Titre : 
Principles of seismology 
Type de document : 
texte imprimÃ© 
Auteurs : 
AgustÃn UdÃas Vallina, Auteur 
Editeur : 
Cambridge : Cambridge University Press 
AnnÃ©e de publication : 
1999 
Importance : 
xiv, 475 p. 
PrÃ©sentation : 
ill., maps 
Format : 
26 cm 
ISBN/ISSN/EAN : 
9780521624343 
Note gÃ©nÃ©rale : 
ISBN:0521624347 (hbk.).ISBN:0521624789 (pbk.).PPN 052180034

Langues : 
FranÃ§ais (fre) 
Tags : 
Seismology 
RÃ©sumÃ© : 
This book, first published in 2000, is an introductory text on seismology intended for upper division undergraduates and graduate students. It emphasises fundamental concepts and basic mathematical developments, and is intended to be 'student friendly'. The author explains the fundamental concepts in full detail with stepbystep development of the mathematics, although the book does assume a knowledge of vector and tensor analysis, calculus and ordinary and partial differential equations, as well as of fundamental physics, especially mechanics and elasticity theory. Simple examples, such as onedimensional problems and liquid media are used as introductory topics. The book covers most of the fundamental topics in seismology, including seismic wave propagation, normal mode theory, ray theory approximation, body and surface waves, source mechanisms, kinematic and dynamic models and applications to the understanding of the structure of the Earth and seismotectonics. The book also contains appendices on useful mathematical tools and includes extensive problems.
Review: 'It contains everything I would want my graduate students to have as their initial core knowledge of seismology. Udias presents theoretical concepts in a crisp and complete manner ... an excellent, broad overview of seismology.' Toshiro Tanimoto, Physics Today '... an excellent introductory seismology text for advanced undergraduate and graduate students.' Keith Priestley, Geological Magazine ' ... a very good, studentfriendly, textbook ... it should be an absolute necessity on the bookshelves of seismologists for some time to come.' G. F. Panza, Earth Science Reviews '... useful new volume which will be much appreciated by students and will serve as a model for all those involved in seismology teaching.' Giancarlo Scalera, Annali di Geofisica '... a very instructive textbook with considerable attention to educational value ... well and consistently organized, with numerous illustrations, which makes it very suitable as a textbook for introductory seismology courses.' Hong Kie Thio, Pure and Applied Geophysics 'I do recommend this textbook for courses in seismology. The level of the book corresponds to upper division undergraduate and first year graduate students. It is a good introduction for more advanced books in seismology. Researchers will also find it useful to go back to the fundamental concepts.' Journal of Seismology."This book is an introductory text on seismology intended for advanced undergraduates and graduate students." "The author explains the fundamental concepts in full detail with stepbystep development of the mathematics, although the book does assume a knowledge of vector and tensor analysis, calculus, and ordinary and partial differential equations, as well as of fundamental physics, especially mechanics and elasticity theory."BOOK JACKET. 
Note de contenu : 
Includes bibliographical references (p. 458467) and index.1. Seismology, science of earthquakes; 2. Fundamental equations of an elastic medium; 3. Elastic waves; 4. Normal mode theory; 5. Reflection and refraction; 6. Ray theory, media of constant velocity; 7. Ray theory, media of variable velocity; 8. Ray propagation in a spherical medium; 9. Travel times and structure of the earth; 10. Surface waves; 11. Wave propagation in layered media; 12. Wave dispersion, phase and group velocity; 13. Free oscillations of the earth; 14. Anelasticity and anisotropy; 15. Earthquake parameters; 16. Source mechanism; 17. Seismic moment tensor; 18. Models of fracture; 19. Methods of source mechanism determination; 20. Seismicity, seismotectonics and seismic risk; 21. Seismographs and seismograms; Appendix 1. Vectors and tensors; Appendix 2. Cylindrical and spherical coordinates; Appendix 3. Bessel and Legendre functions; Appendix 4. Fourier transform; Appendix 5. Parameters of the earth; Appendix 6. Interior of the earth; Appendix 7. Important earthquakes; Appendix 8. Problems and exercises. 
Principles of seismology [texte imprimÃ©] / AgustÃn UdÃas Vallina, Auteur .  CambridgeÂ : Cambridge University Press, 1999 .  xiv, 475 p. : ill., maps ; 26 cm. ISBN : 9780521624343 ISBN:0521624347 (hbk.).ISBN:0521624789 (pbk.).PPN 052180034
Langues : FranÃ§ais ( fre)
Tags : 
Seismology 
RÃ©sumÃ© : 
This book, first published in 2000, is an introductory text on seismology intended for upper division undergraduates and graduate students. It emphasises fundamental concepts and basic mathematical developments, and is intended to be 'student friendly'. The author explains the fundamental concepts in full detail with stepbystep development of the mathematics, although the book does assume a knowledge of vector and tensor analysis, calculus and ordinary and partial differential equations, as well as of fundamental physics, especially mechanics and elasticity theory. Simple examples, such as onedimensional problems and liquid media are used as introductory topics. The book covers most of the fundamental topics in seismology, including seismic wave propagation, normal mode theory, ray theory approximation, body and surface waves, source mechanisms, kinematic and dynamic models and applications to the understanding of the structure of the Earth and seismotectonics. The book also contains appendices on useful mathematical tools and includes extensive problems.
Review: 'It contains everything I would want my graduate students to have as their initial core knowledge of seismology. Udias presents theoretical concepts in a crisp and complete manner ... an excellent, broad overview of seismology.' Toshiro Tanimoto, Physics Today '... an excellent introductory seismology text for advanced undergraduate and graduate students.' Keith Priestley, Geological Magazine ' ... a very good, studentfriendly, textbook ... it should be an absolute necessity on the bookshelves of seismologists for some time to come.' G. F. Panza, Earth Science Reviews '... useful new volume which will be much appreciated by students and will serve as a model for all those involved in seismology teaching.' Giancarlo Scalera, Annali di Geofisica '... a very instructive textbook with considerable attention to educational value ... well and consistently organized, with numerous illustrations, which makes it very suitable as a textbook for introductory seismology courses.' Hong Kie Thio, Pure and Applied Geophysics 'I do recommend this textbook for courses in seismology. The level of the book corresponds to upper division undergraduate and first year graduate students. It is a good introduction for more advanced books in seismology. Researchers will also find it useful to go back to the fundamental concepts.' Journal of Seismology."This book is an introductory text on seismology intended for advanced undergraduates and graduate students." "The author explains the fundamental concepts in full detail with stepbystep development of the mathematics, although the book does assume a knowledge of vector and tensor analysis, calculus, and ordinary and partial differential equations, as well as of fundamental physics, especially mechanics and elasticity theory."BOOK JACKET. 
Note de contenu : 
Includes bibliographical references (p. 458467) and index.1. Seismology, science of earthquakes; 2. Fundamental equations of an elastic medium; 3. Elastic waves; 4. Normal mode theory; 5. Reflection and refraction; 6. Ray theory, media of constant velocity; 7. Ray theory, media of variable velocity; 8. Ray propagation in a spherical medium; 9. Travel times and structure of the earth; 10. Surface waves; 11. Wave propagation in layered media; 12. Wave dispersion, phase and group velocity; 13. Free oscillations of the earth; 14. Anelasticity and anisotropy; 15. Earthquake parameters; 16. Source mechanism; 17. Seismic moment tensor; 18. Models of fracture; 19. Methods of source mechanism determination; 20. Seismicity, seismotectonics and seismic risk; 21. Seismographs and seismograms; Appendix 1. Vectors and tensors; Appendix 2. Cylindrical and spherical coordinates; Appendix 3. Bessel and Legendre functions; Appendix 4. Fourier transform; Appendix 5. Parameters of the earth; Appendix 6. Interior of the earth; Appendix 7. Important earthquakes; Appendix 8. Problems and exercises. 
