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SYMMETRY A A A DEFINITION:

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Presentation on theme: "SYMMETRY A A A DEFINITION:"— Presentation transcript:

1 SYMMETRY A A A DEFINITION:
An object is symmetric, if there exists a transformation ( mirroring, rotation, translation, … ) that maps the object back onto itself. Sometimes small details have to be overlooked in order to see the overall symmetry. First we focus on just 2-dimensional images and shapes: MIRROR-SYMMETRY (M) CYCLIC SYMMETRY (Cn) BOTH: “DIHEDRAL” (Dn) C3 D5 D8 C6 C20 D20

2 FRIEZE symmetries There are 7 types of infinitely long linear friezes
B B FRIEZE symmetries There are 7 types of infinitely long linear friezes They are characterized by the presence or absence of these symmetry elements: Conway Notation: FUNDAMENTAL DOMAIN nn n* *nn 22n 2*n *22n GLIDE - AXIS HOR. MIRROR VERT. MIRROR C2 - ROTATION

3 Symmetry Groups of Finite 3D Objects “Cylindrical Symmetries”
Each frieze pattern ( see Poster B ) can be wrapped around a cylinder or a sphere, with n repetitions around the equator, resulting in 7 infinite families of symmetries: Cn nn n=3 S2n n× n=6 Cnh n* n=2 Cnv *nn n=5 Dn 22n n=5 Dnd 2*n n=3 Dnh *22n n=4

4 Symmetry Groups of Finite 3D Objects “Spherical Symmetries”
3D-models by Henry Segerman

5

6 Mirror lines Rotation points Glide axis
Symmetry Elements Mirror lines Rotation points Glide axis

7 Soccer Ball Symmetry David Swart, Waterloo, Canada dmswart1@gmail.com

8 Symmetry Groups of Finite 3D Objects “Cylindrical Symmetries”
Each frieze pattern ( see Poster B ) can be wrapped around a cylinder or a sphere, with n repetitions around the equator, resulting in 7 infinite families of symmetries: Cnv *nn n=5 Cn nn n=3 S2n n× n=6 Cnh n* n=2 Dnd 2*n n=3 Dn 22n n=5 Dnh *22n n=4

9 Symmetry Groups of Finite 3D Objects “Spherical Symmetries”
Oriented Tetrahedron: T (332) 12 elem.: 4*C3, 3*C2 Oriented Double-Tetrahedron: Th (3*2) 24 elem.: 4*C3, 3*C2, 3*M, I Straight Tetrahedron: Td (*332) 24 elem.: 4*C3, 3*C2, 6*M Oriented Octahedron (Cube): O (432) 24 elem.: 3*C4, 4*C3, 6*C2 Straight Octahedron (Cube): Oh (*432) 48 elem.: 3*C4, 4*C3, 6*C2, 3*Me, 6*Mf, I Oriented Icosa-(dodeca)-hedron: I (532) 24 elem.: 6*C5, 10*C3, 15*C2 Straight Icosa-(dodeca)-hedron: Ih (*532) 48 elem.: 6*C5, 10*C3, 15*C2, 15*Me, 6*Mf, I

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