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TABLE OF CONTENTS

  • Polyhedra Are Cool!
  • A Guide to Origami Folding Symbols
  • Part 1: Simple Wireframe Objects
    • How to Make Basic Wireframe Units:
            Basic Cube(12 units)
            Chained Cubes(48 units)
            A Double Cube(20 units)
            An L-Shaped Structure(28 units)
            Two-Story Building with Roof(25 units)
            A Canoe(22 units)
            A Snub Cube(60 units)
            A Rhombicuboctahedron(48 units)
            The UFO(32 units)
    • How to Make Articulated Wireframe Units:
            Mosaic Cube(12 units)
            A Regular Icosahedron(30 units)
            Cuboctahedron(24 units)
            Rhombicuboctahedron(48 units)
  • Part 2: Stellated (Star-Shaped) Polyhedra
    • How to Make Stellated (Star-Shaped) Polyhedra
    • How to Make Basic Rose Units A and B:
            Stellated Tetrahedron(6 units)
            Stellated Octahedron(12 units)
            Stellated Cubes(12 units, 36 units)
            Stellated Icosahedron(30 units)
    • How to Assemble the Stellated Icosahedron:
            Stellated Dodecahedron(30 units)
            Stellated Icosidodecahedron(60 units)
            Stellated Cuboctahedron(24 units)
            Stellated Cuboctahedra 1 and 2(48 units)
            Stellated
            Stellated Truncated Dodecahedron(90 units)
    • How to Make Sharp Rose Units A and B:
            Stellated Icoasahedron(30 units)
            Stellated Truncated Tetrahedron(18 units)
            Stellated Truncated Tetrahedron(42 units)
    • How to Make Silver Star Units:
            Stellated Icosahedron(30 units)
            Simple Ball(3-7 units)
            Football(6-14 units)
    • Simple Ball from Rose and Sharp Rose Units(3-7 units)
    • Football from Rose and Sharp Rose Units(6-14 units)
  • Part 3: Constructing 3D Forms with Basic Modules
    • How to Make Basic Modules
    • Basic-Module Octahedron
    • How to Make Thick Diagonal Joints
    • How to Make Vertical Joints(type 1)
    • How to Make Thin Diagonal Joints(types 1, 2 and 3)
    • How to Make Vertex Joints
    • How to Make Vertical Joints(type 2)
  • Part 4: Origami Nesting Boxes
    • Traditional Masu Box
    • Masu Box Lid
    • Cubical Base
    • Loose Cube Base
    • Diagonal-Cut Box
    • Self-Covering Box
    • Tall Box
    • Triangular Prism Box
    • Paper Dimensions to Use for Filling a Cube Container(part 1)
    • Five-Sided Box
    • Packing Five-Sided Boxes Inside a Cube
    • How to Make Equilateral Triangle Units
    • Packing a Stellated Octahedron Inside a Cube
    • Equilateral Triangle Units: Stellated Objects (2, 4 and 10 Units)
    • Bottomless Regular Tetrahedron (from 1 Square)
    • Regular Octahedron (from 1 Square)
    • Slanting 3-Sided Pyramid Box
    • Half-Tetrahedron Box
    • Paper Dimensions to Use for Filling a Cube Container(part 2)
    • Cube with Flip-up Lid (from 1 rectangle)
    • Regular Octahedron(from 1 rectangle)
    • Regular Tetrahedron(from 1 rectangle)
    • Paper Dimensions to Use for Filling a Cube Container(part 3)
  • Part 5: Rhombic Polyhedra
    • Dodecahedron Version 1(12 Units)
    • Dodecahedron Version 2(12 Units)
    • Triacontahedron(30 Units)
    • Dodecahedron Version 3(12 Units)
    • Dodecahedron Version 4(12 Units)

Title: The Complete Book of Origami Polyhedra: 64 Ingenious Geometric Paper Models
Author: Tomoko Fuse
Format/Publication Date: TPB:2011(Nihon Vogue, Jpn);2021
Publisher: Tuttle Publishing, Rutland, VT
Page Count: 96
Book Dimensions(ht. x w.): 11" x 8 1/2"
ISBN: 9784805315941

SUMMARY- This is the English edition of the Nihon Vogue-sha "Minna de tanoshimu tamentai origami(Polyhedral Origami to Enjoy with the Will of the People)". Hopefully, the Table of Contents will tell you what you want to know about this book - there's a whole lot to unpack here. I bought this one for the boxes, but there is a whole lot more here. If you enjoy manipulating geometric shapes for fun, this book was tailor-made for you.