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Viser: Electromagnetic Applications for Guided and Propagating Waves
Electromagnetic Applications for Guided and Propagating Waves Vital Source e-bog
Nemai Chandra Karmakar
(2025)
Electromagnetic Applications for Guided and Propagating Waves
Nemai Chandra Karmakar
(2025)
Sprog: Engelsk
om ca. 12 hverdage
Detaljer om varen
- 1. Udgave
- Vital Source E-book
- Udgiver: John Wiley & Sons (November 2025)
- ISBN: 9781394262830
Enables readers to grasp the fundamentals of applied electromagnetics through a blended pedagogical approach
Electromagnetic Applications for Guided and Propagating Waves comprehensively covers both fundamentals and advanced topics in applied electromagnetics (EM) for the professional, going above the basic static and dynamic EM field theories that are covered in most undergraduate EM textbooks. The textbook introduces complex topics with illustrations of modern technologies that use the topics, followed by a simple presentation of the basic vector analysis and Maxwell’s equations, supported by many practical examples, math essays, math puzzles, and the most modern technological developments from the websites of prominent technology companies.
The textbook includes review questions at the end of each topic to enhance the students’ learning experience and outcomes. It provides the links for multimedia lecture videos and directs students to relevant open sources such as YouTube videos and lecture materials from the prestigious universities of developed and developing nations. The textbook is supported by presentation slides, a solution and instructor’s manual, and MATLAB program downloads.
Written by prolific teacher Dr. Karmakar, Electromagnetic Applications for Guided and Propagating Waves discusses topics including:
- Fundamental theories of resonators, optical waveguides and fibers, antennas and antenna arrays, wireless systems, and electromagnetic compatibility
- Electrostatic field theory and detailed derivations of electromagnetic fundamentals such as electric charges and Coulomb’s law
- Applications of time-varying electromagnetic fields, covering transmission lines, impedance matching techniques, and waveguides
- How electromagnetics has impacted our day-to-day life and how we use it in our workplace and on social media
- Historical anecdotes and evolution of EM theory from its inception to Maxwell and Hertz
Electromagnetic Applications for Guided and Propagating Waves is an essential reference for researchers, professionals, and policy and decision makers in the fields of electromagnetics, electrical engineering, wireless communications, and defense.
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Detaljer om varen
- Hardback: 656 sider
- Udgiver: John Wiley & Sons, Limited (Oktober 2025)
- ISBN: 9781394262823
Enables readers to grasp the fundamentals of applied electromagnetics through a blended pedagogical approach
Electromagnetic Applications for Guided and Propagating Waves comprehensively covers both fundamentals and advanced topics in applied electromagnetics (EM) for the professional, going above the basic static and dynamic EM field theories that are covered in most undergraduate EM textbooks. The textbook introduces complex topics with illustrations of modern technologies that use the topics, followed by a simple presentation of the basic vector analysis and Maxwell's equations, supported by many practical examples, math essays, math puzzles, and the most modern technological developments from the websites of prominent technology companies.
The textbook includes review questions at the end of each topic to enhance the students' learning experience and outcomes. It provides the links for multimedia lecture videos and directs students to relevant open sources such as YouTube videos and lecture materials from the prestigious universities of developed and developing nations. The textbook is supported by presentation slides, a solution and instructor's manual, and MATLAB program downloads.
Written by prolific teacher Dr. Karmakar, Electromagnetic Applications for Guided and Propagating Waves discusses topics including:
- Fundamental theories of resonators, optical waveguides and fibers, antennas and antenna arrays, wireless systems, and electromagnetic compatibility
- Electrostatic field theory and detailed derivations of electromagnetic fundamentals such as electric charges and Coulomb's law
- Applications of time-varying electromagnetic fields, covering transmission lines, impedance matching techniques, and waveguides
- How electromagnetics has impacted our day-to-day life and how we use it in our workplace and on social media
- Historical anecdotes and evolution of EM theory from its inception to Maxwell and Hertz
Electromagnetic Applications for Guided and Propagating Waves is an essential reference for researchers, professionals, and policy and decision makers in the fields of electromagnetics, electrical engineering, wireless communications, and defense.
Chapter 1Introduction1
1.1Introduction4
1.2Emerging Technologies that Use Advance EM6
1.3Wireless Mobile Communication Systems12
1.3.1Wireless Transceiver13
1.3.2Wireless Channel via Uniform Plane Wave19
1.3.3Transmission Lines and Waveguides22
1.3.4Antenna25
1.3.5Antenna Array27
1.3.6EMI/EMC31
1.4Modern Pedagogy in Advanced Electromagnetics35
1.5Design Project: Wireless Energy Harvester37
1.6Conclusion40
1.7Questions41 References:42
Chapter 2Vector Analyses2
2.1Introduction4
2.2Vector Analysis6
2.2.1Scalar and Vector Quantities6
2.2.2Static EM Field8
2.2.3Dynamic EM Fields9
2.2.4Coordinate systems11
2.2.5General/Curvilinear Coordinate System12
2.2.6Rectangular coordinate system14
2.2.7Spherical coordinate system17
2.2.8Cylindrical coordinate system23
2.2.9Dot product of vector quantities29
2.2.10Cross product of two vectors.31
2.2.11Vector Integrations33
2.3Vector Operators: Gradient, Divergence, Curl37
2.3.1Gradient of a scalar37
2.3.2Divergence of a vector39
2.3.3Curl of a vector41
2.4Divergence Theorem44
2.5Stokes'' Theorem48
2.6Two Vector Null Identities50
2.6.1Remarks51
Chapter Summary52 Problems:54
Chapter 3:Electromagnetism2 Section I: Historical perspective of electromagnetism5
3.1Introduction to Electromagnetism5
3.1.1Maxwell''s six experiments7
3.2Historical perspective of electromagnetics Theory11
3.3Time-varying/Dynamic electromagnetics field.14
3.3.1Ohm''s law:16
3.3.2Maxwell''s equations in differential form18
3.4Discussion of Advanced Electromagnetic theory21
3.4.1The big picture23
3.4.2Uniform plane wave as wireless channel24
3.5Problems29
Chapter 4:Electrostatics2
4.1 Detailed Revision of Electromagnetic Fundamentals3
4.1.1 Electric Charges and Coulomb Law4
4.1.2 Application of Electric Charges7
4.2 Electric Field Intensity9
4.2.1 Concept of Electric Potential18
4.2.2 Calculation of potential20
4.2.3 Gradient and Equipotential Surface20
4.2.4 Electric Flux Density21
4.3 Gauss'' Law25
4.3.1 Divergence and point form of gauss law26 <
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