Trefoil Knot,
Mathematica
computer visualization, (c) 1991, Stewart Dickson.
Stewart Dickson 4808 Hogan Drive Wilmington, DE 19808 (302)731-2718 / (302)731-7482 (FAX) dickson@mathart.comContact: The Williams Gallery.
Trefoil Knot,
Mathematica
computer visualization, (c) 1991, Stewart Dickson.
Trefoil Knot,
Stereolithograph, Dimensions: 3.5" X 8.1" X 8.4".
(c) 1989 Stewart Dickson. Price: $6,000.
Virtual Gallery,
Wavefront computer rendering,
(c) 1990 Stewart Dickson.
Genus 4, Three-Ended Minimal Surface,
Wavefront
computer visualization, (c) 1990
David Hoffman, Stewart Dickson.
Genus 4, Three-Ended Minimal Surface,
5.4" X 8.5" X 8.5", Stereolithograph, (c) 1990
David Hoffman, Stewart Dickson.
Price: $12,000.
Genus 1, Four-Ended Minimal Surface Including a Topological Handle,
Wavefront
computer visualization, (c) 1990,
David Hoffman, James Hoffman and
Stewart Dickson.
Genus 1, Four-Ended Minimal Surface Including a Topological Handle,
Dimensions: (approx.) 18" X 18" X 18", Stereolithograph, (c) 1990
David Hoffman, James Hoffman and
Stewart Dickson. Photo courtesy of Dr. Guy MacDonald, Johnson Controls, Inc.
Price: $12,000.
Genus 1, Infinite-Ended Minimal Surface Including a Topological Handle,
Wavefront
computer visualization, (c) 1990
David Hoffman, Stewart Dickson.
Fundamental Piece, Genus 1, Infinite-Ended Minimal Surface Including a
Topological Handle,
6.0" X 6.0" X 8.0", Stereolithograph, (c) 1991
David Hoffman, Stewart Dickson.
Complex Projective Varieties Determined by x^3 + y^3 = z^3
(Fermat's Last Theorem), n = 3,
Stereoscopic Mathematica computer rendering,
Harvest Fine Art Print on archival paper,
(c) 1990 Andrew Hanson, Stewart Dickson, price: $400.
Complex Projective Varieties Determined by x^3 + y^3 = z^3
(Fermat's Last Theorem), n = 3.
8.5" X 6.0" X 6.0", Stereolithograph, (c) 1991 Andrew Hanson, Stewart Dickson.
Price: $12,000.
Complex Projective Varieties Determined by x^5 + y^5 = Z^5
(Fermat's Last Theorem), n = 5,
Stereoscopic Mathematica computer rendering,
Harvest Fine Art Print on archival paper,
(c) 1990 Andrew Hanson, Stewart Dickson, price: $400.
Complex Projective Varieties Determined by x^5 + y^5 = Z^5
(Fermat's Last Theorem), n = 5.
9.0" X 6.8" X 6.8", Stereolithograph, (c) 1991 Andrew Hanson, Stewart Dickson,
price: $12,000.
Complex Projective Varieties Determined by x^7 + y^7 = Z^7
(Fermat's Last Theorem), n = 7,
Mathematica computer rendering, (c) 1990
Andrew Hanson, Stewart Dickson.
Complex Projective Varieties Determined by x^9 + y^9 = Z^9
(Fermat's Last Theorem), n = 9,
Mathematica computer rendering, (c) 1990
Andrew Hanson, Stewart Dickson.
Trinoid Minimal Surface,
Stereoscopic Mathematica computer
visualization, (c) 1990 Stewart Dickson.
Trinoid
Dimensions: 8.5" X 8.5" X 8.5", Stereolithograph, (c) 1991 Stewart Dickson.
Price: $12,000.
Enneper's Minimal Surface,
Mathematica stereoscopic computer
visualization, Harvest Fine Art Print on archival paper,
(c) 1990 Stewart Dickson, price: $400.
Enneper's Minimal Surface,
Dimensions: 8.0" X 9.0" X 9.0", Stereolithograph, (c) 1991 Stewart Dickson.
Price: $12,000.
Scherk's Second Minimal Surface,
Stereoscopic Mathematica computer
visualization, Harvest Fine Art Print on archival paper,
(c) 1990 Stewart Dickson, price: $400.
The Fundamental Piece of Scherk's Second Minimal Surface,
Dimensions: 3.1" X 8.8" X 8.8", Stereolithograph, (c) 1991 Stewart Dickson.
Scherk's Second Minimal Surface,
Dimensions: 12" X 8.8" X 8.8", Acrylic on Bronze, (c) 1991 Stewart Dickson,
price: $6,000.
Costa's Genus 1, 3-Ended Minimal Surface,
Mathematica stereoscopic computer
visualization, (c) 1990 Stewart Dickson.
Software/Hardware used: The Mathematica system for doing mathematics by computer. Silicon Graphics 4D/25TG Personal Iris.
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