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Hello, Login. Visit Our Stores. It offers students the most lucid and interesting presentation available of fundamental concepts and applications in electromagnetics. Revised and updated, this third edition adds a new chapter on modern topics covering microwaves, electromagnetic interference and compatibility, fiber optics, and more. Features DT Begins with vector analysis and applies it gradually throughout the text, avoiding the frequent interruptions that occur when mathematical background is interspersed sporadically throughout a text DT Incorporates many helpful pedagogical features including chapter introductions and summaries, boxed formulas, multiple-choice review questions, and thoroughly worked-out examples followed by practice exercises DT Treats mathematical theorems separately from physical concepts, making it easier for students to grasp the theorems DT Devotes an entire chapter to modern computer tools used in electromagnetics DT Motivates student learning with more than illustrative examples and over figures DT Provides a balanced presentation of time-varying fields and static fields, preparing students for employment in today's industrial and manufacturing sectors.

The basic objective of this highly successful text--to present the concepts of electromagnetics in a style that is clear and interesting to read--is more fully-realized in this Second Edition than ever before.

Thoroughly updated and revised, this two-semester approach to fundamental concepts and applications in electromagnetics begins with vector analysis--which is then applied throughout the text.

A balanced presentation of time-varying fields and static fields prepares students for employment in today's industrial and manufacturing sectors. Mathematical theorems are treated separately from physical concepts. Students, therefore, do not need to review any more mathematics than their level of proficiency requires. Sadiku is well-known for his excellent pedagogy, and this edition refines his approach even further.

Student-oriented pedagogy comprises: chapter introductions showing how the forthcoming material relates to the previous chapter, summaries, boxed formulas, and multiple choice review questions with answers allowing students to gage their comprehension.

Many new problems have been added throughout the text. Introduction 1. A Preview of the Book 1. Scalars and Vectors 1. Unit Vectors 1. Vector Addition and Subtraction 1. Position and Distance Vectors 1. Vector Multiplication 1. Introduction 2. Cartesian Coordinates x, y, z 2. Circular Cylindrical Coordinates p, o, z 2. Spherical Coordinates r, O, z 2. Introduction 3. Differential Length, Area, and Volume 3.

Line, Surface, and Volume Integrals 3. Del Operator 3. Gradient of a Scalar 3. Divergence of a Vector and Divergence Theorem 3. Curl of a Vector and Stokes's Theorem 3.

Laplacian of a Scalar 3. Introduction 4. Coulomb's Law and Field Intensity 4. Electric Fields due to Continuous Charge Distributions 4. Electric Flux Density 4. Gauss's Law--Maxwell's Equation 4. Applications of Gauss's Law 4. Electric Potential 4. Relationship between E and V--Maxwell's Equation 4.

An Electric Dipole and Flux Lines 4. Introduction 5. Properties of Materials 5. Convection and Conduction Currents 5. Conductors 5. Polarization in Dielectrics 5. Dielectric Constant and Strength 5. Linear, Isotropic, and Homogeneous Dielectrics 5. Continuity Equation and Relaxation Time 5. Introduction 6. Poisson's and Laplace's Equations 6. Uniqueness Theorem 6.

Resistance and Capacitance 6. Introduction 7. Biot-Savart's Law 7. Ampere's Circuit Law--Maxwell's Equation 7. Applications of Ampere's Law 7. Magnetic Flux Density--Maxwell's Equation 7. Magnetic Scalar and Vector Potentials 7. Introduction 8. Forces due to Magnetic Fields 8. Magnetic Torque and Moment 8. A Magnetic Dipole 8. Magnetization in Materials 8. Classification of Magnetic Materials 8. Magnetic Boundary Conditions 8. Inductors and Inductances 8. Magnetic Energy 8.

Magnetic Circuits 8. Introduction 9. Faraday's Law 9. Transformer and Motional EMFs 9. Displacement Current 9. Maxwell's Equations in Final Forms 9.

Time-Varying Potentials 9. Introduction Waves in General Wave Propagation in Lossy Dielectrics Plane Waves in Lossless Dielectrics Plane Waves in Free Space Plane Waves in Good Conductors Power and Poynting Vector Reflection of a Plane Wave at Normal Incidence Transmission Line Parameters Transmission Line Equations The Smith Chart Some Applications of Transmission Lines Transients on Transmission Lines Microstrip Transmission Lines Chapter 12 Waveguides Rectangular Waveguides Transverse Magnetic TM Modes Transverse Electric TE Modes Wave Propagation in the Guide Power Transmission and Attenuation Waveguide Current and Mode Excitation Waveguide Resonators Chapter 13 Antennas Hertzian Dipole Half-Wave Dipole Antenna Quarter-Wave Monopole Antenna

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