✍ Scribed by Teruo Matsushita
No coin nor oath required. For personal study only.
This book leads students to learn electromagnetism and then moves to chapters about electric circuits. It aims to give an understanding of electromagnetism which gives a fast way to master the features of circuit elements such as resistors, capacitors, and coils that compose electric circuits. The author provides chapters on electromagnetism and electric circuits separately and gives a chapter explaining the correlation between them in detail.
In the chapters for electric circuit, DC electric circuits, transient and steady response of AC electric circuits are treated. AC circuit theory is introduced for describing the phenomena in circuits. Theoretical treatments such as branch current method, closed current method, and node potential method are also introduced to show the validity of solution methods that have been used in the book.
The book can serve as a compact textbook for lectures, as an introduction for hardware system and electric control systems, and mechanical systems. Chapters for electromagnetism or ones for electric circuits are suitable for a lecture over a semester.
Preface
Contents
1 Electric Phenomena in Vacuum
1.1 Electric Charge in Vacuum
1.2 Coulomb’s Law
1.3 Electric Field
1.4 Electric Potential
1.5 Gauss’s Law
2 Conductors and Dielectric Materials
2.1 Conductors
2.2 Image Method
2.3 Capacitor and Capacitance
2.4 Dielectric Materials
2.5 Electrostatic Energy
3 Steady Current
3.1 Current
3.2 Ohm’s Law
3.3 Electromotive Force
3.4 Joule Loss
4 Current and Magnetic Phenomena
4.1 Magnetic Phenomena Due to Current
4.2 The Biot-Savart Law
4.3 Forces on Currents
4.4 Ampere’s Law
5 Superconductors and Magnetic Materials
5.1 Superconductors
5.2 Image Method
5.3 Coil and Inductance
5.4 Magnetic Materials
Reference
6 Time-Dependent Electromagnetic Phenomena
6.1 Electromagnetic Induction
6.2 Magnetic Energy
6.3 Displacement Current
6.4 Maxwell’s Equations
6.5 Skin Effect
6.6 Electromagnetic Waves
7 Direct Current Circuit
7.1 Resistance and Ohm’s Law
7.2 Electric Power Source
7.2.1 Direct Voltage Source
7.2.2 Direct Current Source
7.3 Resistor Circuit
7.4 Electric Power in Resistor
8 Transient and Steady Responses of Electric Circuits
8.1 Each Circuit Element
8.1.1 Resistor
8.1.2 Capacitor
8.1.3 Coil
8.1.4 Voltage Source
8.1.5 Current Source
8.2 Electric Power and Energy in Circuit Elements
8.2.1 Resistor
8.2.2 Capacitor
8.2.3 Coil
8.3 LRC Circuit
8.3.1 Transient Response
8.3.2 Steady Response
9 Alternating Current Circuit
9.1 Sinusoidal Variation with Time
9.2 Alternating Current Circuit Theory
9.3 Impedance
9.3.1 Resistor
9.3.2 Capacitor
9.3.3 Coil
9.4 Series Connection and Parallel Connection
9.5 Alternating Current Circuit
9.6 Frequency Response
9.7 Filter
9.8 Alternating Current Power
10 Transformer Circuit
10.1 Transformer
10.2 Transformer Circuit
11 Theorems for Electric Circuits
11.1 Kirchhoff’s Law
11.2 Circuit Equation
11.2.1 Branch Current Method
11.2.2 Closed Current Method
11.2.3 Node Potential Method
11.3 Extension to AC Circuit
11.4 Principle of Superposition
11.5 Thévenin’s Theorem
Reference
Appendix
A.1 Vector Analysis
A.1.1 Differentiation
A.1.2 Formulae for Cylindrical and Polar Coordinates
A.1.3 Integral
A.2 Differential Forms of Laws on Electromagnetism
A.2.1 Electrostatic Field
A.2.2 Steady Current
A.2.3 Static Magnetic Field
A.2.4 Time-Dependent Electromagnetic Fields
Answers to Exercises
Index
📜 SIMILAR VOLUMES
Since its original publication in 1962, Lorrain and Corson's text has offered physics and engineering students a formula for developing a working knowledge of the basic principles of electromagnetism. The formula is practice.
<p><P><EM>Inverse Problems in Electric Circuits and Electromagnetics</EM> discusses methods of solution of so-called inverse problems that are often encountered in electrical engineering, electronics and electrophysics. The objective of inverse problems’ solution is to assure that the manufacturing
<P>This is the first book to offer a comprehensive exploration of new methods in inverse problems in electromagnetics. The book provides systematic descriptions of the most important practical inverse problems, and details new methods to solve them. Also included are descriptions of the properties o
Since its original publication in 1962, Lorrain and Corson's text has offered physics and engineering students a formula for developing a working knowledge of the basic principles of electromagnetism. The formula is practice.
<P>This will be the first book on the topic of new methods in inverse problems in electromagnetics. The inverse problems such as optimization, synthesis, diagnostics, and identification are becoming one of the most important subjects in the field because of the significant practical applications to
<P>This will be the first book on the topic of new methods in inverse problems in electromagnetics. The inverse problems such as optimization, synthesis, diagnostics, and identification are becoming one of the most important subjects in the field because of the significant practical applications to