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1 - 10 of 39 results for: EARTHSYS

EARTHSYS 2: Chemistry of the Earth and Planets (EPS 2)

( EPS 2 - Former GEOLSCI 2) Chemistry of the Earth and Planets Couse Description: Introduction to chemical principles with an emphasis on applications in the Earth Sciences. Topics include the origin and distribution of the elements in the solar system and on Earth, the origin and structure of the Earth, its oceans, and atmosphere; crystal chemistry, structure, and transformations; predicting and balancing reactions; thermodynamics, phase diagrams, high temperature and aqueous geochemistry, weathering, isotope geochemistry, and organic geochemistry. Students will also be exposed to analytical methods used in the Earth sciences. Change of Department Name: Earth & Planetary Sciences (Formerly Geological Science)
Terms: Aut | Units: 3 | UG Reqs: WAY-SMA | Repeatable 3 times (up to 9 units total)

EARTHSYS 4: Coevolution of Earth and Life (EPS 4)

( EPS 4 - Former GEOLSCI 4) Earth is the only planet in the universe currently known to harbor life. When and how did Earth become inhabited? How have biological activities altered the planet? How have environmental changes affected the evolution of life? In this course, we explore these questions by developing an understanding of life's multi-billion year history using tools from biology, geology, paleontology, and chemistry. We discuss major groups of organisms, when they appear in the rock record, and how they have interacted with the Earth to create the habitats and ecosystems that we are familiar with today. Change of Department Name: Earth & Planetary Sciences (Formerly Geological Science)
Terms: Aut | Units: 4 | UG Reqs: GER: DB-NatSci, WAY-SMA

EARTHSYS 10: Introduction to Earth Systems

For non-majors and prospective Earth Systems majors. Multidisciplinary approach using the principles of geology, biology, engineering, and economics to describe how the Earth operates as an interconnected, integrated system. Goal is to understand global change on all time scales. Focus is on sciences, technological principles, and sociopolitical approaches applied to solid earth, oceans, water, energy, and food and population. Case studies: environmental degradation, loss of biodiversity, and resource sustainability.
Terms: Aut | Units: 4 | UG Reqs: GER: DB-NatSci, WAY-SMA

EARTHSYS 37Q: Food Justice Now! Power and Politics in the Ways We Eat (CSRE 37Q, SOC 37Q)

Where does the food you eat come from? How does it get to your plate? Where does it go when you don't finish it? And why are those particular items on your plate in the first place? How and what we eat is a vastly overlooked part of everyday life, and yet comes with huge personal, societal, and environmental effects, both positive and (quite often) negative. But this isn't indicative of personal moral failings or ignorance - rather, the food system was designed this way. And it leaves many of us without choice or consent around what we put into our bodies and how our actions impact those around us, thereby exacerbating social and health inequities. This class will uncover the secret workings of the global food system and introduce students to movements and efforts towards creating a more just food future for all. We will center on the concept of 'food justice,' which includes all ideas and practices that strive to eliminate exploitation and oppression within and beyond the food system. more »
Where does the food you eat come from? How does it get to your plate? Where does it go when you don't finish it? And why are those particular items on your plate in the first place? How and what we eat is a vastly overlooked part of everyday life, and yet comes with huge personal, societal, and environmental effects, both positive and (quite often) negative. But this isn't indicative of personal moral failings or ignorance - rather, the food system was designed this way. And it leaves many of us without choice or consent around what we put into our bodies and how our actions impact those around us, thereby exacerbating social and health inequities. This class will uncover the secret workings of the global food system and introduce students to movements and efforts towards creating a more just food future for all. We will center on the concept of 'food justice,' which includes all ideas and practices that strive to eliminate exploitation and oppression within and beyond the food system. This trajectory will take us through understandings of economic, political, cultural, social, and ecological life, both now and in the past, providing students with a unique opportunity to gain interdisciplinary knowledge of food systems. For instance, we will learn about how historical and modern-day activists and scholars draw on movements for economic, gender, racial, climate, and environmental justice, and explore the possibilities for both reformative and transformative food politics. Finally, because food production, consumption, and activism are all highly tangible practices, the class will engage in field trips to the Stanford O'Donohue Family Farm, Stanford Food Institute's Teaching Kitchen, and a local Bay Area farm to get hands-on experience with what it means to eat more ethically.
Terms: Aut | Units: 3 | UG Reqs: WAY-EDP, WAY-SI
Instructors: Ramirez, B. (PI)

EARTHSYS 38N: The Worst Journey in the World: The Science, Literature, and History of Polar Exploration (EPS 38N, ESS 38N)

(Formerly GEOLSCI 38N) This course examines the motivations and experiences of polar explorers under the harshest conditions on Earth, as well as the chronicles of their explorations and hardships, dating to the 1500s for the Arctic and the 1700s for the Antarctic. Materials include The Worst Journey in the World by Aspley Cherry-Garrard who in 1911 participated in a midwinter Antarctic sledging trip to recover emperor penguin eggs. Optional field trip into the high Sierra in March. Change of Department Name: Earth and Planetary Science (Formerly Geologic Sciences).
Terms: Aut | Units: 3 | UG Reqs: GER: DB-NatSci

EARTHSYS 103: Understand Energy (CEE 107A, CEE 207A, ENERGY 107A, ENERGY 207A)

NOTE: This course will be taught in-person on main campus, lectures are recorded and available asynchronously. Energy is the number one contributor to climate change and has significant consequences for our society, political system, economy, and environment. Energy is also a fundamental driver of human development and opportunity. In taking this course, students will not only understand the fundamentals of each energy resource - including significance and potential, conversion processes and technologies, drivers and barriers, policy and regulation, and social, economic, and environmental impacts - students will also be able to put this in the context of the broader energy system. Both depletable and renewable energy resources are covered, including oil, natural gas, coal, nuclear, biomass and biofuel, hydroelectric, wind, solar thermal and photovoltaics (PV), geothermal, and ocean energy, with cross-cutting topics including electricity, storage, climate change and greenhouse gas emiss more »
NOTE: This course will be taught in-person on main campus, lectures are recorded and available asynchronously. Energy is the number one contributor to climate change and has significant consequences for our society, political system, economy, and environment. Energy is also a fundamental driver of human development and opportunity. In taking this course, students will not only understand the fundamentals of each energy resource - including significance and potential, conversion processes and technologies, drivers and barriers, policy and regulation, and social, economic, and environmental impacts - students will also be able to put this in the context of the broader energy system. Both depletable and renewable energy resources are covered, including oil, natural gas, coal, nuclear, biomass and biofuel, hydroelectric, wind, solar thermal and photovoltaics (PV), geothermal, and ocean energy, with cross-cutting topics including electricity, storage, climate change and greenhouse gas emissions (GHG), sustainability, green buildings, energy efficiency, transportation, and the developing world. The 4 unit course includes lecture and in-class discussion, readings and videos, homework assignments, one on-campus field trip during lecture time and two off-campus field trips with brief report assignments. Off-campus field trips to wind farms, solar farms, nuclear power plants, natural gas power plants, hydroelectric dams, etc. Enroll for 5 units to also attend the Workshop, an interactive discussion section on cross-cutting topics that meets once per week for 80 minutes (Mondays, 12:30 PM - 1:50 PM). Open to all: pre-majors and majors, with any background! Website: https://understand-energy-course.stanford.edu/ CEE 107S/207S Understand Energy: Essentials is a shorter (3 unit) version of this course, offered summer quarter. Students should not take both for credit. Prerequisites: Algebra.
Terms: Aut, Spr | Units: 3-5 | UG Reqs: GER:DB-EngrAppSci, WAY-SI

EARTHSYS 112: Human Society and Environmental Change (EARTHSYS 212, ESS 112, HISTORY 103D)

Interdisciplinary approaches to understanding human-environment interactions with a focus on economics, policy, culture, history, and the role of the state. Prerequisite: ECON 1.
Terms: Aut | Units: 4 | UG Reqs: WAY-SI

EARTHSYS 133: Social Enterprise Workshop (URBANST 133)

Social Enterprise Workshop: A team based class to design solutions to social issues. In the class students will identify issues they are interested in, such as housing, food, the environment, or college access. They will join teams of like-minded students. Working under the guidance of an experienced social entrepreneur, together they will develop a solution to one part of their issue and write a business plan for that solution. The class will also feature guests who are leaders in the field of social entrepreneurship who will share their stories and help with the business plans. The business plan exercise can be used for both nonprofits and for-profits. Previous students have started successful organizations and raised significant funds based on the business plans developed in this class. There are no prerequisites, and students do not need to have an idea for a social enterprise to join the class. Enrollment limited to 20. May be repeated for credit.
Terms: Aut | Units: 4 | UG Reqs: WAY-SI | Repeatable for credit
Instructors: Scher, L. (PI)

EARTHSYS 144: Fundamentals of Geographic Information Science (GIS) (ESS 164)

Everything is somewhere, and that somewhere matters." The rapid growth and maturity of spatial data technologies over the past decade represent a paradigm shift in the applied use of location data from high-level overviews of administrative interests, to highly personalized location-based services that place the individual at the center of the map, at all times. The use of spatial data and related technology continues to grow in fields ranging from environmental sciences to epidemiology to market prediction. This course will present an overview of current approaches to the use of spatial data and its creation, capture, management, analysis and presentation, in a research context. Topics will include modeling of geographic objects and associated data, modeling of geographic space and the conceptual foundations of "spatial thinking," field data collection, basic spatial statistical analysis, remote sensing & the use of satellite-based imagery, "Big Data" and machine learning approaches t more »
Everything is somewhere, and that somewhere matters." The rapid growth and maturity of spatial data technologies over the past decade represent a paradigm shift in the applied use of location data from high-level overviews of administrative interests, to highly personalized location-based services that place the individual at the center of the map, at all times. The use of spatial data and related technology continues to grow in fields ranging from environmental sciences to epidemiology to market prediction. This course will present an overview of current approaches to the use of spatial data and its creation, capture, management, analysis and presentation, in a research context. Topics will include modeling of geographic objects and associated data, modeling of geographic space and the conceptual foundations of "spatial thinking," field data collection, basic spatial statistical analysis, remote sensing & the use of satellite-based imagery, "Big Data" and machine learning approaches to spatial data, and cartographic design and presentation including the use of web-based "Storymap" platforms. The course will consist of weekly lectures, guest speakers, computer lab assignments, midterm and final exams, as well as an individual final project requirement. This course must be taken for a minimum of 3 units and a letter grade to be eligible for Ways credit.
Terms: Aut, Spr | Units: 3-4 | UG Reqs: GER: DB-NatSci, WAY-AQR

EARTHSYS 146A: Atmosphere, Ocean, and Climate Dynamics: The Atmospheric Circulation (CEE 161I, CEE 261I, ESS 246A)

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: Aut | Units: 3
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