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81 - 90 of 235 results for: all courses

EE 14N: Things about Stuff

Preference to freshmen. The stories behind disruptive inventions such as the telegraph, telephone, wireless, television, transistor, and chip are as important as the inventions themselves, for they elucidate broadly applicable scientific principles. Focus is on studying consumer devices; projects include building batteries, energy conversion devices and semiconductors from pocket change. Students may propose topics and projects of interest to them. The trajectory of the course is determined in large part by the students themselves.
Terms: Aut | Units: 3 | UG Reqs: GER:DB-EngrAppSci, WAY-SMA
Instructors: Lee, T. (PI)

EE 21N: Making at the nanometer scale: A journey into microchips

Have you ever wondered what is inside your phone and your computer? What physical events happen in between the time you press the 'search' button and the information shows up on the screen? In this course, we start with the classic paper by Richard Feynman, "There's Plenty of Room at the Bottom," which laid down a challenge to the nanotechnologists. Today's microchips are nanotechnology in action. Transistors are nanometer scale. We will introduce students to the tools of nanotechnologists and the basic elements of nanoscale science and engineering such as nanotubes, nanowires, nanoparticles, and self-assembly. We will visit nanotechnology laboratories to consolidate our learning, go into the Stanford Nanofabrication Facility (SNF), and do a four-week project on nanofabrication. Hands-on laboratory work will be introduced (e.g., lithography, seeing things at the nanoscale using electron microscopes). We will learn how to build transistors from scratch and test them.
Terms: Win | Units: 3 | UG Reqs: GER:DB-EngrAppSci, WAY-SMA
Instructors: Wong, H. (PI)

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

EE 84N: From the Internet for People to the Internet of Things

Driven by the ubiquity of the Internet and advances in various technological fields, all aspects of the physical world in which we live are undergoing a major transformation. Underlying this transformation is a concept known as the Internet of Things (IoT) which envisions that every physical object in the world could be connected to the Internet. This concept is at the root of such developments as the fourth industrial revolution, precision agriculture, smart cities, intelligent transportation, home and building automation, precision medicine, etc. In this seminar, we trace back the origins of the IoT concept in terms of both the vision and pioneering work, identify the building blocks of an IoT system, and explore enabling technologies pertaining to the devices that get attached to things (possibly comprising sensors, actuators, and embedded systems) and the communications capabilities (RFID, Bluetooth, wireless sensor networks, Wi-Fi, Low Power WANs, cellular networks, vehicular communications). Students will apply the acquired knowledge to the design of IoT systems meeting specific objectives in various application domains.
Terms: Win | Units: 3
Instructors: Tobagi, F. (PI)

EMED 123N: Does Social Media Make Better Physicians?

Scientific knowledge doubles every 90 days. Physicians must quickly learn about recent discoveries to remain current in their chosen specialties. How does tech help doctors stay up-to-date? Twitter, Snapchat, lnstagram, and Face book are used to teach physicians and their patients. Online learning systems have replaced most textbooks and social media platforms are now vehicles to disseminate new knowledge. This seminar will explore the best ways to use technology in medical education, with a focus on the application of social media as a key instructional tool. Students will learn about the different stages of education required to become a physician and explore some of the challenges to continuing medical education. Class assignments will include the creation of health education infographics, reading and drafting posts for medical biogs, and critical analysis of medical podcasts. The course will be particularly interesting to pre-medical students who have a background in blogging or po more »
Scientific knowledge doubles every 90 days. Physicians must quickly learn about recent discoveries to remain current in their chosen specialties. How does tech help doctors stay up-to-date? Twitter, Snapchat, lnstagram, and Face book are used to teach physicians and their patients. Online learning systems have replaced most textbooks and social media platforms are now vehicles to disseminate new knowledge. This seminar will explore the best ways to use technology in medical education, with a focus on the application of social media as a key instructional tool. Students will learn about the different stages of education required to become a physician and explore some of the challenges to continuing medical education. Class assignments will include the creation of health education infographics, reading and drafting posts for medical biogs, and critical analysis of medical podcasts. The course will be particularly interesting to pre-medical students who have a background in blogging or pod casting, though such experiences or skills are not prerequisites for enrollment. Throughout the seminar, there will be an emphasis on the impact of digital scholarship. Students will have the opportunity to submit high-quality classwork for possible online publication on several medical education sites made available by the course instructor.
Terms: Win | Units: 3 | UG Reqs: WAY-CE
Instructors: Gisondi, M. (PI)

ENERGY 30N: Busting Energy Myths

Energy myths and misconceptions to better equip participants to understand a pathway for global energy transformation. Key concepts developed and employed include energy [kinetic, potential, chemical, thermal, etc.], power, heat, renewables, efficiency, transmission, and life cycle analysis. Throughout this seminar groups of students are challenged with "energy myths" and their task is to deconstruct these myths and convince their classmates in oral presentations that they have indeed done so. Emphasis is on critical and analytical thinking, problem solving and presentation.
Terms: Aut | Units: 3 | UG Reqs: WAY-SMA

ENGLISH 10Q: Technologies of Handwriting: History, Theory, Practice (DLCL 122Q)

Handwriting has a long history and significance. Think about Toni Morrison's diaries; a note by Einstein; a Laozi manuscript from the second century; Elizabeth I's poems; hieroglyphic laws; an electronic signature; a postcard from a friend. This course will investigate the history of handwriting, focusing on the importance of the technology and its digital aspects. We shall consider the training and physical efforts of scribes, and the transmission of knowledge, including that of traditionally oral cultures. We'll look at the development of western scripts, gain insight about materials and tools (from animal skin to reed pens) and learn calligraphy from an expert modern scribe, the better to understand the skill and aesthetic of this most everyday of technologies that, I shall argue, will outlive all others
Terms: Aut | Units: 3-5 | UG Reqs: WAY-A-II
Instructors: Treharne, E. (PI)

ENGLISH 11Q: Art in the Metropolis (ARTSINST 11Q, ARTSTUDI 11Q, FILMEDIA 11Q, MUSIC 11Q, TAPS 11Q)

This seminar is offered in conjunction with the annual "Arts Immersion" trip to New York that takes place over the spring break and is organized by the Stanford Arts Institute (SAI). Enrollment in this course is a requirement for taking part in the spring break trip. The program is designed to provide a group of students with the opportunity to immerse themselves in the cultural life of New York City guided by faculty and SAI staff. Students will experience a broad range and variety of art forms (visual arts, theater, opera, dance, etc.) and will meet with prominent arts administrators and practitioners, some of whom are Stanford alumni. In the seminar, we will prepare for the diverse experiences the trip affords and develop individual projects related to particular works of art, exhibitions, and performances that we'll encounter in person during the stay in New York. Class time will be divided between readings, presentations, and one studio based creative project. The urban setting in more »
This seminar is offered in conjunction with the annual "Arts Immersion" trip to New York that takes place over the spring break and is organized by the Stanford Arts Institute (SAI). Enrollment in this course is a requirement for taking part in the spring break trip. The program is designed to provide a group of students with the opportunity to immerse themselves in the cultural life of New York City guided by faculty and SAI staff. Students will experience a broad range and variety of art forms (visual arts, theater, opera, dance, etc.) and will meet with prominent arts administrators and practitioners, some of whom are Stanford alumni. In the seminar, we will prepare for the diverse experiences the trip affords and develop individual projects related to particular works of art, exhibitions, and performances that we'll encounter in person during the stay in New York. Class time will be divided between readings, presentations, and one studio based creative project. The urban setting in which the various forms of art are created, presented, and received will form a special point of focus. A principal aim of the seminar will be to develop aesthetic sensibilities through writing critically about the art that interests and engages us and making art. For further details please visit the Stanford Arts Institute website: https://arts.stanford.edu/for-students/academics/arts-immersion/new-york/
Terms: Win | Units: 3 | UG Reqs: WAY-A-II
Instructors: Berlier, T. (PI)

ENGLISH 13Q: Imaginative Realms

This class looks at the tradition of the imagined universe in fiction and poetry. Special topics include magical realism, artificial intelligence, and dystopias. Primary focus on giving students a skill set to tap into their own creativity. Opportunities for students to explore their creative strengths, develop a vocabulary with which to discuss their own creativity, and experiment with the craft and adventure of their own writing. For undergrads only.
Terms: Aut | Units: 3 | UG Reqs: WAY-CE
Instructors: Ekiss, K. (PI)

ENGLISH 15N: Wastelands

Have human beings ruined the world? Was it war, or industry, or consumerism, or something else that did it? Beginning with an in-depth exploration of some of the key works of literary modernism, this class will trace the image of the devastated landscape as it develops over the course of the 20th and 21st centuries, arriving finally at literary representations of the contemporary zombie apocalypse. Authors to include T.S Eliot, Ernest Hemingway, Nathanael West, Willa Cather, Cormac McCarthy, and others.
Terms: Win | Units: 3 | UG Reqs: WAY-A-II
Instructors: McGurl, M. (PI)
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