Thursday, September 19, 2019

What would Maurits Cornelis Escher’s Regular Division of the Plane with

Research Question: What would Maurits Cornelis Escher’s Regular Division of the Plane with Birds look like on the torus? Maurits Cornelis Escher was born in Leeuwarden, Holland in 1898. He showed an interest in design and drawing, and this led him to a career in graphic art. His work was not given much recognition until 1956 when he had his first important exhibition which led him to worldwide fame. He was inspired by the math he read about and his work related to those mathematical principles. This is interesting because he only had formal mathematical training through secondary school. He worked with non-Euclidean geometry and â€Å"impossible† figures. His work covered two main areas: geometry of space and logic of space. They included tessellations, polyhedras, and images relating to the shape of space, the logic of space, science, and artificial intelligence (Smith, B. Sidney). Although Escher worked with a wide variety of art, the main focus of this paper will be tessellations. This brings me to my research question: how does Maurits Cornelis Escher’s Regular Division of the Plane w ith Birds relate to the tiling view of the torus? Tessellations and the torus are related to mathematics in the areas of geometry, topology, and the geometry of space. â€Å"A regular tiling of polygons (in two dimensions), polyhedras (three dimensions), or polytopes (n dimensions) is called a tessellation.† (Weisstein, Eric W.). Tessellations, or regular divisions of the plane, cover the entire plane without leaving any gaps or overlapping (http://www.mathacademy.com/pr/minitext/escher/). The word â€Å"tessellate† comes from the Greek word â€Å"tesseres† which means four in English. This relates to tessellations 2 because the first ones were made of square ... ...oks, Inc., 1999. Index of /internet-cd/Test/Escher. 22 October, 1997. 28 July. 2005. . Locher, J.L. M.C. Escher. New York: Harry N Abrams, 1992. M. C. Escher print: Study of the Regular Division of the Plane with Horsemen. Skaalid, Bonnie. Web Design for Instruction. 28 July. 2005. . Softimage-3D Importer - Example Renderings. Okino Computer Graphics. 28 July. 2005. . Tessellation. Weisstein, Eric W. Wolfram Research, Inc. 28 July. 2005. . The Mathematical Art of M.C. Escher. Smith, B. Sidney. Math Academy Online. 20 July. 2005. . The Oldest Escher Collection on the Web. Cordon Art. 28 July. 2005. . What would Maurits Cornelis Escher’s Regular Division of the Plane with Research Question: What would Maurits Cornelis Escher’s Regular Division of the Plane with Birds look like on the torus? Maurits Cornelis Escher was born in Leeuwarden, Holland in 1898. He showed an interest in design and drawing, and this led him to a career in graphic art. His work was not given much recognition until 1956 when he had his first important exhibition which led him to worldwide fame. He was inspired by the math he read about and his work related to those mathematical principles. This is interesting because he only had formal mathematical training through secondary school. He worked with non-Euclidean geometry and â€Å"impossible† figures. His work covered two main areas: geometry of space and logic of space. They included tessellations, polyhedras, and images relating to the shape of space, the logic of space, science, and artificial intelligence (Smith, B. Sidney). Although Escher worked with a wide variety of art, the main focus of this paper will be tessellations. This brings me to my research question: how does Maurits Cornelis Escher’s Regular Division of the Plane w ith Birds relate to the tiling view of the torus? Tessellations and the torus are related to mathematics in the areas of geometry, topology, and the geometry of space. â€Å"A regular tiling of polygons (in two dimensions), polyhedras (three dimensions), or polytopes (n dimensions) is called a tessellation.† (Weisstein, Eric W.). Tessellations, or regular divisions of the plane, cover the entire plane without leaving any gaps or overlapping (http://www.mathacademy.com/pr/minitext/escher/). The word â€Å"tessellate† comes from the Greek word â€Å"tesseres† which means four in English. This relates to tessellations 2 because the first ones were made of square ... ...oks, Inc., 1999. Index of /internet-cd/Test/Escher. 22 October, 1997. 28 July. 2005. . Locher, J.L. M.C. Escher. New York: Harry N Abrams, 1992. M. C. Escher print: Study of the Regular Division of the Plane with Horsemen. Skaalid, Bonnie. Web Design for Instruction. 28 July. 2005. . Softimage-3D Importer - Example Renderings. Okino Computer Graphics. 28 July. 2005. . Tessellation. Weisstein, Eric W. Wolfram Research, Inc. 28 July. 2005. . The Mathematical Art of M.C. Escher. Smith, B. Sidney. Math Academy Online. 20 July. 2005. . The Oldest Escher Collection on the Web. Cordon Art. 28 July. 2005. .

No comments:

Post a Comment

Note: Only a member of this blog may post a comment.