Presentation is loading. Please wait.

Presentation is loading. Please wait.

Convex Polyhedra with Regular Polygonal Faces David McKillop Making Math Matter Inc.

Published byFrancis Eaton Modified over 9 years ago

Similar presentations

Presentation on theme: "Convex Polyhedra with Regular Polygonal Faces David McKillop Making Math Matter Inc."— Presentation transcript:

1 Convex Polyhedra with Regular Polygonal Faces David McKillop Making Math Matter Inc.

2 Visualization and Logical Thinking Close your eyes and visualize a regular octahedron Visualize its faces: How many? What shapes? Visualize its vertices: Where are they located? How many? Is there vertex regularity? Visualize its edges: Where are they located? How many? Visualize one of its nets: What do you see? Making Math Matter Inc.

3 Visualization and Logical Thinking Close your eyes and visualize how you constructed a regular icosahedron Visualize its faces: How many? What shapes? Visualize its vertices: Where are they located? How many? Is there vertex regularity? Visualize its edges: Where are they located? How many? Visualize one of its nets: What do you see? Making Math Matter Inc.

4 Regular Polyhedra There are only 5 of these 3-D shapes: regular tetrahedron, cube, regular octahedron, regular dodecahedron, regular icosahedron Each shape has only one type of regular polygon for its faces They have vertex regularity All angles formed by two faces (dihedral angles) are equal Making Math Matter Inc.

5 Visualization and Logical Thinking Close your eyes and visualize a uniform decagon-based prism Visualize its faces: How many? What shapes? Visualize its vertices: Where are they located? How many? Is there vertex regularity? Visualize its edges: Where are they located? How many? Visualize one of its nets: What do you see? Making Math Matter Inc.

6 Uniform Prisms Except for the uniform square prism (cube), there are two regular polygons of one type as bases (on parallel planes) and the rest of the faces are squares They have vertex regularity, usually {4,4,n} but uniform triangular prism is {3,4,4} A net of a uniform n-gonal prism is easily visualized as a regular n-gon with a square attached to each side and another n-gon attached to the opposite side of one of the squares, OR as a belt of n squares with an n- gon attached on opposite sides of the belt. Making Math Matter Inc.

7 Visualization and Logical Thinking Close your eyes and visualize how you would construct a uniform hexagonal antiprism Visualize its faces: How many? What shapes? Visualize its vertices: Where are they located? How many? Is there vertex regularity? Visualize its edges: Where are they located? How many? Visualize one of its nets: What do you see? Making Math Matter Inc.

8 Uniform Antiprisms Except for the uniform triangular antiprism (regular octahedron), there are two regular polygons of one type as bases (on parallel planes) and the rest of the faces are equilateral triangles They have vertex regularity, usually {3,3,3,n} A net of a uniform n-gonal antiprism is easily visualized as two regular n-gons with an equilateral triangle attached to each side and these two configurations joined, OR as a belt of 2n equilateral triangles with an n-gon attached on opposite sides of the belt. Making Math Matter Inc.

9 How are these sets of polyhedra alike? Different? 1 1 Making Math Matter Inc.

10 Deltahedra Any 3-D shape constructed using only equilateral triangles is called a deltahedron There are an infinite number of deltahedra; however, there is a finite number of convex deltahedra. Making Math Matter Inc.

11 No. of Faces No. of Vertices Vertex ConfigurationNo. of Edges 44 {3,3,3} 6 65 2@{3,3,3}; 3@{3,3,3,3} 9 86 {3,3,3,3} 12 107 5@{3,3,3,3}; 2@{3,3,3,3,3} 15 128 4@{3,3,3,3}; 4@{3,3,3,3,3} 18 149 3@{3,3,3,3}; 6@(3,3,3,3,3} 21 1610 2@{3,3,3,3}; 8@{3,3,3,3,3} 24 2012 {3,3,3,3,3} 30 The Convex Deltahedra Making Math Matter Inc.

12 The Convex Deltahedra All faces are equilateral triangles They all have an even number of faces There are only 8 of them Only 3 of them have vertex regularity: the regular tetrahedron, octahedron, and icosahedron 3 of them are dipyramids (6, 8, and 10 faces) Making Math Matter Inc.

13 How are these sets of polyhedra alike? Different? 1 1 2 1 5 Making Math Matter Inc.

14 The Archimedean Solids Two or three different regular polygons as faces Always 4 or more of any regular polygon There are only 13 of these solids They have vertex regularity They are very symmetrical, looking the same when rotated in many directions Why are uniform prisms and uniform antiprisms NOT Archimedean solids? Making Math Matter Inc.

15 How are these sets of polyhedra alike? Different? 1 1 2 1 Making Math Matter Inc.

16 Johnson Solids Have only regular polygons as faces (1 or more different types) They do NOT have vertex regularity There are only 92 of them (5 of them are convex deltahedra) Making Math Matter Inc.

17 13 5 87 Convex Polyhedra With Regular Polygonal Faces Making Math Matter Inc.

Download ppt "Convex Polyhedra with Regular Polygonal Faces David McKillop Making Math Matter Inc."

Similar presentations

Liceo Scientifico Isaac Newton Maths course Polyhedra

Liceo Scientifico Isaac Newton Maths course Polyhedra
Tilings and Polyhedra Helmer ASLAKSEN Department of Mathematics National University of Singapore

Tilings and Polyhedra Helmer ASLAKSEN Department of Mathematics National University of Singapore
Geometry Mini-Lesson Below is the net of a polyhedron. How many vertices does the polyhedron have? MA.912.G.7.1: Describe and make regular, non-regular,

Geometry Mini-Lesson Below is the net of a polyhedron. How many vertices does the polyhedron have? MA.912.G.7.1: Describe and make regular, non-regular,
POLYHEDRON.

POLYHEDRON.
By: Andrew Shatz & Michael Baker Chapter 15. Chapter 15 section 1 Key Terms: Skew Lines, Oblique Two lines are skew iff they are not parallel and do not.

By: Andrew Shatz & Michael Baker Chapter 15. Chapter 15 section 1 Key Terms: Skew Lines, Oblique Two lines are skew iff they are not parallel and do not.
4.5 More Platonic Solids Wednesday, March 3, 2004.

4.5 More Platonic Solids Wednesday, March 3, 2004.
VOCABULARY GEOMETRIC FIGURES. POLYGON Is a closed plane figure formed by three or more line segments that meet at points called vertices.

VOCABULARY GEOMETRIC FIGURES. POLYGON Is a closed plane figure formed by three or more line segments that meet at points called vertices.
Chapter 12 Surface Area and Volume. Topics We Will Discuss 3-D Shapes (Solids) Surface Area of solids Volume of Solids.

Chapter 12 Surface Area and Volume. Topics We Will Discuss 3-D Shapes (Solids) Surface Area of solids Volume of Solids.
Space and Shape Unit Grade 9 Math.

Space and Shape Unit Grade 9 Math.
The Beauty of Polyhedra Helmer ASLAKSEN Department of Mathematics National University of Singapore

The Beauty of Polyhedra Helmer ASLAKSEN Department of Mathematics National University of Singapore
Chapter 12 Surface Area and Volume. Topics We Will Discuss 3-D Shapes (Solids) Surface Area of solids Volume of Solids.

Chapter 12 Surface Area and Volume. Topics We Will Discuss 3-D Shapes (Solids) Surface Area of solids Volume of Solids.
Surface Area and Volume

Surface Area and Volume
Chapter 15: Geometric Solids Brian BarrDan Logan.

Chapter 15: Geometric Solids Brian BarrDan Logan.
Surface Area and Volume Chapter 12. Exploring Solids 12.1 California State Standards 8, 9: Solve problems involving the surface area and lateral area.

Surface Area and Volume Chapter 12. Exploring Solids 12.1 California State Standards 8, 9: Solve problems involving the surface area and lateral area.
GEOMETRY Bridge Tips: Be sure to support your sides when you glue them together. Today: Over Problem Solving 12.1 Instruction Practice.

GEOMETRY Bridge Tips: Be sure to support your sides when you glue them together. Today: Over Problem Solving 12.1 Instruction Practice.
Geometry: Part 2 3-D figures.

Geometry: Part 2 3-D figures.
Polyhedrons or Polyhedra A polyhedron is a solid formed by flat surfaces. We are going to look at regular convex polyhedrons: “regular” refers to the fact.

Polyhedrons or Polyhedra A polyhedron is a solid formed by flat surfaces. We are going to look at regular convex polyhedrons: “regular” refers to the fact.
How many vertices, edges, and faces are contained in each of the polyhedra? vertices of each polygon polygons meeting at a vertex faces of the polyhedron.

How many vertices, edges, and faces are contained in each of the polyhedra? vertices of each polygon polygons meeting at a vertex faces of the polyhedron.
6-3B Regular Polyhedrons

6-3B Regular Polyhedrons
3-Dimentional Figures Section 11.1.

3-Dimentional Figures Section 11.1.

Similar presentations

Ads by Google