Wave Propagation
eBook - PDF

Wave Propagation

Theories and Applications

  1. 394 pages
  2. English
  3. PDF
  4. Available on iOS & Android
eBook - PDF

Wave Propagation

Theories and Applications

About this book

A wave is one of the basic physics phenomena observed by mankind since ancient time. The wave is also one of the most-studied physics phenomena that can be well described by mathematics. The study may be the best illustration of what is and ldquo;science and rdquo;, which approximates the laws of nature by using human defined symbols, operators, and languages. Having a good understanding of waves and wave propagation can help us to improve the quality of life and provide a pathway for future explorations of the nature and universe. This book introduces some exciting applications and theories to those who have general interests in waves and wave propagations, and provides insights and references to those who are specialized in the areas presented in the book.

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Yes, you can access Wave Propagation by Yi Zheng in PDF and/or ePUB format, as well as other popular books in Technology & Engineering & Acoustical Engineering. We have over one million books available in our catalogue for you to explore.

Table of contents

  1. Wave Propagation Theories and Applications
  2. Contents
  3. Preface
  4. Chapter 1 Shear Wave Propagation in Soft Tissue and Ultrasound Vibrometry
  5. Chapter 2 Acoustic Wave Propagation in a Pulsed Electro Acoustic Cell
  6. Chapter 3 Tsunami Wave Propagation
  7. Chapter 4 Electromagnetic Waves and Their Application to Charged Particle Acceleration
  8. Chapter 5 Radio Wave Propagation Phenomena from GPS Occultation Data Analysis
  9. Chapter 6 RadioWave Propagation Through Vegetation
  10. Chapter 7 Optical Wave Propagation in Kerr Media
  11. Chapter 8 Analyzing Wave Propagation in Helical Waveguides Using Laplace, Fourier, and Their Inverse Transforms, and Applications
  12. Chapter 9 Transient Responses on Traveling-Wave Loop Directional Filters
  13. Chapter 10 Ray Launching Modeling in Curved Tunnels with Rectangular or Non Rectangular Section
  14. Chapter 11 Electromagnetic Wave Propagation Modeling for Finding Antenna Specifications and Positions in Tunnels of Arbitrary Cross-Section
  15. Chapter 12 Efficient CAD Tool for Noise Modeling of RF/Microwave Field Effect Transistors
  16. Chapter 13 A Numerical Model Based on Navier-Stokes Equations to Simulate Water Wave Propagation with Wave-Structure Interaction
  17. Chapter 14 Wave Iterative Method for Electromagnetic Simulation
  18. Chapter 15 Wavelet Based Simulation of Elastic Wave Propagation