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GEOPHYS 54N: The Space Mission to Europa

Jupiter's icy moon Europa is a leading candidate in the search for life in our solar system outside of Earth. NASA's upcoming Europa Clipper mission would investigate the habitability of the moon using a suite of nine geophysical instruments. In this course, we will use the mission as a central text around which to explore the intersection of science, engineering, management, economics, culture, and politics involved in any modern big science enterprise.
Last offered: Autumn 2020 | UG Reqs: WAY-SMA

GEOPHYS 60N: Man versus Nature: Coping with Disasters Using Space Technology (EE 60N)

Preference to freshman. Natural hazards, earthquakes, volcanoes, floods, hurricanes, and fires, and how they affect people and society; great disasters such as asteroid impacts that periodically obliterate many species of life. Scientific issues, political and social consequences, costs of disaster mitigation, and how scientific knowledge affects policy. How spaceborne imaging technology makes it possible to respond quickly and mitigate consequences; how it is applied to natural disasters; and remote sensing data manipulation and analysis. GER:DB-EngrAppSci
Terms: Win | Units: 4 | UG Reqs: GER:DB-EngrAppSci, WAY-SMA
Instructors: Zebker, H. (PI)

GEOPHYS 90: Earthquakes and Volcanoes (EARTHSYS 113)

Is the "Big One" overdue in California? What kind of damage would that cause? What can we do to reduce the impact of such hazards in urban environments? Does "fracking" cause earthquakes and are we at risk? Is the United States vulnerable to a giant tsunami? The geologic record contains evidence of volcanic super eruptions throughout Earth's history. What causes these gigantic explosive eruptions, and can they be predicted in the future? This course will address these and related issues. For non-majors and potential Earth scientists. No prerequisites. More information at: https://stanford.box.com/s/zr8ar28efmuo5wtlj6gj2jbxle76r4lu
Terms: Spr | Units: 3 | UG Reqs: GER:DB-EngrAppSci, WAY-SMA, WAY-AQR
Instructors: Beroza, G. (PI)

GEOPHYS 104: The Water Course (EARTHSYS 104, EARTHSYS 204, GEOPHYS 204)

The Central Valley of California provides a third of the produce grown in the U.S., but recent droughts and increasing demand have raised concerns about both food and water security. The pathway that water takes from rainfall to the irrigation of fields or household taps ('the water course') determines the quantity and quality of the available water. Working with various data sources (measurements made on the ground, in wells, and from satellites) allows us to model the water budget in the valley and explore the recent impacts on freshwater supplies.
Terms: Spr | Units: 4 | UG Reqs: WAY-SMA, GER: DB-NatSci, WAY-AQR

GEOPHYS 110: Introduction to the Foundations of Contemporary Geophysics (EARTHSYS 110, GEOPHYS 215)

Introduction to the foundations of contemporary geophysics. Lectures link important topics in contemporary Geophysics ("What we study") to methods used to make progress on these topics ("How we study"). Topics range from plate tectonics to natural hazards; ice sheets to sustainability. For each topic, we focus is on how the interpretation of geophysical measurements (e.g., gravity, seismology, heat flow, electromagnetism and remote sensing) provides fundamental insight into the behavior of the Earth. The course will includes a required all-day Saturday field exercise Feb 02/10 (rain-date: 02/17). Prerequisite: CME 100 or MATH 51, or co-registration in either.
Terms: Win | Units: 3 | UG Reqs: GER: DB-NatSci, WAY-AQR, WAY-SMA

GEOPHYS 115: Taking the Pulse of the Planet (EE 115)

Grappling with the big questions of sustainability and climate change, requires that we have ways to measure ? as we cannot manage what we cannot measure. This course, Taking the Pulse of the Planet introduces a new research and teaching initiative at Stanford ? also called Taking the Pulse of the Planet, which has the following goal: to have in place a global network of satellite, airborne, land/water-based sensors to support the real-time adaptive management of planetary health and human activities. Measurements will be made at the spatial and temporal scales required to inform the development and implementation of new policies addressing critical issues related to climate change, sustainability, and equity. Tapping into rapid advancements in sensor technology and data science over the past decade, we can now image and monitor many components of the Earth system and human activities. With the launch of the Stanford Doerr School of Sustainability, we wish to celebrate, through this co more »
Grappling with the big questions of sustainability and climate change, requires that we have ways to measure ? as we cannot manage what we cannot measure. This course, Taking the Pulse of the Planet introduces a new research and teaching initiative at Stanford ? also called Taking the Pulse of the Planet, which has the following goal: to have in place a global network of satellite, airborne, land/water-based sensors to support the real-time adaptive management of planetary health and human activities. Measurements will be made at the spatial and temporal scales required to inform the development and implementation of new policies addressing critical issues related to climate change, sustainability, and equity. Tapping into rapid advancements in sensor technology and data science over the past decade, we can now image and monitor many components of the Earth system and human activities. With the launch of the Stanford Doerr School of Sustainability, we wish to celebrate, through this course, the powerful role that advancements in technology ? specifically sensors ? and advancements in data science are playing in addressing the global challenges in sustainability and climate change. This will be a lecture class for undergraduates and graduate students designed to introduce them to the incredible array of sensors and data sets now available. We will finish the quarter with group projects that will involve the making and deployment of sensors around campus. The course will be designed to accommodate students at any level, with any background, with no required pre-requisites. In most of the assignments, we will be using Google co-lab to work with various types of sensor data. We anticipate drawing to this course both data-science-savvy and data-science-interested students. Therefore, we have developed online modules that are designed to help any student get up to speed on the "jargon" and the computational approaches used in the class.
Terms: Win | Units: 3 | UG Reqs: WAY-AQR, WAY-SMA

GEOPHYS 120: Geophysical Mechanics and Dynamics (GEOPHYS 220)

Introductory application of continuum mechanics to ice sheets and glaciers, water waves and tsunamis, and volcanoes. Emphasis on physical processes and mathematical description using balance of mass and momentum, combined with constitutive equations for fluids and solids. Designed for undergraduates with no prior geophysics background; also appropriate for beginning graduate students. Prerequisites: CME 100 or MATH 52 and PHYSICS 41 (or equivalent).
Terms: Win | Units: 3-5 | UG Reqs: GER: DB-NatSci, WAY-FR, WAY-SMA

GEOPHYS 124: Introduction to Planetary Science (EPS 124, ESS 125)

(Formerly GEOLSCI 124) This course provides an introduction to planetary science through the exploration of processes that formed and modified planetary bodies within the Solar System and beyond. Each lecture will be given by an expert in a specific subfield of planetary sciences, with topics ranging from planetary materials and formation, planetary dynamics, planetary structure and tectonics, planetary atmospheres, impact cratering, surface processes, and astrobiology. We will also discuss how scientists investigate planets both near and far through sample analysis, telescopic and orbital remote sensing as well as in situ through robotic instruments. Although there are no prerequisites for this course, it is primarily directed towards undergraduate students who are majoring (or plan to) in the sciences or engineering. A minimum level of mathematics equivalent to high school algebra and introductory calculus will be necessary. Change of Department Name: Earth and Planetary Science (Formerly Geologic Sciences).
Last offered: Spring 2023 | UG Reqs: WAY-SMA | Repeatable 3 times (up to 12 units total)

GEOPHYS 130: Introductory Seismology

Introduction to seismology including: elasticity and the wave equation, P, S, and surface waves, dispersion, ray theory, reflection and transmission of seismic waves, seismic imaging, large-scale Earth structure, earthquake location, earthquake statistics and forecasting, magnitude scales, seismic source theory.
Last offered: Autumn 2022 | UG Reqs: GER: DB-NatSci, WAY-AQR, WAY-SMA

GEOPHYS 183: Reflection Seismology Interpretation (EPS 223, GEOPHYS 223)

(Formerly GEOLSCI 223) The structural and stratigraphic interpretation of seismic reflection data, emphasizing hydrocarbon traps in two and three dimensions on industry data, including workstation-based interpretation. Lectures only, 1 unit. Prerequisite: EPS 222 (Formerly GEOLSCI 222), or consent of instructor. ( Geophys 183 must be taken for a minimum of 3 units to be eligible for Ways credit). Change of Department Name: Earth and Planetary Science (Formerly Geologic Sciences).
Last offered: Winter 2020 | UG Reqs: WAY-SMA
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