Description

Book Synopsis
This unified introduction provides the tools and techniques needed to analyze plasmas and connects plasma phenomena to other fields of study. Combining mathematical rigor with qualitative explanations, and linking theory to practice with example problems, this is a perfect textbook for senior undergraduate and graduate students taking one-semester introductory courses.

Trade Review
'I have been teaching introductory plasma physics to senior undergraduates and beginning graduate students for many years, and I find the level of the presentation of material, the order that the topics are presented, and the overall length of the book to be an excellent match for my needs in a textbook.' David Hammer, Cornell University
'The authors have done an excellent job in introducing the vast scope of plasma physics for basic plasma physics courses. The schematic illustrations and flow charts used are especially helpful in understanding the complexities involved in the hierarchal nature of plasmas. Mathematics is kept at just the right level for the intended readers and the descriptions of the physical processes are clear. Although this book is targeted to advanced undergraduate or beginning graduate students, it will be a good addition to the personal library of every plasma physicist.' Gurudas Ganguli, Naval Research Laboratory
'This new book provides an excellent summary of the basic processes occurring in plasmas together with a comprehensive introduction to the mathematical formulation of fluid (MHD) and kinetic theory. It provides an excellent introduction to the subject suitable for senior undergraduate students or entry-level graduate students.' Richard M. Thorne, University of California, Los Angeles

Table of Contents
1. Introduction; 2. Single particle motion; 3. Kinetic theory of plasmas; 4. Moments of the Boltzmann equation; 5. Multiple fluid theory of plasmas; 6. Single fluid theory of plasmas: magnetohydrodynamics; 7. Collisions and plasma conductivity; 8. Plasma diffusion; 9. Introduction to waves in plasmas; 10. Waves in cold magnetized plasmas; 11. Effects of collisions, ions and finite temperature on waves in magnetized plasmas; 12. Waves in hot plasmas; 13. Plasma sheath and the Langmuir probe; Appendix A. Derivation of second moment of the Boltzmann equation; Appendix B. Useful vector identities.

principlesofplasmaphysicsforengineersandscientists

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A Hardback by Marek Golkowski, Marek Gołkowski

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    View other formats and editions of principlesofplasmaphysicsforengineersandscientists by Marek Golkowski

    Publisher: Cambridge University Press
    Publication Date: 12/2/2010 12:00:00 AM
    ISBN13: 9780521193726, 978-0521193726
    ISBN10: 0521193729
    Also in:
    Plasma physics

    Description

    Book Synopsis
    This unified introduction provides the tools and techniques needed to analyze plasmas and connects plasma phenomena to other fields of study. Combining mathematical rigor with qualitative explanations, and linking theory to practice with example problems, this is a perfect textbook for senior undergraduate and graduate students taking one-semester introductory courses.

    Trade Review
    'I have been teaching introductory plasma physics to senior undergraduates and beginning graduate students for many years, and I find the level of the presentation of material, the order that the topics are presented, and the overall length of the book to be an excellent match for my needs in a textbook.' David Hammer, Cornell University
    'The authors have done an excellent job in introducing the vast scope of plasma physics for basic plasma physics courses. The schematic illustrations and flow charts used are especially helpful in understanding the complexities involved in the hierarchal nature of plasmas. Mathematics is kept at just the right level for the intended readers and the descriptions of the physical processes are clear. Although this book is targeted to advanced undergraduate or beginning graduate students, it will be a good addition to the personal library of every plasma physicist.' Gurudas Ganguli, Naval Research Laboratory
    'This new book provides an excellent summary of the basic processes occurring in plasmas together with a comprehensive introduction to the mathematical formulation of fluid (MHD) and kinetic theory. It provides an excellent introduction to the subject suitable for senior undergraduate students or entry-level graduate students.' Richard M. Thorne, University of California, Los Angeles

    Table of Contents
    1. Introduction; 2. Single particle motion; 3. Kinetic theory of plasmas; 4. Moments of the Boltzmann equation; 5. Multiple fluid theory of plasmas; 6. Single fluid theory of plasmas: magnetohydrodynamics; 7. Collisions and plasma conductivity; 8. Plasma diffusion; 9. Introduction to waves in plasmas; 10. Waves in cold magnetized plasmas; 11. Effects of collisions, ions and finite temperature on waves in magnetized plasmas; 12. Waves in hot plasmas; 13. Plasma sheath and the Langmuir probe; Appendix A. Derivation of second moment of the Boltzmann equation; Appendix B. Useful vector identities.

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