# Classical Geometry: Euclidean, Transformational, Inversive, and Projective

# Classical Geometry: Euclidean, Transformational, Inversive, and Projective

ISBN: 978-1-118-67919-7

Apr 2014

496 pages

In Stock

$103.00

## Description

**Features the classical themes of geometry with plentiful applications in mathematics, education, engineering, and science**

Accessible and reader-friendly, *Classical Geometry: Euclidean, Transformational, Inversive, and Projective *introduces readers to a valuable discipline that is crucial to understanding bothspatial relationships and logical reasoning. Focusing on the development of geometric intuitionwhile avoiding the axiomatic method, a problem solving approach is encouraged throughout.

The book is strategically divided into three sections: Part One focuses on Euclidean geometry, which provides the foundation for the rest of the material covered throughout; Part Two discusses Euclidean transformations of the plane, as well as groups and their use in studying transformations; and Part Three covers inversive and projective geometry as natural extensions of Euclidean geometry. In addition to featuring real-world applications throughout, *Classical Geometry: Euclidean, Transformational, Inversive, and Projective *includes:

- Multiple entertaining and elegant geometry problems at the end of each section for every level of study
- Fully worked examples with exercises to facilitate comprehension and retention
- Unique topical coverage, such as the theorems of Ceva and Menalaus and their applications
- An approach that prepares readers for the art of logical reasoning, modeling, and proofs

The book is an excellent textbook for courses in introductory geometry, elementary geometry, modern geometry, and history of mathematics at the undergraduate level for mathematics majors, as well as for engineering and secondary education majors. The book is also ideal for anyone who would like to learn the various applications of elementary geometry.

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Preface v

**PART I EUCLIDEAN GEOMETRY**

**1 Congruency 3**

1.1 Introduction 3

1.2 Congruent Figures 6

1.3 Parallel Lines 12

1.3.1 Angles in a Triangle 13

1.3.2 Thales' Theorem 14

1.3.3 Quadrilaterals 17

1.4 More About Congruency 21

1.5 Perpendiculars and Angle Bisectors 24

1.6 Construction Problems 28

1.6.1 The Method of Loci 31

1.7 Solutions to Selected Exercises 33

1.8 Problems 38

**2 Concurrency 41**

2.1 Perpendicular Bisectors 41

2.2 Angle Bisectors 43

2.3 Altitudes 46

2.4 Medians 48

2.5 Construction Problems 50

2.6 Solutions to the Exercises 54

2.7 Problems 56

**3 Similarity 59**

3.1 Similar Triangles 59

3.2 Parallel Lines and Similarity 60

3.3 Other Conditions Implying Similarity 64

3.4 Examples 67

3.5 Construction Problems 75

3.6 The Power of a Point 82

3.7 Solutions to the Exercises 87

3.8 Problems 90

**4 Theorems of Ceva and Menelaus 95**

4.1 Directed Distances, Directed Ratios 95

4.2 The Theorems 97

4.3 Applications of Ceva's Theorem 99

4.4 Applications of Menelaus' Theorem 103

4.5 Proofs of the Theorems 115

4.6 Extended Versions of the Theorems 125

4.6.1 Ceva's Theorem in the Extended Plane 127

4.6.2 Menelaus' Theorem in the Extended Plane 129

4.7 Problems 131

**5 Area 133**

5.1 Basic Properties 133

5.1.1 Areas of Polygons 134

5.1.2 Finding the Area of Polygons 138

5.1.3 Areas of Other Shapes 139

5.2 Applications of the Basic Properties 140

5.3 Other Formulae for the Area of a Triangle 147

5.4 Solutions to the Exercises 153

5.5 Problems 153

**6 Miscellaneous Topics 159**

6.1 The Three Problems of Antiquity 159

6.2 Constructing Segments of Specific Lengths 161

6.3 Construction of Regular Polygons 166

6.3.1 Construction of the Regular Pentagon 168

6.3.2 Construction of Other Regular Polygons 169

6.4 Miquel's Theorem 171

6.5 Morley's Theorem 178

6.6 The Nine-Point Circle 185

6.6.1 Special Cases 188

6.7 The Steiner-Lehmus Theorem 193

6.8 The Circle of Apollonius 197

6.9 Solutions to the Exercises 200

6.10 Problems 201

**PART II TRANSFORMATIONAL GEOMETRY**

**7 The Euclidean Transformations or Isometries 207**

7.1 Rotations, Reflections, and Translations 207

7.2 Mappings and Transformations 211

7.2.1 Isometries 213

7.3 Using Rotations, Reflections, and Translations 217

7.4 Problems 227

**8 The Algebra of Isometries 231**

8.1 Basic Algebraic Properties 231

8.2 Groups of Isometries 236

8.2.1 Direct and Opposite Isometries 237

8.3 The Product of Reflections 241

8.4 Problems 246

**9 The Product of Direct Isometries 253**

9.1 Angles 253

9.2 Fixed Points 255

9.3 The Product of Two Translations 256

9.4 The Product of a Translation and a Rotation 257

9.5 The Product of Two Rotations 260

9.6 Problems 263

**10 Symmetry and Groups 269**

10.1 More About Groups 269

10.1.1 Cyclic and Dihedral Groups 273

10.2 Leonardo's Theorem 277

10.3 Problems 281

**11 Homotheties 287**

11.1 The Pantograph 287

11.2 Some Basic Properties 288

11.2.1 Circles 291

11.3 Construction Problems 293

11.4 Using Homotheties in Proofs 298

11.5 Dilatation 302

11.6 Problems 304

**12 Tessellations 311**

12.1 Tilings 311

12.2 Monohedral Tilings 312

12.3 Tiling with Regular Polygons 317

12.4 Platonic and Archimedean Tilings 323

12.5 Problems 330

**PART III INVERSIVE AND PROJECTIVE GEOMETRIES**

**13 Introduction to Inversive Geometry 337**

13.1 Inversion in the Euclidean Plane 337

13.2 The Effect of Inversion on Euclidean Properties 343

13.3 Orthogonal Circles 351

13.4 Compass-Only Constructions 360

13.5 Problems 369

**14 Reciprocation and the Extended Plane 373**

14.1 Harmonic Conjugates 373

14.2 The Projective Plane and Reciprocation 383

14.3 Conjugate Points and Lines 393

14.4 Conics 399

14.5 Problems 406

**15 Cross Ratios 409**

15.1 Cross Ratios 409

15.2 Applications of Cross Ratios 420

15.3 Problems 429

**16 Introduction to Projective Geometry 433**

16.1 Straightedge Constructions 433

16.2 Perspectivities and Projectivities 443

16.3 Line Perspectivities and Line Projectivities 448

16.4 Projective Geometry and Fixed Points 448

16.5 Projecting a Line to Infinity 451

16.6 The Apollonian Definition of a Conic 455

16.7 Problems 461

**Bibliography 464**

**Index 469**

“The book is an extremely valuable compendium of elementary constructions of Euclidean geometry. The text, especially the proofs, is clearly structured and move forward in simple steps, and thus are at the one hand very suitable for a beginner in geometry and at the other hand exemplary for a teacher of geometry.” (*Zentralblatt MATH*, 1 October 2014)