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PAPERBACK list:$32.50 Web:$29.25 add to cart Rights & Permissions Free Resources PDF FORMAT Display this book on your site! Related Titles Living on an Active Earth: Perspectives on Earthquake Science Improved Seismic Monitoring - Improved Decision-Making: Assessing the Value of Reduced Uncertainty Other Related Titles (NAS Colloquium) Earthquake Prediction: The Scientific Challenge (1996) National Academy of Sciences (NAS) Web Search Builder Use this book's key terms to search within this book, across our collection, or across the Web. Skim This Chapter Skim this chapter and use this chapter's key terms to search within this book. Reference Finder Paste in your own text to find books that relate to your topic. Page I   E-mail  Facebook  Digg  Stumble  Twitter More The following HTML text is provided to enhance online readability. Many aspects of typography translate only awkwardly to HTML. Please use the page image as the authoritative form to ensure accuracy. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA Table of Contents Papers from a National Academy of Sciences Colloquium on Earthquake Prediction: The Scientific Challenge     Earthquake prediction: The scientific challenge L.Knopoff   3719–3720     Earthquake prediction: The interaction of public policy and science Lucile M.Jones   3721–3725     Initiation process of earthquakes and its implications for seismic hazard reduction strategy Hiroo Kanamori   3726–3731     Intermediate- and long-term earthquake prediction Lynn R.Sykes   3732–3739     Scale dependence in earthquake phenomena and its relevance to earthquake prediction Keiiti Aki   3740–3747     Intermediate-term earthquake prediction V.I. Keilis-Borok   3748–3755     A selective phenomenology of the seismicity of Southern California L.Knopoff   3756–3763     The repetition of large-earthquake ruptures Kerry Sieh   3764–3771     Hypothesis testing and earthquake prediction David D.Jackson   3772–3775     What electrical measurements can say about changes in fault systems Theodore R.Madden and Randall L.Mackie   3776–3780     Geochemical challenge to earthquake prediction Hiroshi Wakita   3781–3786     Implications of fault constitutive properties for earthquake prediction James H.Dieterich and Brian Kilgore   3787–3794     Nonuniformity of the constitutive law parameters for shear rupture and quasistatic nucleation to dynamic rupture: A physical model of earthquake generation processes Mitiyasu Ohnaka   3795–3802     Rock friction and its implications for earthquake prediction examined via models of Parkfield earthquakes Terry E.Tullis   3803–3810     Slip complexity in earthquake fault models James R.Rice and Yehuda Ben-Zion   3811–3818 Page I Front Matter (R1-R2) Earthquake prediction: The scientific challenge (3719-3720) Earthquake prediction: The interaction of public policy and science (3721-3725) Initiation process of earthquakes and its implications for seismic hazard reduction strategy (3726-3731) Intermediate- and long-term earthquake prediction (3732-3739) Scale dependence in earthquake phenomena and its relevance to earthquake prediction (3740-3747) Intermediate-term earthquake prediction (3748-3755) A selective phenomenology of the seismicity of Southern California (3756-3763) The repetition of large-earthquake ruptures (3764-3771) Hypothesis testing and earthquake prediction (3772-3775) What electrical measurements can say about changes in fault systems (3776-3780) Geochemical challenge to earthquake prediction (3781-3786) Implications of fault constitutive properties for earthquake prediction (3787-3794) Nonuniformity of the constitutive law parameters for shear rupture and quasistatic nucleation to dynamic rupture: A physical model of earthquake generation processes (3795-3802) Rock friction and its implications for earthquake prediction examined via models of Parkfield earthquakes (3803-3810) Slip complexity in earthquake fault models (3811-3818) Dynamic friction and the origin of the complexity of earthquake sources (3819-3824) Slip complexity in dynamic models of earthquake faults (3825-3829) The organization of seismicity on fault networks (3830-3837) Geometric incompatibility in a fault system (3838-3842)

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OCR for page R1
Proceedings of the National Academy of Sciences of the United States of America PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA Table of Contents Papers from a National Academy of Sciences Colloquium on Earthquake Prediction: The Scientific Challenge     Earthquake prediction: The scientific challenge L.Knopoff   3719–3720     Earthquake prediction: The interaction of public policy and science Lucile M.Jones   3721–3725     Initiation process of earthquakes and its implications for seismic hazard reduction strategy Hiroo Kanamori   3726–3731     Intermediate- and long-term earthquake prediction Lynn R.Sykes   3732–3739     Scale dependence in earthquake phenomena and its relevance to earthquake prediction Keiiti Aki   3740–3747     Intermediate-term earthquake prediction V.I. Keilis-Borok   3748–3755     A selective phenomenology of the seismicity of Southern California L.Knopoff   3756–3763     The repetition of large-earthquake ruptures Kerry Sieh   3764–3771     Hypothesis testing and earthquake prediction David D.Jackson   3772–3775     What electrical measurements can say about changes in fault systems Theodore R.Madden and Randall L.Mackie   3776–3780     Geochemical challenge to earthquake prediction Hiroshi Wakita   3781–3786     Implications of fault constitutive properties for earthquake prediction James H.Dieterich and Brian Kilgore   3787–3794     Nonuniformity of the constitutive law parameters for shear rupture and quasistatic nucleation to dynamic rupture: A physical model of earthquake generation processes Mitiyasu Ohnaka   3795–3802     Rock friction and its implications for earthquake prediction examined via models of Parkfield earthquakes Terry E.Tullis   3803–3810     Slip complexity in earthquake fault models James R.Rice and Yehuda Ben-Zion   3811–3818

OCR for page R2
Proceedings of the National Academy of Sciences of the United States of America     Dynamic friction and the origin of the complexity of earthquake sources Raúl Madariaga and Alain Cochard   3819–3824     Slip complexity in dynamic models of earthquake faults J.S.Langer, J.M.Carlson, Christopher R.Myers, and Bruce E.Shaw   3825–3829     The organization of seismicity on fault networks L.Knopoff   3830–3837     GEOPHYSICS         Geometric incompatibility in a fault system Andrei Gabrielov, Vladimir Keilis-Borok, and David D.Jackson   3838–3842