French
DeutschRaoul Bricard
Raoul Bricard | |
|---|---|
 | |
| Born | 23 March 1870 |
| Died | 26 November 1943 (aged 73) |
| Scientific career | |
| Fields | Mathematics |
Raoul Bricard (23 March 1870 – 26 November 1943) was a French engineer and a mathematician. He is best known for his work in geometry, especially descriptive geometry and scissors congruence, and kinematics, especially mechanical linkages.
Biography
[edit]Bricard taught geometry at Ecole Centrale des Arts et Manufactures. In 1908 he became a professor of applied geometry at the National Conservatory of Arts and Crafts in Paris.[1] In 1932 he received the Poncelet Prize in mathematics from the Paris Academy of Sciences for his work in geometry.[2]
Work
[edit]In 1896 Bricard published a paper on Hilbert's third problem, even before the problem was stated by Hilbert.[3] In it he proved that mirror symmetric polytopes are scissors congruent, and proved a weak version of Dehn's criterion.
In 1897 Bricard published an important investigation on flexible polyhedra.[4] In it he classified all flexible octahedra, now known as Bricard octahedra.[5] This work was the subject of Henri Lebesgue's lectures in 1938.[6] Later Bricard discovered notable 6-bar linkages.[7][8]
Bricard also gave one of the first geometric proofs of Morley's trisector theorem in 1922.[9][10]
Books
[edit]Bricard authored six books, including a mathematics survey in Esperanto.[11] He is listed in Encyclopedia of Esperanto.[12]
- Matematika terminaro kaj krestomatio (in Esperanto), Hachette, Paris, 1905
- Géométrie descriptive, O. Doin et fils, 1911
- Cinématique et mécanismes, A. Colin, 1921
- Petit traité de perspective, Vuibert, 1924[13]
- Leçons de cinématique, Gauthier-Villars et cie., 1926
- Le calcul vectoriel, A. Colin, 1929
Notes
[edit]- ^ Science, vol. 28 (1908), p. 707.
- ^ "Prize Awards of the Paris Academy of Sciences", Nature vol. 131 (1933) 174-175.
- ^ R. Bricard, "Sur une question de géométrie relative aux polyèdres", Nouvelles annales de mathématiques, Ser. 3, Vol. 15 (1896), 331-334.
- ^ R. Bricard, Mémoire sur la théorie de l’octaèdre articulé Archived 2011-07-17 at the Wayback Machine, J. Math. Pures Appl., Vol. 3 (1897), 113–150 (see also the English translation and an alternative scan).
- ^ P. Cromwell, Polyhedra, Cambridge University Press, 1997.
- ^ Lebesgue H. (1967). "Octaedres articules de Bricard". Enseign. Math. Series 2. 13 (3): 175–185. doi:10.5169/seals-41541.
- ^ K. Wohlhart, The two types of the orthogonal Bricard linkage, Mechanism and machine theory, vol. 28 (1993), 809-817.
- ^ Bricard 6 Bar Linkage Origami on YouTube.
- ^ Guy Richard K. (2007). "The Lighthouse Theorem, Morley & Malfatti - A Budget of Paradoxes" (PDF). American Mathematical Monthly. 114 (2): 97–141. doi:10.1080/00029890.2007.11920398. JSTOR 27642143. S2CID 46275242. Archived from the original (PDF) on April 19, 2012.
- ^ Alain Connes, "Symmetries", European Mathematical Society Newsletter No. 54 (December 2004).
- ^ Raoul Bricard, from Open Library.
- ^ Encyclopedia of Esperanto Archived 2008-12-18 at the Wayback Machine
- ^ Emch, Arnold (1925). "Review: Petit Traité de Perspective by Raoul Bricard" (PDF). Bull. Amer. Math. Soc. 31 (9): 564–565. doi:10.1090/s0002-9904-1925-04125-7.
References
[edit]- Laurent R., Raoul Bricard, Professeur de Géométrie appliquée aux arts, in Fontanon C., Grelon A. (éds.), Les professeurs du Conservatoire national des arts et métiers, dictionnaire biographique, 1794-1955, INRP-CNAM, Paris 1994, vol. 1, pp. 286–291.
