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Make: Geometry: Learn by coding, 3D printing and building

Make: Geometry: Learn by coding, 3D printing and building

Make: Geometry: Learn by coding, 3D printing and building
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Make: Geometry: Learn by coding, 3D printing and building

Make: Geometry: Learn by coding, 3D printing and building

Overview

Geometry, of all the branches of mathematics, is the one that is most easily visualized by making something. However, it is all too easy to reduce it to reams of formulas to memorize and proofs to replicate. This book aims to take geometry back to its practical roots with 3D printed models and puzzles as well as demonstrations with household objects like flashlights and paper towel tubes.

This is not a traditional geometry textbook, but rather builds up understanding of geometry concepts while also bringing in elements of concepts normally learned much later. Some of the models are counterintuitive, and figuring out how and why they work will both entertain and give insights. Two final chapters suggesting open-ended projects in astronomy and physics, and art and architecture, allow for deeper understanding and integration of the learning in the rest of the book.

Product Details

ISBN-13: 9781680456714
Publisher: Make Community, LLC
Publication date: 08/17/2021
Pages: 312
Product dimensions: 7.50(w) x 9.25(h) x (d)

Table of Contents

Preface x

Who this book is for x

What you'll need x

Teaching and Learning with this book xi

Alignment to Standards xii

Acknowledgements xii

About the authors xiii

Chapter 1 What Is Geometry 2

Euclid 3

Beyond Euclid 3

Think Like a Mathematician 4

Structure of this Book 4

Summary and Learning More 6

Chapter 2 Openscad and Math Modeling 8

The Models 9

Some Models Have Small Parts 9

3D Printing 10

Materials 12

Downloading the Models: Github 13

Openscad 14

Openscad Workflow 15

Navigating on the Screen 15

Commenting Out or Editing Parts of a Model 16

Creating Basic Shapes 17

Combining Basic Shapes 18

Coordinate Systems in Openscad 19

Programming Tips for Openscad 21

No True Variables 21

Openscad is Case Sensitive 23

If and Else 23

Vectors and Ranges 23

Loops 25

Functions 25

Openscad Variants 26

Tinkercad 26

Summary and Learning More 28

Chapter 3 Simulating Geometry 30

3D Printable Models Used In This Chapter 31

Preliminaries 32

Circles and PI 32

Angles and Degrees 33

Parallel and Perpendicular 33

Code Versus Math Conventions 34

Equal Sign 34

Defaults 34

Polygons and Polyhedrons 35

Regular Polygons 35

Polyhedrons 38

Platonic Solids 38

Platonic Solids Models 38

Euler's Characteristic 40

Translation 41

Openscad Order of Operations 41

Rotation and Mirroring 42

Translating or Rotating Multiple Objects 44

Mirroring 44

Scaling 45

Math Functions 46

Extrusion 46

Extruding Linearly 46

Extruding While Rotating 49

Convex Hull 49

Make a Castle 50

The Walls 51

The Tower 53

Making Four Walls 55

Fancier Castles 56

Tinkercad 58

Summary and Learning More 59

Chapter 4 Constructions 62

Constructions 63

3D Printable Models Used in This Chapter 63

How to Use a Compass 64

Bisecting an Angle 65

Perpendicular Bisector 66

Equilateral Triangle 69

Other Constructions to Try 69

Reuleaux Triangles 69

3D Printable Model 70

Rolling Reuleaux 71

Other Reuleaux Polygons 72

Summary and Learning More 73

Answers 73

Equilateral Triangle Construction 73

Chapter 5 The Triangle Bestiary 74

What Is a Triangle? 75

Angles of a Triangle 75

3D Printable Models Used in This Chapter 76

Prove Triangle Angles Add to 180 Degrees 77

How to Use a Protractor 78

Specifying Triangles 78

Congruent Triangles 78

The Triangle Family Tree 79

Making Triangles with Openscad 81

Drawing and Labeling Triangles 82

Similar Triangles 83

Area of a Triangle 85

Triangle Area Models 85

Right Triangle Model 87

Acute Triangle Model 88

Obtuse Triangle Model 89

Paper Version of Triangle Area Model 93

Why Triangles Make Things Strong 95

3D Printing Meshes 96

Viewing A 3D Print's Mesh 98

Summary and Learning More 99

Answers 100

Triangle-Type Table 100

Chapter 6 Pythagoras and a Little Trigonometry 102

3D Printable Models Used In This Chapter 103

Squares and Square Roots 104

Pythagorean Theorem 104

Pythagoras' Lego 104

Making a Spiral of Theodorus 105

A Little Trigonometry 108

Sine, Cosine, Tangent 108

Hypotenuse Model 109

Using a Triangle as an Angle Template 111

Complementary Angles 111

Other Ratios 111

Degrees, Radians, and PI 112

Finding the Length of a Side 113

Calculating with Sine and Cosine 113

Angles Not Between 0° and 90° 114

Angles Between 90° and 180° 115

Angles Between 180° and 270° 116

Angles Between 270° and 360° (Or -90° and 0°) 116

Arcsin, Arccos, Arctan 118

Summary and Learning More 119

Answers 120

Hypotenuse Model 120

Calculating with Sine and Cosine 120

Angles Greater Than 90° 120

Chapter 7 Circles 122

Area of a Circle 123

3D Printable Models Used in this Chapter 123

Inscribed and Circumscribed Polygons 124

Modifying the Models 125

Bracketing PI 127

Area of Inscribed Polygons 127

Area of Circumscribed Polygons 129

Leonardo's Puzzle 130

Measuring PI with String 132

Latitude and Longitude 133

Finding Your Latitude 134

Elevation of the Sun at Local Noon 137

Solar Declination 140

Solar Declination Example 141

Calculating Latitude 142

Arctic and Tropics 143

Finding Your Longitude 143

Historical Efforts to Find Longitude 144

Approximating Longitude and the Equation of Time 144

Longitude Calculation Example 145

Summary and Learning More 147

Answers 148

Arctic and Tropics 148

Chapter 8 Volume, Density, and Displacement 150

3D Printable Models Used in this Chapter 152

Volume 153

Volume of a Rectangular Solid 153

Volume of Prisms 154

Modifying the Models 156

Volume of a Cylinder 157

Volume of a Cone 157

Volume of a Sphere 158

Volume Special Ratios 158

Volume of Pyramids 161

Comparing Volumes 163

If You Don't Have a 3D Printer 163

Cavalieri's Puzzle 164

Density 165

Mass V. Weight 165

Measuring Density 166

Displacement 167

Measuring Volume with Displacement 168

The Questionable Crown-Maker 169

Finding Density from Displacement 170

Archimedes' Principle 171

Buoyancy Force 172

Buoyancy Experiment 173

Summary and Learning More 174

Chapter 9 Surface Area and Nets 176

Nets 177

3D Printable Models Used in This Chapter 177

3D Printing the Nets 178

Printing the Nets on Paper 179

3D Printing the Nets on Fabric 180

Checking Answers 180

Platonic Solids 181

Modifying the Model 181

Equilateral Triangle Faces 181

Square Faces 182

Pentagonal Faces 182

Checking Surface Area of Platonic Solids 184

Right Prisms 185

Modifying the Model 185

Pyramid 186

Cone 188

Cylinder 190

Sphere 191

Gluing or Printing a Net Onto Fabric 191

Gluing Nets onto Fabric 191

Fabric Printing Process 192

Pausing a 3D Print 193

Fabric to Use 194

Attaching Fabric to the Platform 194

Keeping a Wary Eye 195

Summary and Learning More 195

Answers 196

Cone 196

Cylinder 196

Chapter 10 Slicing and Sections 198

Slicing Prisms 199

Modifying the Model 199

3D Printable Models Used in This Chapter 199

Slicing Cubes 200

Rectangular (4-Sided) Cross-Section 201

Triangular (3-Sided) Cross-Section 201

Pentagonal (5-Sided) Cross-Section 202

Hexagonal (6-Sided) Cross-Section 203

Comparing Cases 203

Slicing Other Prisms 203

Slicing a Cylinder 205

Slicing a Sphere 206

Conic Sections 206

Slant Angle and Slant Height 207

Prelude: Flashlight Experiment 208

Modifying the Models 209

Circle Cross-Section 210

Ellipse Cross-Section 210

Parabola Cross-Section 211

Hyperbola Cross-Section 213

Conic Sections and Angles 216

Slices Intersecting the Vertex of a Cone 216

Summary and Where to Learn More 216

Chapter 11 Constructing Conics 218

Ellipses and Circles 219

3D Printable Models Used in This Chapter 219

Foci of an Ellipse and Internal Reflection 221

Whispering Galleries 222

Circumference and Area of an Ellipse 223

Orbits of Planets and Kepler's Laws 223

Parabola 225

Directrix and Generatrix 225

Drawing a Parabola 226

Parabolic Mirrors and Antennas 228

Kicking a Ball into the Air 229

Hyperbola 231

Constructing a Hyperbola 231

Hyperbola Applications 234

Tying the Curves Together 234

Summary and Learning More 236

Answers 236

Finding the Location of the Foci of an Ellipse 236

Chapter 12 Geometry, Space and Time 238

The Equation of Time 239

3D Printable Models Used in This Chapter 239

The Analemma 241

The Geometry of the Analemma 241

Measuring the Analemma 243

Analemmas on Other Planets 246

Paths in the Sky of Other Objects 247

Making a Sundial 247

Creating the Gnomon 247

Using Your Sundial 251

Clockwise 253

Other Sundial Designs 253

Summary and Learning More 253

Chapter 13 The Geometry Museum 254

Arches 255

3D Printable Models Used in this Chapter 256

Circular and Gothic Arches 257

Making the Model 258

Testing Your Arches 259

Paper (Or Cut-Out) Alternatives 261

Renovating the Castle 261

Gothic Tracery 264

Making the Model 265

The Trefoil 265

Printing Caveats 265

Trusses 266

Preparation 267

Tetrahedron 268

Cube 270

Combine Cube and Tetrahedron 272

The Gift Shop 273

The Tetrahedron and Cube Puzzle 273

Reuleaux and Constant-Width Shapes in 3D 274

Revolved Reuleaux Polygons 274

Reuleaux Tetrahedron 275

Meissner Tetrahedrons 276

Printing These Models 276

Bounding Box 277

Dual Polyhedrons 277

The Golden Ratio, PHI 279

The Golden Angle 280

Relation to Fibonacci Series 281

More Than 3D: Polytopes 281

Summary and Learning More 281

Answers 282

Gothic vs. Circular Arch 282

Appendix: Resources and Standards 284

Companion Resources 284

Other Sources 284

Index 288

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