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Plate tectonics / Plasticity / Solid mechanics / Elasticity / Cascadia subduction zone / Stress / Yield / Shear / San Andreas Fault / Mechanics / Physics / Geology


GEOPHYSICAL RESEARCH LETTERS, VOL. 28, NO. 10, PAGES[removed], MAY 1, 2001 Stress rates in the central Cascadia subduction zone inferred from an elastic plate model Charles A. Williams and Robert McCaffrey Rensselaer
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Document Date: 2001-05-14 10:50:08

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City

Cambridge / Washington / Troy / Sunderland / /

Company

Hanson / Prentice-Hall / B. P. Flannery S. A. / /

Continent

South America / /

Currency

USD / /

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Event

Natural Disaster / /

Facility

Rensselaer Polytechnic Institute / Massachusetts Institute of Technology / Robert McCaffrey Rensselaer Polytechnic Institute / /

IndustryTerm

genetic algorithm / analysis software / /

NaturalFeature

Mt. Etna / Oregon coast / Andes / Columbia River / /

Organization

Science Center / American Geophysical Union / National Science Foundation / Rensselaer Polytechnic Institute / Cambridge Univ. / Massachusetts Institute of Technology / Department of Earth and Environmental Sciences / /

Person

Jim Savage / Robert McCa / Charles A. Williams / Kelin Wang / /

Position

Driver / King / elastic plate model / NUVEL-1A model / Geophys / /

ProgrammingLanguage

FORTRAN / /

ProvinceOrState

Oregon / California / New York / Massachusetts / Washington / /

PublishedMedium

GEOPHYSICAL RESEARCH LETTERS / /

Region

northern California / northwestern Oregon / northern Oregon / southern California / central Andes / central Oregon / southwest Washington / central California / northwest Oregon / western Oregon / southwestern Washington / /

Technology

Geophysics / GPS / genetic algorithm / 3g / /

URL

www.staff.uiuc.edu/˜carroll/ga.html / /

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