Electromagnetic fields for engineers:
Master the fundamentals of undergraduate electromagnetics with this concise and accessible textbook, linking theoretical principles to real-world engineering applications. Lightning, nuclear fusion, superconductors: over 80 real-world TechNote case studies throughout the book show how key electromag...
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Cambridge ; New York ; Port Melbourne ; New Delhi ; Singapore
Cambridge University Press
[2025]
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| Schlagworte: | |
| Zusammenfassung: | Master the fundamentals of undergraduate electromagnetics with this concise and accessible textbook, linking theoretical principles to real-world engineering applications. Lightning, nuclear fusion, superconductors: over 80 real-world TechNote case studies throughout the book show how key electromagnetic principles work in a wide variety of natural effects and man-made devices. Learn in confidence: over 170 annotated step-by-step examples, with illustrated field patterns, aid student visualization of key physical principles, and help them build a solid foundation for future study. Dive deeper: sidenotes provide detailed proofs and context without distracting from core learning, and carefully designed appendices provide additional mathematical assistance when needed. Make progress: over 375 end-of-chapter homework problems to assess and extend student understanding. Flexible instructor support: start your students off with statics, or dive straight into dynamics, with this versatile full-color textbook for a one-or two-semester course, supported by lecture slides, instructor solutions, Matlab animations, and PowerPoint and JPEG figures |
| Beschreibung: | 1. Electrostatics I; 2. Electrostatics II; 3. Current and Resistance; 4. Magnetostatics I; 5. Faraday's Law; 6. Magnetostatics II; 7. Maxwell's Equations; 8. Propagation of Waves; 9. Transmission Lines; 10. Waveguides; 11. Antennas; 12. Wrap Up; Appendix A. Scalars and Vectors; Appendix B. Coordinate Systems; Appendix C. Scalar and Vector Integration; Appendix D. Gradient, Divergence and Curl; Appendix E. Additional Vector Properties; Appendix F. Summary of Vector Identities; Appendix G. Integral Tables; Appendix H. Several Useful Taylor Expansions; Appendix I. Review of Complex Numbers; Appendix J. Hyperbolic Trigonometric Functions; Appendix K. Fundamental Constants and Physical Quantities; Appendix L. List of Symbols and Unit Conversions; Appendix M. Answers to Selected Problems; Appendix N. References |
| Beschreibung: | xxv, 690 Seiten Illustrationen, Diagramme |
| ISBN: | 9781009309448 |
Internformat
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| 500 | |a 1. Electrostatics I; 2. Electrostatics II; 3. Current and Resistance; 4. Magnetostatics I; 5. Faraday's Law; 6. Magnetostatics II; 7. Maxwell's Equations; 8. Propagation of Waves; 9. Transmission Lines; 10. Waveguides; 11. Antennas; 12. Wrap Up; Appendix A. Scalars and Vectors; Appendix B. Coordinate Systems; Appendix C. Scalar and Vector Integration; Appendix D. Gradient, Divergence and Curl; Appendix E. Additional Vector Properties; Appendix F. Summary of Vector Identities; Appendix G. Integral Tables; Appendix H. Several Useful Taylor Expansions; Appendix I. Review of Complex Numbers; Appendix J. Hyperbolic Trigonometric Functions; Appendix K. Fundamental Constants and Physical Quantities; Appendix L. List of Symbols and Unit Conversions; Appendix M. Answers to Selected Problems; Appendix N. References | ||
| 520 | |a Master the fundamentals of undergraduate electromagnetics with this concise and accessible textbook, linking theoretical principles to real-world engineering applications. Lightning, nuclear fusion, superconductors: over 80 real-world TechNote case studies throughout the book show how key electromagnetic principles work in a wide variety of natural effects and man-made devices. Learn in confidence: over 170 annotated step-by-step examples, with illustrated field patterns, aid student visualization of key physical principles, and help them build a solid foundation for future study. Dive deeper: sidenotes provide detailed proofs and context without distracting from core learning, and carefully designed appendices provide additional mathematical assistance when needed. Make progress: over 375 end-of-chapter homework problems to assess and extend student understanding. Flexible instructor support: start your students off with statics, or dive straight into dynamics, with this versatile full-color textbook for a one-or two-semester course, supported by lecture slides, instructor solutions, Matlab animations, and PowerPoint and JPEG figures | ||
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Datensatz im Suchindex
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| spelling | Elliott, Daniel S. 1953- Verfasser (DE-588)134878959X aut Electromagnetic fields for engineers Daniel S. Elliott (Purdue University, Indiana) Cambridge ; New York ; Port Melbourne ; New Delhi ; Singapore Cambridge University Press [2025] xxv, 690 Seiten Illustrationen, Diagramme txt rdacontent n rdamedia nc rdacarrier 1. Electrostatics I; 2. Electrostatics II; 3. Current and Resistance; 4. Magnetostatics I; 5. Faraday's Law; 6. Magnetostatics II; 7. Maxwell's Equations; 8. Propagation of Waves; 9. Transmission Lines; 10. Waveguides; 11. Antennas; 12. Wrap Up; Appendix A. Scalars and Vectors; Appendix B. Coordinate Systems; Appendix C. Scalar and Vector Integration; Appendix D. Gradient, Divergence and Curl; Appendix E. Additional Vector Properties; Appendix F. Summary of Vector Identities; Appendix G. Integral Tables; Appendix H. Several Useful Taylor Expansions; Appendix I. Review of Complex Numbers; Appendix J. Hyperbolic Trigonometric Functions; Appendix K. Fundamental Constants and Physical Quantities; Appendix L. List of Symbols and Unit Conversions; Appendix M. Answers to Selected Problems; Appendix N. References Master the fundamentals of undergraduate electromagnetics with this concise and accessible textbook, linking theoretical principles to real-world engineering applications. Lightning, nuclear fusion, superconductors: over 80 real-world TechNote case studies throughout the book show how key electromagnetic principles work in a wide variety of natural effects and man-made devices. Learn in confidence: over 170 annotated step-by-step examples, with illustrated field patterns, aid student visualization of key physical principles, and help them build a solid foundation for future study. Dive deeper: sidenotes provide detailed proofs and context without distracting from core learning, and carefully designed appendices provide additional mathematical assistance when needed. Make progress: over 375 end-of-chapter homework problems to assess and extend student understanding. Flexible instructor support: start your students off with statics, or dive straight into dynamics, with this versatile full-color textbook for a one-or two-semester course, supported by lecture slides, instructor solutions, Matlab animations, and PowerPoint and JPEG figures Elektromagnetismus (DE-588)4014306-5 gnd rswk-swf Elektromagnetismus (DE-588)4014306-5 s DE-604 Erscheint auch als Online-Ausgabe 978-1-009-30943-1 |
| spellingShingle | Elliott, Daniel S. 1953- Electromagnetic fields for engineers Elektromagnetismus (DE-588)4014306-5 gnd |
| subject_GND | (DE-588)4014306-5 |
| title | Electromagnetic fields for engineers |
| title_auth | Electromagnetic fields for engineers |
| title_exact_search | Electromagnetic fields for engineers |
| title_full | Electromagnetic fields for engineers Daniel S. Elliott (Purdue University, Indiana) |
| title_fullStr | Electromagnetic fields for engineers Daniel S. Elliott (Purdue University, Indiana) |
| title_full_unstemmed | Electromagnetic fields for engineers Daniel S. Elliott (Purdue University, Indiana) |
| title_short | Electromagnetic fields for engineers |
| title_sort | electromagnetic fields for engineers |
| topic | Elektromagnetismus (DE-588)4014306-5 gnd |
| topic_facet | Elektromagnetismus |
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