight of the sculpture is 65 tonnes, and has a height of {{convert|28|ft|m}}. The torus has a diameter of {{convert|24|ft|m}}, the same diameter as the granite base. Various mathematical formulas defining the torus are inscribed on the base. Installation was completed in September, 2012. <ref>Helaman Ferguson, "Two Theorems, Two Sculptures, Two Posters", American Mathematical Monthly, Volume 97, Number 7,August-September 1990, pages 589-610.</ref>
 
== See also ==
*[[Torus]]
*[[Möbius strip]]
*[[Mathematics and art]]
 
== References ==
 
<references/>
 
==External links==
* [http://helasculpt.com/gallery/?album=3&gallery=66 Umbilic Torus on Ferguson site]
* [http://www.popmath.org.uk/sculpmath/pagesm/fibundle.html  Discussion of Robinson's Eternity]
[[Category:Sculptures]]
[[Category:Mathematics and culture]]

Latest revision as of 23:16, 23 November 2014

Hi there. Let me start by introducing the writer, her title is Myrtle Cleary. Years ago we moved to Puerto Rico and my family members enjoys it. I am a meter reader. To gather coins is what her family members and her appreciate.

Here is my web-site; home std test