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31 - 40 of 235 results for: all courses

BIOE 32Q: Bon Appétit, Marie Curie! The Science Behind Haute Cuisine

This seminar is for anyone who loves food, cooking or science! We will focus on the science and biology behind the techniques and the taste buds. Not a single lecture will pass by without a delicious opportunity - each weekly meeting will include not only lecture, but also a lab demonstration and a chance to prepare classic dishes that illustrate that day's scientific concepts.
Terms: Sum | Units: 3

BIOE 70Q: Medical Device Innovation

BIOE 70Q invites students to apply design thinking to the creation of healthcare technologies. Students will learn about the variety of factors that shape healthcare innovation, and through hands-on design projects, invent their own solutions to clinical needs. Guest instructors will include engineers, doctors, entrepreneurs, and others who have helped bring ideas from concept to clinical use.
Terms: Spr | Units: 3 | UG Reqs: WAY-CE

BIOE 72N: Pathophysiology and Design for Cardiovascular Disease

Future physicians, social and biological scientists, and engineers will be the core of teams that solve major problems threatening human health. Bridging these diverse areas will require thinkers who can understand human biology and also think broadly about approaching such challenges. Focusing on heart disease, students in this seminar will learn about the multi-factorial problems leading to the leading cause of death in the U.S., along with how to apply design thinking to innovate in the context of healthcare.
Terms: Spr | Units: 3 | UG Reqs: WAY-SMA

CEE 11Q: Sustainability Design Thinking

How can we create high-impact solutions to our planet's most pressing sustainability challenges? And can we use Design Thinking to come up with creative, feasible, and impactful ideas that will promote sustainability in peoples' lives? This seminar and design studio introduces techniques for applying the Design Thinking methodology (pioneered at Stanford's d.School) to create design ideas that are compelling, effective, and realizable. You'll have opportunities to explore and experience how the design thinking methodology can be applied to solve real-world sustainability challenges through a series of design projects where you will exercise and apply design thinking skills to design and propose solutions that promote sustainable behaviors and practices. You will apply contextual, functional and human-centered design thinking techniques to create design ideas that promote sustainability by holistically considering space, form, environment, energy, economics, human behavior, and health. more »
How can we create high-impact solutions to our planet's most pressing sustainability challenges? And can we use Design Thinking to come up with creative, feasible, and impactful ideas that will promote sustainability in peoples' lives? This seminar and design studio introduces techniques for applying the Design Thinking methodology (pioneered at Stanford's d.School) to create design ideas that are compelling, effective, and realizable. You'll have opportunities to explore and experience how the design thinking methodology can be applied to solve real-world sustainability challenges through a series of design projects where you will exercise and apply design thinking skills to design and propose solutions that promote sustainable behaviors and practices. You will apply contextual, functional and human-centered design thinking techniques to create design ideas that promote sustainability by holistically considering space, form, environment, energy, economics, human behavior, and health. Working independently and in small teams, you will propose designs that meet the needs of real users and illustrate your strategies for approaching the challenges and opportunities you uncover ? developing project ideas that demonstrate how you've used the design thinking process to make a measurable impact on improving sustainable behaviors and practices.
Terms: Spr | Units: 3
Instructors: Katz, G. (PI)

CEE 31Q: Accessing Architecture Through Drawing

Preference to sophomores. Drawing architecture provides a deeper understanding of the intricacies and subtleties that characterize contemporary buildings. How to dissect buildings and appreciate the formal elements of a building, including scale, shape, proportion, colors and materials, and the problem solving reflected in the design. Students construct conventional architectural drawings, such as plans, elevations, and perspectives. Limited enrollment.
Terms: Aut | Units: 5 | UG Reqs: GER:DB-EngrAppSci, WAY-CE
Instructors: Barton, J. (PI)

CEE 32Q: Place: Making Space Now

This seminar argues that architeccts are ultimately "placemakers," and questions what that means in the contemporary world. Part I investigates the meaning of the word "place." Additional background for understanding contemporary place making will include a critique of the history of modern place-making through an examination of modern form. Part II examines two traditional notions of place by scale: from "home" to "the city." What elements give these conceptions of space a sense of place? To answer this question, themes such as memory, mapping, and boundary, among others, will be investigated. part III presents challenges to the traditional notions of place discussed in Part II. Topics addressed include: What does it mean to be "out of place"? What sense of place does a nomad have, and how is this represented? What are the "non-places" and how can architects design for these spaces? Part IV addresses the need to re-conceptualize contemporary space. The role of digital and cyber techno more »
This seminar argues that architeccts are ultimately "placemakers," and questions what that means in the contemporary world. Part I investigates the meaning of the word "place." Additional background for understanding contemporary place making will include a critique of the history of modern place-making through an examination of modern form. Part II examines two traditional notions of place by scale: from "home" to "the city." What elements give these conceptions of space a sense of place? To answer this question, themes such as memory, mapping, and boundary, among others, will be investigated. part III presents challenges to the traditional notions of place discussed in Part II. Topics addressed include: What does it mean to be "out of place"? What sense of place does a nomad have, and how is this represented? What are the "non-places" and how can architects design for these spaces? Part IV addresses the need to re-conceptualize contemporary space. The role of digital and cyber technologies, the construction of locality in a global world, and the in-between places that result from a world in flux are topics discussed in this section of the seminar. Learning goals: Specific goals include clsoe reading of texts, understanding of philosophical thinking and writing, argument under uncertainty, and developed concepts of place, space and architecture.
Terms: Spr | Units: 3 | UG Reqs: WAY-A-II

CEE 33Q: Studio 1: Architecture - Space, Light, and Movement

This introductory architectural design course in the studio core sequence leads students through a series of spatial design exercises. Students will explore the fundamental principles of architectural design through drawing, model making, analysis, craft, organizational systems, narrative, movement, light, form, and scale. Students will also explore architecture on campus, taking their personal experience as a point of departure for the design investigations. We build models exploring spatial arrangements and configurations, learn to draw plans, develop craftsmanship building models, visit buildings around campus, and design a house for a visiting scholar. Most importantly we learn to engage and foster creativity. Many of the best architects and designers maintain a child-like sense of wonder. We all have it, but sometimes this may get de-emphasized as one moves along in their journey of education. We work together to spark and engage that curiosity to design dynamic spaces that relate to the human body. The course is 5 units and requires a significant amount of time. That said it is fun and engaging experience.
Terms: Spr | Units: 5
Instructors: Wood, E. (PI)

CEE 34N: Wind Energy Explained

Transformation of the energy economy depends on developing reliable and robust sources of alternative and renewable energy. This seminar introduces the theory, design, and application of wind energy technologies. The study of wind energy spans across a wide range of fields. To successfully deploy wind energy and other alternative technologies, we will need to converge across many knowledge domains, including civil, environmental, electrical, and mechanical engineering in addition to social science and public policy, among many others. Through this interdisciplinary course, we will learn about modern wind energy and its origins. We will explore the many facets of wind energy, including the characteristics of regional wind; aerodynamics, mechanics, and structural dynamics of wind turbine design; wind turbine control and integration with electrical systems; and environmental and economic aspects and impacts. Although this seminar seeks to explain wind energy, the topics covered can be applied to many other problems in engineering. This course will provide an introduction on how to find solutions to multi-disciplinary problems. True innovation lies on the border between fields. In this course, we will explore how to make these solutions a reality.
Terms: Win | Units: 3 | UG Reqs: WAY-SMA

CEE 41Q: Clean Water Now! Urban Water Conflicts

Why do some people have access to as much safe, clean water as they need, while others do not? You will explore answers to this question by learning about, discussing and debating urban water conflicts including the Flint water crisis, the drought in South Africa, intermittent water supply in Mumbai, and arsenic contamination in Bangladesh. In this course, you will explore the technical, economic, institutional, social, policy, and legal aspects of urban water using these and more water conflicts as case studies. You will attend lectures, and participate in discussions, laboratory modules, and field work. In lectures, you will learn about the link between water and human and ecosystem health, drinking water and wastewater treatment methods, as well as policies and guidelines (local, national, and global from the World Health Organization) on water and wastewater, and the role of various stakeholders including institutions and the public, in the outcome of water conflicts. You will dive more »
Why do some people have access to as much safe, clean water as they need, while others do not? You will explore answers to this question by learning about, discussing and debating urban water conflicts including the Flint water crisis, the drought in South Africa, intermittent water supply in Mumbai, and arsenic contamination in Bangladesh. In this course, you will explore the technical, economic, institutional, social, policy, and legal aspects of urban water using these and more water conflicts as case studies. You will attend lectures, and participate in discussions, laboratory modules, and field work. In lectures, you will learn about the link between water and human and ecosystem health, drinking water and wastewater treatment methods, as well as policies and guidelines (local, national, and global from the World Health Organization) on water and wastewater, and the role of various stakeholders including institutions and the public, in the outcome of water conflicts. You will dive into details of conflicts over water through case studies using discussion and debate. You will have the opportunity to measure water contaminants in a laboratory module. You will sample a local stream and measure concentrations of Escherichia coli and enterococci bacteria in the water. A field trip to a local wastewater treatment plant will allow you to see how a plant operates. By the end of this course, you will have a greater appreciation of the importance of institutions, stakeholders and human behavior in the outcome of water conflicts, and the complexity of the coupled human-ecosystem-urban water system.
Terms: Win | Units: 3 | UG Reqs: WAY-AQR, WAY-SI

CEE 80N: Engineering the Built Environment: An Introduction to Structural Engineering

In this seminar, students will be introduced to the history of modern bridges, buildings and other large-scale structures. Classes will include presentations on transformations in structural design inspired by the development of new materials, increased understanding of hazardous overloads and awareness of environmental impacts. Basic principles of structural engineering and how to calculate material efficiency and structural safety of structural forms will be taught using case studies. The course will include a field trip to a Bay Area large-scale structure, hands-on experience building a structure, computational modeling of bridges, and a paper and presentation on a structure or structural form of interest to the student. The goal of this course is for students to develop an understanding and appreciation of modern structures, influences that have led to new forms, and the impact of structural design on society and the environment. Students from all backgrounds are welcome.
Terms: Win | Units: 3 | UG Reqs: WAY-AQR
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