- Complete text bound in hardcover or softcover
This seventh edition of Fitzgerald and Kingsley's Electric Machinery by Stephen Umans was developed recognizing the strength of this classic text since its first edition has been the emphasis on building an understanding of the fundamental physical principles underlying the performance of electric machines. Much has changed since the publication of the first edition, yet the basic physical principles remain the same, and this seventh edition is intended to retain the focus on these principles in the context of today's technology.
Chapter 1 - Magnetic Circuits and Magnetic Materials
Chapter 2 - Transformers
Chapter 3 - Electromechanical-Energy-Conversion Principles
Chapter 4 - Introduction to Rotating Machines
Chapter 5 - Synchronous Machines
Chapter 6 - Polyphase Induction Machines
Chapter 7 - DC Machines
Chapter 8 - Variable-Reluctance Machines and Stepping Motors
Chapter 9 - Single-and Two-Phase Motors
Chapter 10 - Speed and Torque Control
Appendix A - Three-Phase Circuits
Appendix B - Voltages, Magnetic Fields, and Inductances of Distributed AC Windings
Appendix C - The dq0 Transformation
Appendix D - Engineering Aspects of Practical Electric Machine Performance and Operation
Appendix E - Table of Constants and Conversion Factors for SI Units
Chapter 3 - Electromechanical-Energy-Conversion Principles
Chapter 4 - Introduction to Rotating Machines
Chapter 5 - Synchronous Machines
Chapter 6 - Polyphase Induction Machines
Chapter 7 - DC Machines
Chapter 8 - Variable-Reluctance Machines and Stepping Motors
Chapter 9 - Single-and Two-Phase Motors
Chapter 10 - Speed and Torque Control
Appendix A - Three-Phase Circuits
Appendix B - Voltages, Magnetic Fields, and Inductances of Distributed AC Windings
Appendix C - The dq0 Transformation
Appendix D - Engineering Aspects of Practical Electric Machine Performance and Operation
Appendix E - Table of Constants and Conversion Factors for SI Units
Chapter 5 - Synchronous Machines
Chapter 6 - Polyphase Induction Machines
Chapter 7 - DC Machines
Chapter 8 - Variable-Reluctance Machines and Stepping Motors
Chapter 9 - Single-and Two-Phase Motors
Chapter 10 - Speed and Torque Control
Appendix A - Three-Phase Circuits
Appendix B - Voltages, Magnetic Fields, and Inductances of Distributed AC Windings
Appendix C - The dq0 Transformation
Appendix D - Engineering Aspects of Practical Electric Machine Performance and Operation
Appendix E - Table of Constants and Conversion Factors for SI Units
Chapter 7 - DC Machines
Chapter 8 - Variable-Reluctance Machines and Stepping Motors
Chapter 9 - Single-and Two-Phase Motors
Chapter 10 - Speed and Torque Control
Appendix A - Three-Phase Circuits
Appendix B - Voltages, Magnetic Fields, and Inductances of Distributed AC Windings
Appendix C - The dq0 Transformation
Appendix D - Engineering Aspects of Practical Electric Machine Performance and Operation
Appendix E - Table of Constants and Conversion Factors for SI Units
Chapter 9 - Single-and Two-Phase Motors
Chapter 10 - Speed and Torque Control
Appendix A - Three-Phase Circuits
Appendix B - Voltages, Magnetic Fields, and Inductances of Distributed AC Windings
Appendix C - The dq0 Transformation
Appendix D - Engineering Aspects of Practical Electric Machine Performance and Operation
Appendix E - Table of Constants and Conversion Factors for SI Units
Appendix A - Three-Phase Circuits
Appendix B - Voltages, Magnetic Fields, and Inductances of Distributed AC Windings
Appendix C - The dq0 Transformation
Appendix D - Engineering Aspects of Practical Electric Machine Performance and Operation
Appendix E - Table of Constants and Conversion Factors for SI Units
Appendix C - The dq0 Transformation
Appendix D - Engineering Aspects of Practical Electric Machine Performance and Operation
Appendix E - Table of Constants and Conversion Factors for SI Units
Appendix E - Table of Constants and Conversion Factors for SI Units

Your text has great instructor tools, like presentation slides, instructor manuals, test banks and more. Follow the steps below to access your instructor resources or watch the step-by-step video.
- To get started, visit connect.mheducation.com to sign in. (If you do not have an account, request one from your McGraw Hill rep. To find your rep, visit Find Your Rep)
- Then, under "Find a Title," search by title, author, or subject
- Select your desired title, and create a course. (You do not have to create assignments, just a course instance)
- Go to your Connect course homepage
- In the top navigation, select library to access the title's instructor resources