1. A Brief Overview of the Evolution of the Scientific Theory of Gearing Part I: Fundamentals 2. Kinematics of a Gear Pair 3. Principal Planes and Principal Reference Systems Associated with a Gear Pair 4. Conditions for Transmitting a Uniform Rotation Smoothly from a Driving Shaft to a Driven Shaft: Three Fundamental Laws of Gearing 5. Permissible Variation of Design Parameters of Pulley-and-Belt Analogy of Parallel-Axes Gearing Part II: Perfect Gearing Section II-A: Perfect Gearing: Parallel-Axes Gearing 6. Involute Gearing: Kinematics and Geometry 7. A Simplified Approach for Involute Gear Tooth Flank Generation 8.

Interaction of Tooth Flanks in Parallel-Axes Involute Gearing 9. Internal Involute Gearing 10. High-Conformal Parallel-Axes Gearing 11. Noninvolute Gearing Section II-B: Perfect Gearing: Intersected-Axes Gearing 12. Perfect Intersected-Axes Gear Pairs 13. Interaction of Tooth Flanks in Perfect Intersected-Axes Gearing Section II-C: Perfect Gearing: Crossed-Axes Gearing 14. Perfect Crossed-Axes Gear Pairs: R-Gearing 15. Interaction of Tooth Flanks in Perfect Crossed-Axes Gearing 16.

Peculiarities of Perfect Worm Gearing Part III: Perfect Gearing with Point Contact between Tooth Flanks of a Gear and a Mating Pinion 17. Kinematics, Geometry, and Design Features of Perfect Gearing with Point Contact between Tooth Flanks of a Gear and a Mating Pinion Part IV: Real Gears and Their Application: Perfect Real Gearing 18. Perfect Real Gearing: Spr-Gear System Part V: CΣu-Variable Gearing 19. A Novel Concept to Design Perfect Noncircular Gears Part VI: Synthesis of Favorable Perfect Gear Pairs 20. Features of Contact Geometry Part VII: Real Gears and Their Application 21. Generic Gear Shapes 22. Approximate Real Gearing 23. Local Geometry of Interacting Tooth Flanks of a Gear and a Mating Pinion 24.

Strength of Gear Teeth 25. Gear Tooth Profile Modification: Generating Rack Shift 26. Split Torque Transmission Systems 27. Vector Approach for Kinematic and Dynamic Analysis of Complex Gear Systems 28. Gear Ratio of a Multistage Gear Drive 29. Accuracy of Gear Teeth 30. Gear Noise and Vibration 31. Design Peculiarities of Perfect and Almost Perfect Gears Appendix A: Elements of Vector Calculus Appendix B: Elements of Differential Geometry of Surfaces Appendix C: Change of Surface Parameters Appendix D: Applied Coordinate Systems and Linear Transformations Appendix E: Contact Geometry of Gear and Mating Pinion Tooth Flanks Appendix F: Closest Distance of Approach between Gear and Mating Pinion Tooth Flanks Appendix G: Engineering Formulae for the Specification of Gear Tooth Flanks Appendix H: On the Inadequacy of the Terms Wildhaber-Novikov Gearing and W-N Gearing Conclusion Glossary References Bibliography.