First Encounter with Electromagnetism
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Description
Book Introduction
This book is an introductory text for engineering students learning electromagnetism for the first time. It contains a selection of essential content, from vector analysis, which is the foundation of electromagnetism, to electrostatic fields, static magnetic fields, uniform plane waves, and transmission lines.
We have tried to increase the learning effect by explaining the complex formula development process in detail and reviewing key concepts once more.
In addition, it includes various types of practice problems related to the theory, so that you can prepare for various qualification exams, including the electrician exam.
* This book was developed as a textbook for university lectures, so it does not provide answers to practice problems.
However, some answers can be downloaded from [Appendix/Example Source].
We have tried to increase the learning effect by explaining the complex formula development process in detail and reviewing key concepts once more.
In addition, it includes various types of practice problems related to the theory, so that you can prepare for various qualification exams, including the electrician exam.
* This book was developed as a textbook for university lectures, so it does not provide answers to practice problems.
However, some answers can be downloaded from [Appendix/Example Source].
- You can preview some of the book's contents.
Preview
index
CHAPTER 01 Vector Interpretation
SECTION 1.1 Vector Algebra
SECTION 1.2 Rectangular Coordinate System
SECTION 1.3 Unit Vectors
SECTION 1.4 Vector Multiplication
SECTION 1.5 Cylindrical Coordinate System
SECTION 1.6 Spherical Coordinate System
Practice problems
CHAPTER 02 Electric Field and Flux Density
SECTION 2.1 Coulomb's Law
SECTION 2.2 ELECTRIC FIELD STRENGTH
SECTION 2.3 Electric field due to continuous charge distribution
SECTION 2.4 Electric Lines of Force
SECTION 2.5 Electric flux density and Gauss's law
SECTION 2.6 Applications of Gauss's Law
SECTION 2.7 Divergence of Vectors
Practice problems
CHAPTER 03 Electric Potential and Electrostatic Energy
SECTION 3.1 Energy required to move charges
SECTION 3.2 Potential and Potential Difference
SECTION 3.3 Potential Factor
SECTION 3.4 Dislocation Gradient
SECTION 3.5 Electric Dipole
SECTION 3.6 Electrostatic Energy
Practice problems
CHAPTER 04 Conductors, Semiconductors, Dielectrics, and Capacitance
SECTION 4.1 CURRENT
SECTION 4.2 Conductors and Ohm's Law
SECTION 4.3 SEMICONDUCTORS
SECTION 4.4 Genome
SECTION 4.5 BOUNDARY CONDITIONS
SECTION 4.6 Capacitance
SECTION 4.7 Laplace's Equation
SECTION 4.8 IMAGE LAW
Practice problems
CHAPTER 05 Magnetometer
SECTION 5.1 Biot-Savart Law
SECTION 5.2 Ampere's Law of Rotation
SECTION 5.3 Rotation of Vectors and Stokes' Theorem
SECTION 5.4 Magnetic Flux and Flux Density
SECTION 5.5 Scalar and Vector Masturbation
Practice problems
CHAPTER 06 Magnetism, Magnetic Materials, and Inductance
SECTION 6.1 Magnetic Force
SECTION 6.2 Torque and Magnetic Dipole Moment
SECTION 6.3 Magnetization of Materials and Magnetic Materials
SECTION 6.4 BOUNDARY CONDITIONS
SECTION 6.5 Magnetic Circuits
SECTION 6.6 Magnetic Energy
SECTION 6.7 Inductance
Practice problems
CHAPTER 07 Time-Varying Electromagnetic Fields and Maxwell's Equations
SECTION 7.1 Faraday's Law
SECTION 7.2 Displacement Current
SECTION 7.3 Maxwell's equations for time-varying electromagnetic fields
Practice problems
CHAPTER 08 Uniform Plane Waves
SECTION 8.1 Phasor analysis of electromagnetic fields
SECTION 8.2 Wave phenomena in free space
SECTION 8.3 Wave phenomena in dielectrics
SECTION 8.4 Power Movement and Poynting Vector
SECTION 8.5 Wave phenomena in conductors
SECTION 8.6 Reflection and Transmission of Electromagnetic Waves
Practice problems
CHAPTER 09 TRANSMISSION LINES
SECTION 9.1 Equivalent circuit of a lossless transmission line
SECTION 9.2 Frequency-Domain Analysis of Lossless Transmission Lines
SECTION 9.3 Transmission line equations for lossy transmission lines
SECTION 9.4 Reflection coefficient and input impedance of lossless transmission lines
SECTION 9.5 Voltage and current at the input and output terminals of a lossless transmission line
SECTION 9.6 SHORT AND OPEN LINES IN TRANSMISSION LINES
SECTION 9.7 Standing Wave Ratio
Practice problems
SECTION 1.1 Vector Algebra
SECTION 1.2 Rectangular Coordinate System
SECTION 1.3 Unit Vectors
SECTION 1.4 Vector Multiplication
SECTION 1.5 Cylindrical Coordinate System
SECTION 1.6 Spherical Coordinate System
Practice problems
CHAPTER 02 Electric Field and Flux Density
SECTION 2.1 Coulomb's Law
SECTION 2.2 ELECTRIC FIELD STRENGTH
SECTION 2.3 Electric field due to continuous charge distribution
SECTION 2.4 Electric Lines of Force
SECTION 2.5 Electric flux density and Gauss's law
SECTION 2.6 Applications of Gauss's Law
SECTION 2.7 Divergence of Vectors
Practice problems
CHAPTER 03 Electric Potential and Electrostatic Energy
SECTION 3.1 Energy required to move charges
SECTION 3.2 Potential and Potential Difference
SECTION 3.3 Potential Factor
SECTION 3.4 Dislocation Gradient
SECTION 3.5 Electric Dipole
SECTION 3.6 Electrostatic Energy
Practice problems
CHAPTER 04 Conductors, Semiconductors, Dielectrics, and Capacitance
SECTION 4.1 CURRENT
SECTION 4.2 Conductors and Ohm's Law
SECTION 4.3 SEMICONDUCTORS
SECTION 4.4 Genome
SECTION 4.5 BOUNDARY CONDITIONS
SECTION 4.6 Capacitance
SECTION 4.7 Laplace's Equation
SECTION 4.8 IMAGE LAW
Practice problems
CHAPTER 05 Magnetometer
SECTION 5.1 Biot-Savart Law
SECTION 5.2 Ampere's Law of Rotation
SECTION 5.3 Rotation of Vectors and Stokes' Theorem
SECTION 5.4 Magnetic Flux and Flux Density
SECTION 5.5 Scalar and Vector Masturbation
Practice problems
CHAPTER 06 Magnetism, Magnetic Materials, and Inductance
SECTION 6.1 Magnetic Force
SECTION 6.2 Torque and Magnetic Dipole Moment
SECTION 6.3 Magnetization of Materials and Magnetic Materials
SECTION 6.4 BOUNDARY CONDITIONS
SECTION 6.5 Magnetic Circuits
SECTION 6.6 Magnetic Energy
SECTION 6.7 Inductance
Practice problems
CHAPTER 07 Time-Varying Electromagnetic Fields and Maxwell's Equations
SECTION 7.1 Faraday's Law
SECTION 7.2 Displacement Current
SECTION 7.3 Maxwell's equations for time-varying electromagnetic fields
Practice problems
CHAPTER 08 Uniform Plane Waves
SECTION 8.1 Phasor analysis of electromagnetic fields
SECTION 8.2 Wave phenomena in free space
SECTION 8.3 Wave phenomena in dielectrics
SECTION 8.4 Power Movement and Poynting Vector
SECTION 8.5 Wave phenomena in conductors
SECTION 8.6 Reflection and Transmission of Electromagnetic Waves
Practice problems
CHAPTER 09 TRANSMISSION LINES
SECTION 9.1 Equivalent circuit of a lossless transmission line
SECTION 9.2 Frequency-Domain Analysis of Lossless Transmission Lines
SECTION 9.3 Transmission line equations for lossy transmission lines
SECTION 9.4 Reflection coefficient and input impedance of lossless transmission lines
SECTION 9.5 Voltage and current at the input and output terminals of a lossless transmission line
SECTION 9.6 SHORT AND OPEN LINES IN TRANSMISSION LINES
SECTION 9.7 Standing Wave Ratio
Practice problems
Detailed image
GOODS SPECIFICS
- Date of issue: January 10, 2025
- Page count, weight, size: 432 pages | 870g | 188*257*17mm
- ISBN13: 9791173400179
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