Fuller / Hammond | Worked Examples in Engineering Field Theory | E-Book | sack.de
E-Book

E-Book, Englisch, 332 Seiten, Web PDF

Fuller / Hammond Worked Examples in Engineering Field Theory

Applied Electricity and Electronics Division
1. Auflage 2016
ISBN: 978-1-4831-3788-9
Verlag: Elsevier Science & Techn.
Format: PDF
 Kopierschutz: 1 - PDF Watermark

Applied Electricity and Electronics Division

E-Book, Englisch, 332 Seiten, Web PDF

ISBN: 978-1-4831-3788-9
Verlag: Elsevier Science & Techn.
Format: PDF
 Kopierschutz: 1 - PDF Watermark

Worked Examples in Engineering Field Theory is a product of a lecture course given by the author to first-year students in the Department of Engineering in the University of Leicester. The book presents a summary of field theory together with a large number of worked examples and solutions to all problems given in the author's other book, Engineering Field Theory. The 14 chapters of this book are organized into two parts. Part I focuses on the concept of flux including electric flux. This part also tackles the application of the theory in gravitation, ideal fluid flow, and magnetism. Part II deals with the concept of potential including electrical potential, as well as the applications of the theory to gravitation, electric conduction, fluid flow through permeable media, conductive heat transfer, ideal fluid flow, and magnetism. This material will be useful to students who have difficulty with the problems presented in the author's other book, or who need further worked examples and more problems to solve.

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Autoren/Hrsg.

Fuller, A. J. Baden
Hammond, P.

Weitere Infos & Material

1;Front Cover;1
2;Worked Examples in Engineering Field Theory;4
3;Copyright Page;5
4;Table of Contents;6
5;Preface;8
6;Introduction;10
7;PART I. Flux;12
7.1;CHAPTER 1. Flux;14
7.1.1;THEORY;14
7.1.2;PROBLEMS;20
7.1.3;SOLUTIONS;21
7.2;CHAPTER 2. Electric Flux;23
7.2.1;THEORY;23
7.2.2;EXAMPLES;26
7.2.3;PROBLEMS;35
7.2.4;SOLUTIONS;37
7.2.5;FURTHER PROBLEMS;43
7.2.6;FURTHER SOLUTIONS;45
7.3;CHAPTER 3. Flux Function;47
7.3.1;THEORY;47
7.3.2;EXAMPLES;51
7.3.3;PROBLEMS;58
7.3.4;SOLUTIONS;60
7.3.5;FURTHER PROBLEMS;67
7.3.6;FURTHER SOLUTIONS;69
7.4;CHAPTER 4. Electrical Materials;74
7.4.1;THEORY;74
7.4.2;EXAMPLES;76
7.4.3;PROBLEMS;82
7.4.4;SOLUTIONS;83
7.4.5;FURTHER PROBLEMS;86
7.4.6;FURTHER SOLUTIONS;87
7.5;CHAPTER 5. Gravitational Flux;89
7.5.1;THEORY;89
7.5.2;EXAMPLES;91
7.5.3;PROBLEMS;98
7.5.4;SOLUTIONS;99
7.5.5;FURTHER PROBLEMS;102
7.5.6;FURTHER SOLUTIONS;103
7.6;CHAPTER 6. Fluid Flow Field;106
7.6.1;THEORY;106
7.6.2;EXAMPLES;108
7.6.3;PROBLEMS;118
7.6.4;SOLUTIONS;119
7.6.5;FURTHER PROBLEMS;121
7.6.6;FURTHER SOLUTIONS;123
7.7;CHAPTER 7. Magnetic Flux;128
7.7.1;THEORY;128
7.7.2;EXAMPLES;131
7.7.3;PROBLEMS;139
7.7.4;SOLUTIONS;141
7.7.5;FURTHER PROBLEMS;144
7.7.6;FURTHER SOLUTIONS;147
7.8;PART II. Potential;150
7.8.1;CHAPTER 8. Electric Potential;152
7.8.1.1;THEORY;152
7.8.1.2;EXAMPLES;153
7.8.1.3;PROBLEMS;163
7.8.1.4;SOLUTIONS;165
7.8.1.5;FURTHER PROBLEMS;170
7.8.1.6;FURTHER SOLUTIONS;173
7.9;CHAPTER 9. Potential Function;178
7.9.1;THEORY;178
7.9.2;EXAMPLES;179
7.9.3;PROBLEMS;193
7.9.4;SOLUTIONS;195
7.9.5;FURTHER PROBLEMS;199
7.9.6;FURTHER SOLUTIONS;201
7.10;CHAPTER 10. Other Fields;205
7.10.1;GRAVITATIONAL POTENTIAL;205
7.10.2;ELECTRIC CONDUCTION;206
7.10.3;EXAMPLES;207
7.10.4;FLUID FLOW THROUGH PERMEABLE MEDIA;210
7.10.5;PROBLEMS ON GRAVITATION;215
7.10.6;PROBLEMS ON ELECTRICAL CONDUCTION;216
7.10.7;PROBLEMS ON FLUID FLOW THROUGH PERMEABLE MEDIA;216
7.10.8;SOLUTIONS;217
7.10.9;FURTHER PROBLEMS ON GRAVITATION;221
7.10.10;FURTHER PROBLEMS ON ELECTRICAL CONDUCTION;222
7.10.11;FURTHER PROBLEMS ON FLUID FLOW THROUGH PERMEABLE MEDIA;222
7.10.12;FURTHER SOLUTIONS;223
7.11;CHAPTER 11. Conductive Heat Transfer;225
7.11.1;THEORY;225
7.11.2;EXAMPLES;226
7.11.3;PROBLEMS;235
7.11.4;SOLUTIONS;237
7.11.5;FURTHER PROBLEMS;243
7.11.6;FURTHER SOLUTIONS;245
7.12;CHAPTER 12. Potential Fluid Flow;249
7.12.1;THEORY;249
7.12.2;EXAMPLES;259
7.12.3;SOLUTIONS;261
7.12.4;FURTHER PROBLEMS;265
7.12.5;FURTHER SOLUTIONS;267
7.13;CHAPTER 13. Magnetic Potential;270
7.13.1;THEORY;270
7.13.2;EXAMPLES;272
7.13.3;SOLUTIONS;285
7.13.4;FURTHER PROBLEMS;288
7.13.5;FURTHER SOLUTIONS;291
7.14;CHAPTER 14. Electromagnetic Induction;296
7.14.1;THEORY;296
7.14.2;EXAMPLES;298
7.14.3;PROBLEMS;307
7.14.4;SOLUTIONS;309
7.14.5;FURTHER PROBLEMS;313
7.14.6;FURTHER SOLUTIONS;315
8;APPENDIX 1: Physical Constants;320
9;APPENDIX 2: Field Theory: Comparative Summary of Relevant Formulae;321
10;APPENDIX 3: Notation;323
11;Index;326

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