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11 - 20 of 37 results for: GEOPHYS

GEOPHYS 198: Honors Program

Experimental, observational, or theoretical honors project and thesis in geophysics under supervision of a faculty member. Students who elect to do an honors thesis should begin planning it no later than Winter Quarter of the junior year. Prerequisites: department approval. Seniors defend the results of their research at a public oral presentation.
Terms: Aut, Win, Spr, Sum | Units: 1-3 | Repeatable 4 times (up to 15 units total)

GEOPHYS 200: Fluids and Flow in the Earth: Computational Methods (GEOPHYS 181)

Interdisciplinary problems involving the state and movement of fluids in crustal systems, and computational methods to model these processes. Examples of processes include: nonlinear, time-dependent flow in porous rocks; coupling in porous rocks between fluid flow, stress, deformation, and heat and chemical transport; percolation of partial melt; diagenetic processes; pressure solution and the formation of stylolites; and transient pore pressure in fault zones. MATLAB, Lattice-Boltzmann, and COMSOL Multiphysics. Term project. No experience with COMSOL Multiphysics required. Offered every other year, winter quarter. Next offering, Winter 2014-15.
Terms: Win | Units: 3

GEOPHYS 202: Reservoir Geomechanics

Basic principles of rock mechanics and the state of stress and pore pressure in sedimentary basins related to exploitation of hydrocarbon and geothermal reservoirs. Mechanisms of hydrocarbon migration, exploitation of fractured reservoirs, reservoir compaction and subsidence, hydraulic fracturing, utilization of directional and horizontal drilling to optimize well stability. Given alternate years. Next offering Winter 2013-14.
Terms: Win | Units: 3

GEOPHYS 211: Environmental Soundings Image Estimation (GEOPHYS 187)

Imaging principles exemplified by means of imaging geophysical data of various uncomplicated types (bathymetry, altimetry, velocity, reflectivity). Adjoints, back projection, conjugate-gradient inversion, preconditioning, multidimensional autoregression and spectral factorization, the helical coordinate, and object-based programming. Common recurring issues such as limited aperture, missing data, signal/noise segregation, and nonstationary spectra. See http://sep.stanford.edu/sep/prof/.
Terms: Win | Units: 3

GEOPHYS 218: Understanding Natural Hazards, Quantifying Risk, Increasing Resilience in Highly Urbanized Regions (EESS 118, EESS 218, GEOPHYS 118, GES 118, GES 218)

Integrating the science of natural hazards, methods for quantitatively estimating the risks that these hazards pose to populations and property, engineering solutions that might best ameliorate these risks and increase resilience to future events, and policy and economic decision-making studies that may increase long-term resilience to future events. Panel discussions by outside experts exploring the science, engineering, policy, and economics that underly the hazards, risks, and strategies for increasing resilience. Group assignments to evaluate the way in which natural hazards, and human population and developing interact in megacities to produce risk, and what strategies might be adopted in each area to reduce risks posted by the specific hazards faced by these urban areas.
Terms: Win | Units: 3

GEOPHYS 224: Seismic Reflection Processing

Workshop in computer processing of 2D and 3D seismic reflection data. Students individually process a seismic reflection profile (of their own choice or instructor-provided) from field recordings to migrated sections and subsurface images, using interactive software (OpenCPS from OpenGeophysical.com). Prerequisite: GEOPHYS 222 or consent of instructor.
Terms: Win | Units: 2-3

GEOPHYS 246A: Atmosphere, Ocean, and Climate Dynamics: The Atmospheric Circulation (EARTHSYS 146A, EARTHSYS 246A, EESS 146A, EESS 246A, GEOPHYS 146A)

Introduction to the physics governing the circulation of the atmosphere and ocean and their control on climate with emphasis on the atmospheric circulation. Topics include the global energy balance, the greenhouse effect, the vertical and meridional structure of the atmosphere, dry and moist convection, the equations of motion for the atmosphere and ocean, including the effects of rotation, and the poleward transport of heat by the large-scale atmospheric circulation and storm systems. Prerequisites: MATH 51 or CME100 and PHYSICS 41.
Terms: Win | Units: 3
Instructors: Thomas, L. (PI)

GEOPHYS 255: Report on Energy Industry Training

On-the-job-training for master's and doctoral degree students under the guidance of on-site supervisors. Students submit a report detailing work activities, problems, assignment, and key results. May be repeated for credit. Prerequisite: written consent of adviser.
Terms: Aut, Win, Spr, Sum | Units: 1-3 | Repeatable for credit

GEOPHYS 265: Imaging Radar and Applications (EE 355)

Terms: Win | Units: 3
Instructors: Zebker, H. (PI)

GEOPHYS 270: Electromagnetic Properties of Geological Materials

Laboratory observations and theoretical modeling of the electromagnetic properties and nuclear magnetic resonance response of geological material. Relationships between these properties and water-saturated materials properties such as composition, water content, surface area, and permeability. Offered Winter 2014.
Terms: Win | Units: 2-3
Instructors: Knight, R. (PI)
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