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(NAS Colloquium) Earthquake Prediction: The Scientific Challenge (1996)
National Academy of Sciences (NAS)

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9
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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)