Description

Book Synopsis
A Problem-Solving Workbook on Ionospheric and Space Physics

Enables students to understand and master basic and advanced concepts of space, atmosphere, and ionospheric physics

A Problem-Solving Workbook on Ionospheric and Space Physics is a unique textbook that contains a set of problems and exercises accompanied with complete solutions that explore and elucidate the most relevant concepts in ionospheric and space physics. The author has chosen problems that are interesting topic-wise, challenging, and that exemplify the physical and mathematical reasoning in ionospheric and space physics.

Specifically, the text conveys core concepts of ionospheric and space physics using a problem-based approach. Each problem elucidates prototypical aspects that readers can easily generalize. Each problem also consists of multi-part questions to facilitate step-by-step understanding. A short introduction to each problem defines the theme and provides context to the readers.



Table of Contents

Chapter 1. Chapman Theory of Ionospheric Layer Formation

Chapter 2. Magnetic Fields Resulting from the Equatorial Electrojet Current

Chapter 3. Phase and Group Velocities of Acoustic-Gravity Waves

Chapter 4. Wind Shear, Sporadic-E Layer, and Kelvin-Helmholtz Instability

Chapter 5. Brunt-Vaisala Frequency and Convective Instability

Chapter 6. Whistler Waves in the Ionosphere and Magnetosphere

Chapter 7. Radio Wave Absorption in the D-region Ionosphere

Chapter 8. The Sun is Down, the Equatorial Plasma Bubbles are Up

Chapter 9. Drunken Forest in Space: Why do the Bubbles Tilt?

Chapter 10. Linking Two Hemispheres: Geomagnetic Field Conjugacy

Chapter 11. Equatorial Plasma Bubbles Revisited diagnostic instruments and techniques

Chapter 12. Ionosonde: Sensing Ionospheric Plasmas from the Ground

Chapter 13. Fundamentals of GPS Total Electron Content (TEC) Measurements

Chapter 14. Barker Codes and Radar Pulse Compression

Chapter 15. Abel Inversion of Ionosonde Trace Data

Chapter 16. Direction-scan Radar and Deconvolution

Chapter 17. Bragg Scattering and Ionospheric Radars

Chapter 18. Witchcraft: Poor Man's Abel Inversion of Ionograms

Chapter 19. Fabry-Perot Interferometers and the Optical Airglow

Chapter 20. Don't Put out the Glow: What in Heaven is this \Rayleigh" Unit?

Chapter 21. Focus! Parabolic Ionospheric Layer Approximation

Chapter 22. Fast and Furious: Zonal Drift applying basic physics to space physics

Chapter 23. Seeing Ghost: Slab Thickness of a Transparent Layer

Chapter 24. Reflectometry: A Classical Mechanics Analogy

Chapter 25. Doppler Effects in Reaction/Refraction of Electromagnetic Waves

Chapter 26. Magnetic Mirrors and the Loss Cone

Chapter 27. Kolmogorov's 5/3 Law: An Order in Disorders

Chapter 28. Pushed to the Limit: True Resolution in Spectroscopy

Chapter 29. MIR Mortals: Rapid Depressurization in Space

Chapter 30. The Gradient-B Plasma Drift Demystified

Chapter 31. No Escape: Charged Particles in Magnetic Field

Chapter 32. EXB Drift for Explorers

A ProblemSolving Workbook on Ionospheric and

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    RRP £75.95 – you save £7.59 (9%)

    Order before 4pm today for delivery by Tue 16 Jun 2026.

    A Paperback / softback by Rezy Pradipta

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      View other formats and editions of A ProblemSolving Workbook on Ionospheric and by Rezy Pradipta

      Publisher: John Wiley & Sons Inc
      Publication Date: 09/01/2023
      ISBN13: 9781119628880, 978-1119628880
      ISBN10: 1119628881

      Description

      Book Synopsis
      A Problem-Solving Workbook on Ionospheric and Space Physics

      Enables students to understand and master basic and advanced concepts of space, atmosphere, and ionospheric physics

      A Problem-Solving Workbook on Ionospheric and Space Physics is a unique textbook that contains a set of problems and exercises accompanied with complete solutions that explore and elucidate the most relevant concepts in ionospheric and space physics. The author has chosen problems that are interesting topic-wise, challenging, and that exemplify the physical and mathematical reasoning in ionospheric and space physics.

      Specifically, the text conveys core concepts of ionospheric and space physics using a problem-based approach. Each problem elucidates prototypical aspects that readers can easily generalize. Each problem also consists of multi-part questions to facilitate step-by-step understanding. A short introduction to each problem defines the theme and provides context to the readers.



      Table of Contents

      Chapter 1. Chapman Theory of Ionospheric Layer Formation

      Chapter 2. Magnetic Fields Resulting from the Equatorial Electrojet Current

      Chapter 3. Phase and Group Velocities of Acoustic-Gravity Waves

      Chapter 4. Wind Shear, Sporadic-E Layer, and Kelvin-Helmholtz Instability

      Chapter 5. Brunt-Vaisala Frequency and Convective Instability

      Chapter 6. Whistler Waves in the Ionosphere and Magnetosphere

      Chapter 7. Radio Wave Absorption in the D-region Ionosphere

      Chapter 8. The Sun is Down, the Equatorial Plasma Bubbles are Up

      Chapter 9. Drunken Forest in Space: Why do the Bubbles Tilt?

      Chapter 10. Linking Two Hemispheres: Geomagnetic Field Conjugacy

      Chapter 11. Equatorial Plasma Bubbles Revisited diagnostic instruments and techniques

      Chapter 12. Ionosonde: Sensing Ionospheric Plasmas from the Ground

      Chapter 13. Fundamentals of GPS Total Electron Content (TEC) Measurements

      Chapter 14. Barker Codes and Radar Pulse Compression

      Chapter 15. Abel Inversion of Ionosonde Trace Data

      Chapter 16. Direction-scan Radar and Deconvolution

      Chapter 17. Bragg Scattering and Ionospheric Radars

      Chapter 18. Witchcraft: Poor Man's Abel Inversion of Ionograms

      Chapter 19. Fabry-Perot Interferometers and the Optical Airglow

      Chapter 20. Don't Put out the Glow: What in Heaven is this \Rayleigh" Unit?

      Chapter 21. Focus! Parabolic Ionospheric Layer Approximation

      Chapter 22. Fast and Furious: Zonal Drift applying basic physics to space physics

      Chapter 23. Seeing Ghost: Slab Thickness of a Transparent Layer

      Chapter 24. Reflectometry: A Classical Mechanics Analogy

      Chapter 25. Doppler Effects in Reaction/Refraction of Electromagnetic Waves

      Chapter 26. Magnetic Mirrors and the Loss Cone

      Chapter 27. Kolmogorov's 5/3 Law: An Order in Disorders

      Chapter 28. Pushed to the Limit: True Resolution in Spectroscopy

      Chapter 29. MIR Mortals: Rapid Depressurization in Space

      Chapter 30. The Gradient-B Plasma Drift Demystified

      Chapter 31. No Escape: Charged Particles in Magnetic Field

      Chapter 32. EXB Drift for Explorers

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