Ebook: Field Theory Concepts: Electromagnetic Fields Maxwell’s Equations grad, curl, div. etc. Finite-Element Method Finite-Difference Method Charge Simulation Method Monte Carlo Method
- Tags: Field Theory and Polynomials, Electrical Engineering
- Year: 1988
- Publisher: Springer-Verlag Berlin Heidelberg
- Edition: 1
- Language: English
- pdf
"Field Theory Concepts" is a new approach to the teaching and understanding of field theory. Exploiting formal analo- gies of electric, magnetic, and conduction fields and introducing generic concepts results in a transparently structured electomagnetic field theory. Highly illustrative terms alloweasyaccess to the concepts of curl and div which generally are conceptually demanding. Emphasis is placed on the static, quasistatic and dynamic nature of fields. Eventually, numerical field calculation algorithms, e.g. Finite Element method and Monte Carlo method, are presented in a concise yet illustrative manner.
"Field Theory Concepts" is a new approach to the teaching and understanding of field theory. Exploiting formal analo- gies of electric, magnetic, and conduction fields and introducing generic concepts results in a transparently structured electomagnetic field theory. Highly illustrative terms alloweasyaccess to the concepts of curl and div which generally are conceptually demanding. Emphasis is placed on the static, quasistatic and dynamic nature of fields. Eventually, numerical field calculation algorithms, e.g. Finite Element method and Monte Carlo method, are presented in a concise yet illustrative manner.
"Field Theory Concepts" is a new approach to the teaching and understanding of field theory. Exploiting formal analo- gies of electric, magnetic, and conduction fields and introducing generic concepts results in a transparently structured electomagnetic field theory. Highly illustrative terms alloweasyaccess to the concepts of curl and div which generally are conceptually demanding. Emphasis is placed on the static, quasistatic and dynamic nature of fields. Eventually, numerical field calculation algorithms, e.g. Finite Element method and Monte Carlo method, are presented in a concise yet illustrative manner.
Content:
Front Matter....Pages I-XVI
Fundamental Terms of Electric and Magnetic Fields....Pages 1-14
Types of Vector Fields....Pages 15-18
Field Theory Equations....Pages 19-59
Gradient, Potential, Potential Function....Pages 60-89
Potential and Potential Function of Magnetostatic Fields....Pages 90-102
Classification of Electric and Magnetic Fields....Pages 103-138
Transmission-Line Equations....Pages 139-149
Typical Differential Equations of Electrodynamics or Mathematical Physics....Pages 150-168
Numerical Calculation of Potential Fields....Pages 169-193
Back Matter....Pages 194-218
"Field Theory Concepts" is a new approach to the teaching and understanding of field theory. Exploiting formal analo- gies of electric, magnetic, and conduction fields and introducing generic concepts results in a transparently structured electomagnetic field theory. Highly illustrative terms alloweasyaccess to the concepts of curl and div which generally are conceptually demanding. Emphasis is placed on the static, quasistatic and dynamic nature of fields. Eventually, numerical field calculation algorithms, e.g. Finite Element method and Monte Carlo method, are presented in a concise yet illustrative manner.
Content:
Front Matter....Pages I-XVI
Fundamental Terms of Electric and Magnetic Fields....Pages 1-14
Types of Vector Fields....Pages 15-18
Field Theory Equations....Pages 19-59
Gradient, Potential, Potential Function....Pages 60-89
Potential and Potential Function of Magnetostatic Fields....Pages 90-102
Classification of Electric and Magnetic Fields....Pages 103-138
Transmission-Line Equations....Pages 139-149
Typical Differential Equations of Electrodynamics or Mathematical Physics....Pages 150-168
Numerical Calculation of Potential Fields....Pages 169-193
Back Matter....Pages 194-218
....
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