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CEE 124X: Sustainable Urban Systems Fundamentals (CEE 224X)

This course is designed to provide students with fundamental mindsets and toolsets that they can apply to real-world problem solving in the context of urban systems. It focuses on fundamental quantitative and qualitative methods for acquiring knowledge and assessing performance of urban systems. Quantitative methods covered include geographic information systems, advanced Excel methods and basic statistics, and qualitative approaches will include stakeholder engagement as well as ethical guidelines governing work with community groups. The course will also introduce four key types of systems performance: well-being, sustainability, resilience and equity. Topics covered are those students can expect to encounter as they pursue their future careers. The course is also a prerequisite for participation in the Sustainable Urban Systems Projects which take place in Winter (CEE 224Y) and Spring (CEE 224Z). Those SUS Projects are designed to immerse student teams in current planning challenges through service to local public and private sector stakeholders; they will require high levels of self-driven learning, time commitment, professionalism, and collaboration. Open to undergraduate and graduate students in any major. For more information, visit http://sus.stanford.edu/courses.
Terms: Aut | Units: 3-5 | Grading: Letter or Credit/No Credit

CEE 224X: Sustainable Urban Systems Fundamentals (CEE 124X)

This course is designed to provide students with fundamental mindsets and toolsets that they can apply to real-world problem solving in the context of urban systems. It focuses on fundamental quantitative and qualitative methods for acquiring knowledge and assessing performance of urban systems. Quantitative methods covered include geographic information systems, advanced Excel methods and basic statistics, and qualitative approaches will include stakeholder engagement as well as ethical guidelines governing work with community groups. The course will also introduce four key types of systems performance: well-being, sustainability, resilience and equity. Topics covered are those students can expect to encounter as they pursue their future careers. The course is also a prerequisite for participation in the Sustainable Urban Systems Projects which take place in Winter (CEE 224Y) and Spring (CEE 224Z). Those SUS Projects are designed to immerse student teams in current planning challenges through service to local public and private sector stakeholders; they will require high levels of self-driven learning, time commitment, professionalism, and collaboration. Open to undergraduate and graduate students in any major. For more information, visit http://sus.stanford.edu/courses.
Terms: Aut | Units: 3-5 | Grading: Letter or Credit/No Credit

CEE 224Y: Sustainable Urban Systems Project (CEE 124Y, GEOPHYS 118Y, GEOPHYS 218Y)

Sustainable Urban Systems (SUS) Project is a project-based learning experience being piloted for an upcoming new SUS M.S. Program within CEE. Students are placed in small interdisciplinary teams (engineers and non-engineers, undergraduate and graduate level) to work on complex design, engineering, and policy problems presented by external partners in a real urban setting. Multiple projects are offered throughout the academic year and may span multiple quarters. Students are expected to interact with professionals and community stakeholders, conduct independent team work outside of class sessions, and submit deliverables over a series of milestones. To view project descriptions and apply, visit http://sus.stanford.edu/courses/.
Terms: Win | Units: 1-5 | Grading: Letter or Credit/No Credit

CEE 224Z: Sustainable Urban Systems Project (CEE 124Z, GEOPHYS 118Z, GEOPHYS 218Z)

Sustainable Urban Systems (SUS) Project is a project-based learning experience being piloted for an upcoming new SUS M.S. Program within CEE. Students are placed in small interdisciplinary teams (engineers and non-engineers, undergraduate and graduate level) to work on complex design, engineering, and policy problems presented by external partners in a real urban setting. Multiple projects are offered throughout the academic year and may span multiple quarters. Students are expected to interact with professionals and community stakeholders, conduct independent team work outside of class sessions, and submit deliverables over a series of milestones. To view project descriptions and apply, visit http://sus.stanford.edu/courses/.
Terms: Spr | Units: 1-5 | Grading: Letter or Credit/No Credit

CSRE 95: Liberation Through Land: Organic Gardening and Racial Justice (AFRICAAM 95, EARTHSYS 95)

Through field trips, practical work and readings, this course provides students with the tools to begin cultivating a relationship to land that focuses on direct engagement with sustainable gardening, from seed to harvest. The course will take place on the O'Donohue Family Stanford Educational Farm, where students will be given the opportunity to learn how to sow seeds, prepare garden beds, amend soils, build compost, and take care of plants. The history of forced farm labor in the U.S., from slavery to low-wage migrant labor, means that many people of color encounter agricultural spaces as sites of trauma and oppression. In this course we will explore the potential for revisiting a narrative of peaceful relation to land and crop that existed long before the trauma occurred, acknowledging the beautiful history of POC coexistence with land. Since this is a practical course, there will be a strong emphasis on participation. Application available at https://goo.gl/forms/cbYX3gSGdrHgHBJH3; deadline to apply is September 18, 2018, at midnight. The course is co-sponsored by the Institute for Diversity in the Arts (IDA) and the Earth Systems Program.
Terms: Aut | Units: 2 | Grading: Satisfactory/No Credit

EARTH 5: Geokids: Earth Sciences Education

Service learning through the Geokids program. Eight weeks of supervised teaching to early elementary students about Earth sciences. Hands-on teaching strategies for science standards-based instruction.
Terms: Aut, Spr | Units: 1 | Repeatable for credit | Grading: Satisfactory/No Credit
Instructors: ; Saltzman, J. (PI)

EARTHSYS 105: Food and Community: Food Security, Resilience and Equity (EARTHSYS 205)

What can communities do to bolster food security, resiliency, and equity in the face of climate change? This course aims to respond to this question, in three parts. In Part 1, we will explore the most current scientific findings on trends in anthropogenic climate forcing and the anticipated impacts on global and regional food systems. Specifically, Part I will review the anticipated impact of climate change on severe weather events, crop losses, and food price volatility and the influence of these impacts on global and regional food insecurity and hunger. In Part II, we will consider what communities can do to promote food security and equity in the face of these changes, by reviewing the emerging literature on food system resiliency. Finally, we will facilitate a conference in which multi-disciplinary teams from around the country will gather to initiate regional planning projects designed to enhance food system resilience and equity. Cardinal Course (certified by Haas Center). Limited enrollment. May be repeated for credit.
Terms: Spr | Units: 2-3 | Repeatable for credit | Grading: Letter or Credit/No Credit
Instructors: ; Carlisle, L. (PI)

EARTHSYS 155: Science of Soils (ESS 155)

Physical, chemical, and biological processes within soil systems. Emphasis is on factors governing nutrient availability, plant growth and production, land-resource management, and pollution within soils. How to classify soils and assess nutrient cycling and contaminant fate. Recommended: introductory chemistry and biology.
Terms: Spr | Units: 3-4 | UG Reqs: GER: DB-NatSci, WAY-SMA | Grading: Letter or Credit/No Credit
Instructors: ; Fendorf, S. (PI)

EARTHSYS 160: Sustainable Cities (URBANST 164)

Service-learning course that exposes students to sustainability concepts and urban planning as a tool for determining sustainable outcomes in the Bay Area. Focus will be on the relationship of land use and transportation planning to housing and employment patterns, mobility, public health, and social equity. Topics will include government initiatives to counteract urban sprawl and promote smart growth and livability, political realities of organizing and building coalitions around sustainability goals, and increasing opportunities for low-income and communities of color to achieve sustainability outcomes. Students will participate in team-based projects in collaboration with local community partners and take part in significant off-site fieldwork. Prerequisites: consent of the instructor. (Cardinal Course certified by the Haas Center.)
Terms: Aut | Units: 4-5 | UG Reqs: WAY-ED, WAY-SI | Repeatable for credit | Grading: Letter or Credit/No Credit
Instructors: ; Chan, D. (PI)

EARTHSYS 176: Open Space Management Practicum (EARTHSYS 276)

The unique patchwork of urban-to-rural land uses, property ownership, and ecosystems in our region poses numerous challenges and opportunities for regional conservation and environmental stewardship. Students in this class will address a particular challenge through a faculty-mentored research project engaged with the East Bay Regional Parks District. Grass Roots Ecology or the Amah Mutsun Land Trust that focuses on open space management. By focusing on a project driven by the needs of these organizations and carried out through engagement with the community, and with thorough reflection, study, and discussion about the roles of scientific, economic, and policy research in local-scale environmental decision-making, students will explore the underlying challenges and complexities of what it means to actually do community-engaged research for conservation and open space preservation in the real world. As such, this course will provide students with skills and experience in research design in conservation biology and ecology, community and stakeholder engagement, land use policy and planning, and the practical aspects of land and environmental management.nnAll students must complete the course application and turn it into Rachel Engstrand (rce212@stanford.edu) and Briana Swette (bswette@stanford.edu) by email. To receive priority consideration and an enrollment code, please submit the application by Monday September 10th, 2018. The course application consists of a short paragraph about your background and interest in and preparation for working on a real-world community-engaged earth systems project. The total course enrollment is necessarily limited by the project-based nature of the class.
Terms: Aut | Units: 4-5 | Grading: Letter or Credit/No Credit

EARTHSYS 187: FEED the Change: Redesigning Food Systems

FEED the Change is a project-based course focused on solving real problems in the food system. Targeted at upper-class undergraduates, this course provides an opportunity for students to meet and work with thought-leading innovators, to gain meaningful field experience, and to develop connections with faculty, students, and others working to create impact in the food system. Students in the course will develop creative confidence by learning and using the basic principles and methodologies of human-centered design, storytelling, and media design. Students will also learn basic tools for working effectively in teams and for analyzing complex social systems. FEED the Change is taught at the d.school and is offered through the FEED Collaborative in the School of Earth. This class requires an application. For application information and more information about our work and about past class projects, please visit our website at http://feedcollaborative.org/classes/
Terms: not given this year | Units: 2-3 | UG Reqs: WAY-CE | Grading: Letter (ABCD/NP)

EARTHSYS 205: Food and Community: Food Security, Resilience and Equity (EARTHSYS 105)

What can communities do to bolster food security, resiliency, and equity in the face of climate change? This course aims to respond to this question, in three parts. In Part 1, we will explore the most current scientific findings on trends in anthropogenic climate forcing and the anticipated impacts on global and regional food systems. Specifically, Part I will review the anticipated impact of climate change on severe weather events, crop losses, and food price volatility and the influence of these impacts on global and regional food insecurity and hunger. In Part II, we will consider what communities can do to promote food security and equity in the face of these changes, by reviewing the emerging literature on food system resiliency. Finally, we will facilitate a conference in which multi-disciplinary teams from around the country will gather to initiate regional planning projects designed to enhance food system resilience and equity. Cardinal Course (certified by Haas Center). Limited enrollment. May be repeated for credit.
Terms: Spr | Units: 2-3 | Repeatable for credit | Grading: Letter or Credit/No Credit
Instructors: ; Carlisle, L. (PI)

EARTHSYS 210A: Senior Capstone and Reflection

The Earth Systems Senior Capstone and Reflection, required of all seniors, provides students with opportunities to synthesize and reflect on their learning in the major. Students participate in guided career development and planning activities and initiate work on an independent or group capstone project related to an Earth Systems problem or question of interest. In addition, students learn and apply principles of effective oral communication through developing and giving a formal presentation on their internship. Students must also take EARTHSYS 210P, Earth Systems Capstone Project, in the quarter following the Senior Capstone and Reflection Course. Prerequisite: Completion of an approved Earth Systems internship (EARTHSYS 260).
Terms: Aut | Units: 3 | Grading: Letter (ABCD/NP)

EARTHSYS 210B: Senior Capstone and Reflection

The Earth Systems Senior Capstone and Reflection, required of all seniors, provides students with opportunities to synthesize and reflect on their learning in the major. Students participate in guided career development and planning activities and initiate work on an independent or group capstone project related to an Earth Systems problem or question of interest. In addition, students learn and apply principles of effective oral communication through developing and giving a formal presentation on their internship. Students must also take EARTHSYS 210P, Earth Systems Capstone Project, in the quarter following the Senior Capstone and Reflection Course. Prerequisite: Completion of an approved Earth Systems internship (EARTHSYS 260).
Terms: Win | Units: 3 | Grading: Letter (ABCD/NP)

EARTHSYS 276: Open Space Management Practicum (EARTHSYS 176)

The unique patchwork of urban-to-rural land uses, property ownership, and ecosystems in our region poses numerous challenges and opportunities for regional conservation and environmental stewardship. Students in this class will address a particular challenge through a faculty-mentored research project engaged with the East Bay Regional Parks District. Grass Roots Ecology or the Amah Mutsun Land Trust that focuses on open space management. By focusing on a project driven by the needs of these organizations and carried out through engagement with the community, and with thorough reflection, study, and discussion about the roles of scientific, economic, and policy research in local-scale environmental decision-making, students will explore the underlying challenges and complexities of what it means to actually do community-engaged research for conservation and open space preservation in the real world. As such, this course will provide students with skills and experience in research design in conservation biology and ecology, community and stakeholder engagement, land use policy and planning, and the practical aspects of land and environmental management.nnAll students must complete the course application and turn it into Rachel Engstrand (rce212@stanford.edu) and Briana Swette (bswette@stanford.edu) by email. To receive priority consideration and an enrollment code, please submit the application by Monday September 10th, 2018. The course application consists of a short paragraph about your background and interest in and preparation for working on a real-world community-engaged earth systems project. The total course enrollment is necessarily limited by the project-based nature of the class.
Terms: Aut | Units: 4-5 | Grading: Letter or Credit/No Credit

EDUC 470: Practicum

For advanced graduate students. (all areas)
Terms: Aut, Win, Spr, Sum | Units: 1-15 | Repeatable for credit | Grading: Letter or Credit/No Credit
Instructors: ; Alvarado, A. (PI); Antonio, A. (PI); Ardoin, N. (PI); Atkin, J. (PI); Aukerman, M. (PI); Ball, A. (PI); Barron, B. (PI); Bettinger, E. (PI); Blikstein, P. (PI); Booker, A. (PI); Bridges, E. (PI); Brown, B. (PI); Brown, N. (PI); Bryk, T. (PI); Calfee, R. (PI); Callan, E. (PI); Carnoy, M. (PI); Cuban, L. (PI); Damon, W. (PI); Darling-Hammond, L. (PI); Davis, S. (PI); Eisner, E. (PI); Fogg, B. (PI); Gage, N. (PI); Goldman, S. (PI); Gordon, L. (PI); Greeno, J. (PI); Grossman, P. (PI); Gumport, P. (PI); Haertel, E. (PI); Hakuta, K. (PI); Hanushek, E. (PI); Heath, S. (PI); Juel, C. (PI); Kamil, M. (PI); Kennedy, D. (PI); Kirst, M. (PI); Krumboltz, J. (PI); LaFromboise, T. (PI); Labaree, D. (PI); Levin, H. (PI); Lit, I. (PI); Loeb, S. (PI); Lotan, R. (PI); Lythcott, J. (PI); March, J. (PI); Martinez, A. (PI); Massy, W. (PI); McDermott, R. (PI); McFarland, D. (PI); McLaughlin, M. (PI); Mendoza-Newman, M. (PI); Meyerson, D. (PI); Murata, A. (PI); Nasir, N. (PI); Noddings, N. (PI); Olkin, I. (PI); Padilla, A. (PI); Pea, R. (PI); Perez-Granados, D. (PI); Phillips, D. (PI); Pope, D. (PI); Porteus, A. (PI); Post, L. (PI); Powell, W. (PI); Ramirez, F. (PI); Reich, R. (PI); Rickford, J. (PI); Rogosa, D. (PI); Rohlen, T. (PI); Schwartz, D. (PI); Shavelson, R. (PI); Shulman, L. (PI); Simms, W. (PI); Spindler, G. (PI); Staklis, S. (PI); Stipek, D. (PI); Stout, F. (PI); Strober, M. (PI); Suarez, D. (PI); Thoresen, C. (PI); Tyack, D. (PI); Valdes, G. (PI); Walker, D. (PI); Weiler, H. (PI); Williamson, J. (PI); Willinsky, J. (PI); Wineburg, S. (PI); Wotipka, C. (PI); reardon, s. (PI)

ENERGY 203: The Energy Transformation Collaborative

Solving the global energy challenge will require the creation and successful scale-up of hundreds of new ventures. This project-based course provides a launchpad for the development and creation of transformational energy ventures and innovation models. Interdisciplinary teams will research, analyze, and develop detailed launch plans for high-impact opportunities in the context of the new energy venture development framework offered in this course.
Terms: Aut, Win, Spr | Units: 1-3 | Grading: Letter (ABCD/NP)

GEOPHYS 118X: Sustainable Urban Systems Fundamentals (ESS 118X, ESS 218X, GEOLSCI 118X, GEOLSCI 218X, GEOPHYS 218X, POLISCI 224X, PUBLPOL 118X)

This course is designed to provide students with fundamental mindsets and toolsets that they can apply to real-world problem solving in the context of urban systems. It focuses on fundamental quantitative and qualitative methods for acquiring knowledge and assessing performance of urban systems. Quantitative methods covered include geographic information systems, advanced Excel methods and basic statistics, and qualitative approaches will include stakeholder engagement as well as ethical guidelines governing work with community groups. The course will also introduce four key types of systems performance: well-being, sustainability, resilience and equity. Topics covered are those students can expect to encounter as they pursue their future careers. The course is also a prerequisite for participation in the Sustainable Urban Systems Projects which take place in Winter (CEE 224Y) and Spring (CEE 224Z). Those SUS Projects are designed to immerse student teams in current planning challenges through service to local public and private sector stakeholders; they will require high levels of self-driven learning, time commitment, professionalism, and collaboration. Open to undergraduate and graduate students in any major. For more information, visit http://sus.stanford.edu/courses.
Terms: Aut | Units: 3-5 | Grading: Letter (ABCD/NP)

GEOPHYS 218X: Sustainable Urban Systems Fundamentals (ESS 118X, ESS 218X, GEOLSCI 118X, GEOLSCI 218X, GEOPHYS 118X, POLISCI 224X, PUBLPOL 118X)

This course is designed to provide students with fundamental mindsets and toolsets that they can apply to real-world problem solving in the context of urban systems. It focuses on fundamental quantitative and qualitative methods for acquiring knowledge and assessing performance of urban systems. Quantitative methods covered include geographic information systems, advanced Excel methods and basic statistics, and qualitative approaches will include stakeholder engagement as well as ethical guidelines governing work with community groups. The course will also introduce four key types of systems performance: well-being, sustainability, resilience and equity. Topics covered are those students can expect to encounter as they pursue their future careers. The course is also a prerequisite for participation in the Sustainable Urban Systems Projects which take place in Winter (CEE 224Y) and Spring (CEE 224Z). Those SUS Projects are designed to immerse student teams in current planning challenges through service to local public and private sector stakeholders; they will require high levels of self-driven learning, time commitment, professionalism, and collaboration. Open to undergraduate and graduate students in any major. For more information, visit http://sus.stanford.edu/courses.
Terms: Aut | Units: 3-5 | Grading: Letter (ABCD/NP)

URBANST 164: Sustainable Cities (EARTHSYS 160)

Service-learning course that exposes students to sustainability concepts and urban planning as a tool for determining sustainable outcomes in the Bay Area. Focus will be on the relationship of land use and transportation planning to housing and employment patterns, mobility, public health, and social equity. Topics will include government initiatives to counteract urban sprawl and promote smart growth and livability, political realities of organizing and building coalitions around sustainability goals, and increasing opportunities for low-income and communities of color to achieve sustainability outcomes. Students will participate in team-based projects in collaboration with local community partners and take part in significant off-site fieldwork. Prerequisites: consent of the instructor. (Cardinal Course certified by the Haas Center.)
Terms: Aut | Units: 4-5 | UG Reqs: WAY-ED, WAY-SI | Repeatable for credit | Grading: Letter or Credit/No Credit
Instructors: ; Chan, D. (PI)
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