Mathematics and fiber arts explained

Ideas from mathematics have been used as inspiration for fiber arts including quilt making, knitting, cross-stitch, crochet, embroidery and weaving. A wide range of mathematical concepts have been used as inspiration including topology, graph theory, number theory and algebra. Some techniques such as counted-thread embroidery are naturally geometrical; other kinds of textile provide a ready means for the colorful physical expression of mathematical concepts.

Quilting

See main article: quilt.

The IEEE Spectrum has organized a number of competitions on quilt block design, and several books have been published on the subject. Notable quiltmakers include Diana Venters and Elaine Ellison, who have written a book on the subject Mathematical Quilts: No Sewing Required. Examples of mathematical ideas used in the book as the basis of a quilt include the golden rectangle, conic sections, Leonardo da Vinci's Claw, the Koch curve, the Clifford torus, San Gaku, Mascheroni's cardioid, Pythagorean triples, spidrons, and the six trigonometric functions.[1]

Knitting and crochet

Knitted mathematical objects include the Platonic solids, Klein bottles and Boy's surface.The Lorenz manifold and the hyperbolic plane have been crafted using crochet.[2] [3] Knitted and crocheted tori have also been constructed depicting toroidal embeddings of the complete graph K7 and of the Heawood graph.[4] The crocheting of hyperbolic planes has been popularized by the Institute For Figuring; a book by Daina Taimina on the subject, Crocheting Adventures with Hyperbolic Planes, won the 2009 Bookseller/Diagram Prize for Oddest Title of the Year.[5]

Embroidery

Embroidery techniques such as counted-thread embroidery[6] including cross-stitch and some canvas work methods such as Bargello make use of the natural pixels of the weave, lending themselves to geometric designs.[7] [8]

Weaving

Ada Dietz (1882  - 1981) was an American weaver best known for her 1949 monograph Algebraic Expressions in Handwoven Textiles, which defines weaving patterns based on the expansion of multivariate polynomials.

used the Rule 90 cellular automaton to design tapestries depicting both trees and abstract patterns of triangles.

Spinning

Margaret Greig was a mathematician who articulated the mathematics of worsted spinning.

Fashion design

The silk scarves from DMCK Designs' 2013 collection are all based on Douglas McKenna's space-filling curve patterns.[9] The designs are either generalized Peano curves, or based on a new space-filling construction technique.[10] [11]

The Issey Miyake Fall-Winter 2010–2011 ready-to-wear collection designs from a collaboration between fashion designer Dai Fujiwara and mathematician William Thurston. The designs were inspired by Thurston's geometrization conjecture, the statement that every 3-manifold can be decomposed into pieces with one of eight different uniform geometries, a proof of which had been sketched in 2003 by Grigori Perelman as part of his proof of the Poincaré conjecture.[12]

See also

Further reading

External links

Notes and References

  1. Book: Ellison . Elaine . Venters . Diana . 1-55953-317-X . Key Curriculum . Mathematical Quilts: No Sewing Required . 1999. .
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  6. Gillow, John, and Bryan Sentance. World Textiles, Little, Brown, 1999.
  7. Snook, Barbara. Florentine Embroidery. Scribner, Second edition 1967.
  8. Williams, Elsa S. Bargello: Florentine Canvas Work. Van Nostrand Reinhold, 1967.
  9. Web site: Space-Filling Curves. DMCK. 15 May 2015.
  10. Web site: McKenna, Douglas . The 7 Curve, Carpets, Quilts, and Other Asymmetric, Square-Filling, Threaded Tile Designs . Bridges Donostia: Mathematics, Music, Art, Architecture, Culture . The Bridges Organization . 24 July 2007 . 15 May 2015.
  11. Web site: McKenna . Douglas . Designing Symmetric Peano Curve Tiling Patterns with Escher-esque Foreground/Background Ambiguity . Bridges Leeuwarden: Mathematics, Music, Art, Architecture, Culture . The Bridges Organization . 26 Nov 2023. 26 Nov 2023.
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