2019-2020 2020-2021 2021-2022 2022-2023 2023-2024
Browse
by subject...
    Schedule
view...
 

1 - 10 of 235 results for: all courses

AA 107N: How to Shoot for the Moon (DESIGN 187N)

The new space industry has the potential to impact and sustain life on Earth and beyond. For example, emerging space technology can shape the way we design habitats, food, and spacecraft for low-Earth orbit or the Lunar surface, as well as the products we use here on Earth. However, this requires us to take a deeper look at the potential influence on humanity and pushes us to declare our life mission as a lens for what we engineer. The aim of this IntroSem is to help undergraduate students "shoot for the moon" and "declare their mission" via an integration of curriculum from aerospace engineering and human-centered design. In this 10-week course, students will engage with some of life's hardest questions: Who are you?; Why are you here (i.e., on Earth and at Stanford)?; What do you want?; and How will you get there (i.e., Mars or your dream job after Stanford)? In addition, students will pitch new space-related, human-centered technology to potential stakeholders. To give students exposure to actual careers in aerospace design and engineering, mentors from industry will be invited to engage with students throughout the course and provide feedback on design projects. Are you go for launch?
Terms: Spr | Units: 3

AA 114Q: Large Spacecraft Structures

In space, large structures are often advantageous - large solar arrays are required for collecting solar power and allowing spacecraft to operate in deep space, large diameter telescopes allow us to explore the origins of our universe, and large antennas allow us to track climate change and get large amounts of data back down to Earth. However, our ability to get large structures into space is limited by the size of modern rocket fairings, causing large space structures to be designed very differently from those on Earth. This seminar focuses on the design principles used by aerospace engineers to realize large space structures. Over the quarter, we will discuss techniques for deployable space structures folded on the ground and unfolded in orbit including origami, foldable thin structures, and inflatables. The seminar will also introduce students to current developments in space structures such as on-orbit assembly, in-space manufacturing, and reconfigurable space structures. We will more »
In space, large structures are often advantageous - large solar arrays are required for collecting solar power and allowing spacecraft to operate in deep space, large diameter telescopes allow us to explore the origins of our universe, and large antennas allow us to track climate change and get large amounts of data back down to Earth. However, our ability to get large structures into space is limited by the size of modern rocket fairings, causing large space structures to be designed very differently from those on Earth. This seminar focuses on the design principles used by aerospace engineers to realize large space structures. Over the quarter, we will discuss techniques for deployable space structures folded on the ground and unfolded in orbit including origami, foldable thin structures, and inflatables. The seminar will also introduce students to current developments in space structures such as on-orbit assembly, in-space manufacturing, and reconfigurable space structures. We will examine the materials used in these structures, overview mathematical principles used for their design, and learn from past failures of deployable structures. The seminar will allow students to delve deeper into the concepts with hands-on experimentation, analysis of existing space structures (ex. James Webb, the ISS solar arrays, and CubeSat missions), and will allow students to practice written and oral communication skills.By the end of the course students will be able to:Explain the need for large space structures.Identify and compare the engineering approaches for the realization of large space structures.Analyze the challenges associated with large space structures.Design space structures using simple numerical models.
Terms: Aut | Units: 3 | UG Reqs: WAY-AQR
Instructors: Sakovsky, M. (PI)

AA 115Q: The Global Positioning System: Where on Earth are We, and What Time is It?

Preference to freshmen. Why people want to know where they are: answers include cross-Pacific trips of Polynesians, missile guidance, and distraught callers. How people determine where they are: navigation technology from dead-reckoning, sextants, and satellite navigation (GPS). Hands-on experience. How GPS works; when it does not work; possibilities for improving performance.
Terms: Win | Units: 3 | UG Reqs: GER:DB-EngrAppSci, WAY-AQR
Instructors: Lo, S. (PI)

AMSTUD 51Q: Comparative Fictions of Ethnicity (COMPLIT 51Q, CSRE 51Q)

Explorations of how literature can represent in complex and compelling ways issues of difference--how they appear, are debated, or silenced. Specific attention on learning how to read critically in ways that lead one to appreciate the power of literary texts, and learning to formulate your ideas into arguments. Course is a Sophomore Seminar and satisfies Write2. By application only
Terms: Spr | Units: 5 | UG Reqs: Writing 2, WAY-A-II, GER:DB-Hum, WAY-EDP

AMSTUD 54N: African American Women's Lives (HISTORY 54N)

This course encourages students to think critically about historical sources and to use creative and rigorous historical methods to recover African American women's experiences, which often have been placed on the periphery of American history and American life.
Terms: Spr | Units: 3 | UG Reqs: WAY-A-II, GER:EC-Gender, GER:DB-Hum, WAY-EDP
Instructors: Hobbs, A. (PI)

AMSTUD 104Q: Picturing Americans

What do pictures reveal about individuals and their social, cultural, and historical world? Who or what might they conceal? This seminar uses visual depictions of Americans (paintings, photographs, films, comics, and more) as the starting point for discussions of American history, art, popular culture, social movements, and national identity, as well as questions of who has been represented and who has been overlooked. Literary and historical texts support and complement the close study of pictures from the late 19th century through the present.
Terms: Aut | Units: 3 | UG Reqs: WAY-A-II
Instructors: Kessler, E. (PI)

AMSTUD 126Q: California Dreaming

'A place belongs forever to whoever claims it hardest,' writes Joan Didion, 'remembers it most obsessively, wrenches it from itself, shapes it, renders it, loves it so radically that he remakes it in his image.' From the Gold Rush to Hollywood to Silicon Valley, Yosemite to the Salton Sea, in this course we'll encounter a series of writers and artists whose work is set in California, or participates in its imagining, and throughout consider how culture and a sense of place are closely related. How does a novel, photograph, or film conjure a landscape or community? When we think of California, whose stories are included, and whose are left out? Possible texts: works by Mary Austin, Cesar Chavez, Mike Davis, the Depression-era Federal Writers Project, Rebecca Solnit, and John Steinbeck; films: Sunset Boulevard, Clueless, and There Will Be Blood; and the art of Carlton Watkins, Dorothea Lange, Richard Misrach, and Chiura Obata. For the final paper, students will write about a California place of their choice.
Terms: Aut | Units: 3 | UG Reqs: WAY-A-II
Instructors: Bolten, R. (PI)

ANES 70Q: Critical Illness: Patients, Physicians, and Society

Examines the various factors involved in shaping the critical care illness experience for three groups of people: the clinicians, the patients, and patients' families. Medical issues, economic forces and cost concerns, cultural biases, and communication errors can all influence one's perception. Helps students understand the arc of critical illness, and how various factors contribute to the interactions between those various groups. Includes an immersion experience (students are expected to round with clinicians in the ICU and to attend Schwartz rounds, a debriefing meeting about difficult emotional situation) and a mentoring experience (with critical care fellows), in addition to routine class work.
Terms: Spr | Units: 3

ANES 72Q: The Art of Medical Diagnosis

The Art of Medical Diagnosis: Enhancing Observational Skills through the Study of Art is an interactive, multidisciplinary undergraduate course that explores various ways in which studying art increases critical observational skills vital for aspiring health care providers. Students will be introduced to the concept of `Visual Thinking Strategies' through classroom, art creation, and museum based activities. Students will apply these skills to both works of art and medical cases. Significant focus will be on engaging in group discussions where they will collaboratively use visual evidence to generate and defend hypothesis. Drawing and sketching from life will play a critical role in honing observational skills through weekly assignments, workshops, and a final project. The interactive nature of this course pivots students away from a typical lecture based course to a self-directed learning experience.
Terms: Spr | Units: 3 | UG Reqs: WAY-CE

ANES 74Q: Mending a broken heart: The Anatomy, Physiology and Psychology of congenital heart disease

Congenital heart defects are the most common type of birth defects and with improvements in surgical techniques and medical care these babies are living longer and healthier lives. Data indicates that approximately 1 million US children and 1.2million US adults are living with congenital heart disease. Treating congenital heart disease requires an intimate understanding of complex embryology, anatomy and physiology. In this seminar we will look at the fascinating spectrum of anatomical changes that occur in some common congenital heart defects and how these changes can be corrected with various surgical procedures and medical care. Lectures will draw from real patient cases and students will have the opportunity to visit the Stanford Anatomy Lab, engage with virtual reality models of the heart, learn the basics of cardiac ultrasound, and hear from some of the frontline anesthesiologists, surgeons, cardiologists and patients who straddle the line between life and death on a daily basis.
Terms: Win | Units: 3
Filter Results:
term offered
updating results...
teaching presence
updating results...
number of units
updating results...
time offered
updating results...
days
updating results...
UG Requirements (GERs)
updating results...
component
updating results...
career
updating results...
© Stanford University | Terms of Use | Copyright Complaints