Foundations of electrical engineering. [Volume 3], Fields--Networks--Waves /

Foundations of Electrical Engineering: Fields-Networks-Waves describes the general principles of electrical engineering, with emphasis on fields, networks, and waves. The limitations of validity are defined and methods of calculation are outlined. Examples are used to illustrate the theory and micro...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Simonyi, K�aroly (Autor)
Otros Autores: Jones, D. (Traductor, Editor ), Sekey, Andrew (Traductor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: [Oxford] : Pergamon Press, 1963.
Temas:
Electrical engineering.
Electricity.
Electric power.
G�enie �electrique.
�Electricit�e.
electrical engineering.
electricity.
TECHNOLOGY & ENGINEERING > Mechanical.
Electric power
Electrical engineering
Electricity
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Foundations of Electrical Engineering: Field-Networks-Waves; Copyright Page ; Table of Contents; Foreword; PART I: GENERAL SURVEY; CHAPTER 1. GENERAL SURVEY; 1. Introduction; 2. The inductive approach to Maxwell's equations; 3. The complete set of Maxwell's equations; 4. Simplified forms of Maxwell's equations; 5. Maxwell's equations in more general form; 6. The behaviour of the electromagnetic field at surfaces separating materials with differing characteristics; 7. Energy conversion in the electromagnetic field; 8. The uniqueness of the solution of Maxwell's equations.
  • 9. Local action
  • action at a distance10. Systems of units; 11. The measurement of basic electromagnetic units; 12. The subdivisions of electrodynamic theory; 13. Summary of the basic concepts of vector algebra and vector analysis; 14. The inverse of certain vector operations; PART II: STATIC AND STEADY FIELDS; CHAPTER 2. STATIC AND STEADY FIELDS; SECTION A: THE DETERMINATION OF THE ELECTRIC FIELD FROM A GIVEN CHARGE DISTRIBUTION; 1. The determination of the field from a given space charge density; 2. Dipoles and multipoles.
  • 3. The calculation of the electric field due to surface charges and dipole sheets4. The geometric significance of the potential of a double layer; 5. The physical explanation of the sudden change in potential and field strength; 6. The replacement of space charge by a closed surface carrying surface charge and a double layer; 7. The practical significance of the results obtained above ; ; SECTION B: THE DETERMINATION OF SIMPLE THREE DIMENSIONAL FIELDS FROM GIVEN BOUNDARY CONDITIONS; 8. Problems of practical electrostatics.
  • 9. The basic concepts of vector analysis and Maxwell's equations expressed in orthogonal curvilinear coordinates10. The solution of Laplace's equation
  • some simple three dimensional problems; SECTION C: THE SOLUTION OF PLANE BOUNDARY VALUE PROBLEMS; 11. Solution by separation of the variables; 12. Solution in power series; 13. The elementary properties of functions of a complex variable. Conformal transformation; 14. The solution of a two dimensional problem by means of complex functions; 15. Examples of the use of functions of a complex variable.
  • 16. A fundamental theorem of conformal transformation theory17. The field due to electrodes of polygonal cross-section; 18. Examples of the use of the Schwarz-Christoffel transformation; SECTION D: CYLINDRICALLY SYMMETRICAL FIELDS; 19. The determination of the electrostatic field due to cylindrically symmetrical electrodes by the method of separation of the variables; 20. The solution of Bessel's equation. The properties of Bessel functions; 21. Examples of the determination of cylindrically symmetrical fields of force.

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