Mapping Motion of 3-D, 4-D and 5-D Polytopes (a lecture by: Jonathan Barlow Gee)
Mapping Motion of 3-D, 4-D and 5-D Polytopes a lecture by: Jonathan Barlow Gee 5 Regular Polytopes in 3-Dimensions = 00:45 Nesting the 5 Regular Polytopes in 3-Dimensions = 04:00 6 Regular Polytopes in 4-Dimensions = 06:42 3 Regular Polytopes in 5-Dimensions = 17:05 Implications = 22:13 errata: 16:20 The cell faces of a 600-cell are tetrahedral, not icosahedral.
Mapping Motion of 3-D, 4-D and 5-D Polytopes a lecture by: Jonathan Barlow Gee 5 Regular Polytopes in 3-Dimensions = 00:45 Nesting the 5 Regular Polytopes in 3-Dimensions = 04:00 6 Regular Polytopes in 4-Dimensions = 06:42 3 Regular Polytopes in 5-Dimensions = 17:05 Implications = 22:13 errata: 16:20 The cell faces of a 600-cell are tetrahedral, not icosahedral.