Electromagnetic Waves, Materials, and Computation with MATLAB
eBook - PDF

Electromagnetic Waves, Materials, and Computation with MATLAB

  1. 886 pages
  2. English
  3. PDF
  4. Available on iOS & Android
eBook - PDF

Electromagnetic Waves, Materials, and Computation with MATLAB

About this book

Readily available commercial software enables engineers and students to perform routine calculations and design without necessarily having a sufficient conceptual understanding of the anticipated solution. The software is so user-friendly that it usually produces a beautiful colored visualization of that solution, often camouflaging the fact that t

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Yes, you can access Electromagnetic Waves, Materials, and Computation with MATLAB by Dikshitulu K. Kalluri in PDF and/or ePUB format, as well as other popular books in Technology & Engineering & Electrical Engineering & Telecommunications. We have over one million books available in our catalogue for you to explore.

Table of contents

  1. Front Cover
  2. Contents
  3. Preface
  4. Acknowledgments
  5. Author
  6. Selected List of Symbols
  7. List of Book Sources
  8. Chapter 1 - Electromagnetics of Simple Media
  9. Chapter 2 - Electromagnetics of Simple Media:: One-Dimensional Solution
  10. Chapter 3 - Two-Dimensional Problems and Waveguides
  11. Chapter 4 - Three-Dimensional Solutions
  12. Chapter 5 - Spherical Waves and Applications
  13. Chapter 6 - Laplace Equation: Static and: Low-Frequency Approximations
  14. Chapter 7 - Miscellaneous Topics on Waves
  15. Chapter 8 - Electromagnetic Modeling of Complex Materials
  16. Chapter 9 - Artificial Electromagnetic Materials
  17. Chapter 10 - Waves in Isotropic Cold Plasma: Dispersive Medium
  18. Chapter 11 - Spatial Dispersion and Warm Plasma
  19. Chapter 12 - Wave in Anisotropic Media and Magnetoplasma
  20. Chapter 13 - Optical Waves in Anisotropic Crystals
  21. Chapter 14 - Electromagnetics of Moving Media
  22. Chapter 15 - Introduction and One-Dimensional Problems
  23. Chapter 16 - Two-Dimensional Problem
  24. Chapter 17 - Advanced Topics on Finite-Element Method
  25. Chapter 18 - Case Study Ridged Waveguide : with Many Elements
  26. Chapter 19 - Finite-Difference Time-Domain Method
  27. Chapter 20 - Finite-Difference Time-Domain Method Simulation of Electromagnetic Pulse Interaction with a Switched Plasma Slab
  28. Chapter 21 - Approximate Analytical Methods Based on Perturbation and Variational Techniques
  29. Appendix 1A: Vector Formulas and Coordinate Systems
  30. Appendix 1B: Retarded Potentials and Review of Potentials for the Static Cases
  31. Appendix 1C: Poynting Theorem
  32. Appendix 1D: Low-Frequency Approximation of Maxwell’s Equations R, L, C, and Memristor M
  33. Appendix 2A: AC Resistance of a Round Wire When the Skin Depth δ Is Comparable to the Radius a of the Wire
  34. Appendix 2B: Transmission Lines: Power Calculation
  35. Appendix 2C: Introduction to the Smith Chart
  36. Appendix 2D: Nonuniform Transmission lines
  37. Appendix 4A: Calculation of Losses in a Good Conductor at High Frequencies: Surface Resistance RS
  38. Appendix 6A: On Restricted Fourier Series Expansion
  39. Appendix 7A: Two- and Three-Dimensional Green’s Functions
  40. Appendix 9A: Experimental Simulation of a Warm-Plasma Medium
  41. Appendix 9B: Wave Propagation in Chiral Media
  42. Appendix 10A: Backscatter from a Plasma Plume due to Excitation of Surface Waves
  43. Appendix 10B: Classical Photon Theory of Electromagnetic Radiation
  44. Appendix 10C: Photon Acceleration in a Time-Varying Medium
  45. Appendix 11A: Thin Film Reflection Properties of a Warm Isotropic Plasma Slab between Two Half-Space Dielectric Media
  46. Appendix 11B: The First-Order Coupled Differential Equations for Waves in Inhomogeneous Warm Magnetoplasmas
  47. Appendix 11C: Waveguide Modes of a Warm Drifting Uniaxial Electron Plasma
  48. Appendix 12A: Faraday Rotation versus Natural Rotation
  49. Appendix 12B: Ferrites and Permeability Tensor
  50. Appendix 14A: Electromagnetic Wave Interaction with Moving Bounded Plasmas
  51. Appendix 14B: Radiation Pressure Due to Plane Electromagnetic Waves Obliquely Incident on Moving Media
  52. Appendix 14C: Reflection and Transmission of Electromagnetic Waves Obliquely Incident on a Relativistically Moving Uniaxial Plasma Slab
  53. Appendix 14D: Brewster Angle for a Plasma Medium Moving at a Relativistic Speed
  54. Appendix 14E: On Total Reflection of Electromagnetic Waves from Moving Plasmas
  55. Appendix 14F: Interaction of Electromagnetic Waves with Bounded Plasmas Moving Perpendicular to the Plane of Incidence
  56. Appendix 16A: MatLabÂŽ Programs
  57. Appendix 16B: Cotangent Formula
  58. Appendix 16C: Neumann Boundary Conditions: FEM Method
  59. Appendix 16D: Standard Area Integral
  60. Appendix 16E: Numerical Techniques in the Solution of Field Problems
  61. Appendix 17A: The Problem of Field Singularities
  62. Appendix 18A: Input Data
  63. Appendix 18B: Main Programs
  64. Appendix 18C: Function Programs
  65. Appendix 21A: Complex Poynting Theorem
  66. Problems
  67. Back Cover