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21 - 30 of 333 results for: all courses

ARCHLGY 180: Investigating Ancient Materials (ANTHRO 180B, ANTHRO 280B, ARCHLGY 280, MATSCI 127, MATSCI 227)

If you wish to enroll, please use the linked form to request instructor consent: https://tinyurl.com/AncientMaterials - This course examines how concepts and methods from materials science are applied to the analysis of archaeological artifacts, with a focus on artifacts made from inorganic materials (ceramics and metals). Coverage includes chemical analysis, microscopy, and testing of physical properties, as well as various research applications within anthropological archaeology. Students will learn how to navigate the wide range of available analytical techniques in order to choose methods that are appropriate to the types of artifacts being examined and that are capable of answering the archaeological questions being asked. ----- If you wish to enroll, please use the linked form to request instructor consent: https://tinyurl.com/AncientMaterials For full consideration, this form must be submitted by Monday, September 4th.
Terms: Aut | Units: 3-4 | UG Reqs: WAY-SI, WAY-SMA
Instructors: Chastain, M. (PI)

ARCHLGY 189: Physical Analysis of Artworks (APPPHYS 189, APPPHYS 389)

Students explore the use of Stanford Nano Shared Facilities (SNSF) for physical analysis of material samples of interest for art conservation, technical art history and archaeology. Weekly SNSF demonstrations will be supplemented by lectures on intellectual context by Stanford faculty/staff and conservators from the Fine Arts Museums of San Francisco (FAMSF). Students will undertake analysis projects derived from ongoing conservation efforts at FAMSF, including training on the use of relevant SNSF instruments and data analysis.
Terms: Win | Units: 3 | UG Reqs: WAY-AQR, WAY-SMA
Instructors: Mabuchi, H. (PI)

ARTSINST 100: The Questions of Clay: Craft, Creativity and Scientific Process (APPPHYS 100)

Students will create individual studio portfolios of ceramic work and pursue technical investigations of clay properties and the firing process using modern scientific equipment. Emphasis on development of creative process; parallels between science and traditional craft; integration of creative expression with scientific method and analysis. Prior ceramics experience desirable but not necessary. Limited enrollment. Prerequisites: any level of background in physics, Instructor permission.
Last offered: Spring 2020 | UG Reqs: WAY-CE, WAY-SMA

BIO 2N: Ecology and Evolution of Infectious Disease in a Changing World

This seminar will explore the ways in which anthropogenic change, climate change, habitat destruction, land use change, and species invasions effects the ecology and evolution of infectious diseases. Topics will include infectious diseases of humans, wildlife, livestock, and crops, effects of disease on threatened species, disease spillover, emerging diseases, and the role of disease in natural systems. Course will be taught through a combination of popular and scientific readings, discussion, and lecture. .
Last offered: Spring 2023 | UG Reqs: WAY-SMA

BIO 5N: Ants

Collective behavior, widespread in nature, operates without central control, using interactions among the participants. Ant colonies provide great opportunities to learn about collective behavior. Colonies consist of one or more reproductive females, which although they are called 'queens' do not direct the behavior of the rest of the colony, comprised of sterile female workers. Ants as a group are enormously diverse, with more than 14,000 species in every habitat on earth, and they show very diverse forms of collective behavior reflecting different ecological conditions. The course will include discussion of research about ant colony behavior, ecology, and evolution; a research project on campus involving observation and hypothesis testing; and, for the technologically-inclined, some simple simulations based on agent-based modeling.
Last offered: Winter 2023 | UG Reqs: WAY-SMA

BIO 8N: Human Origins

A survey of the anatomical and behavioral evidence for human evolution and of the increasingly important information from molecular genetics. Emphasis on the split between the human and chimpanzee lines 6-7 million years ago, the appearance of the australopiths by 4.1 million years ago, the emergence of the genus Homo about 2.5 million years ago, the spread of Homo from Africa 1.7-1.6 million years ago, the subsequent divergence of Homo into different species on different continents, and the expansion of fully modern humans (Homo sapiens) from Africa about 50,000 years ago to replace the Neanderthals and other non-modern Eurasians.
Last offered: Winter 2023 | UG Reqs: GER: DB-NatSci, WAY-SMA

BIO 9N: Chilis: Biology, History, Travels, Cuisine

Chili peppers are used worldwide. They are grown in astonishing variety even though they are used most often to flavor food. Yet the first chile peppers evolved in what Europeans call the New World (Central and South America). How do we know chilis came from the New World? How did they get to Europe, Africa, India, China? How did chilis become an integral part of so many cuisines? What forms of chili pepper do we find around the world?
Terms: Spr | Units: 3 | UG Reqs: WAY-SMA

BIO 11S: Microbiology: Human Health & Society

This course covers the fundamentals of microbiology and encompasses the tiny world of microbes (bacteria, archaea, fungi, viruses, and more). How have microbes impacted human health and society? It turns out that we cannot live without microbes, but we also have first-hand experience over the last few years of just how deadly and life-altering microbes can be! In exploring microbiology, we will take a multi-disciplinary approach combining molecular genetics (how gene expression is regulated in both prokaryotes and eukaryotes), biochemistry, and immunology. We will also explore key advances in biotechnology that have been made possible through our discovery of microbes and how they work including cloning, PCR, and CRISPR. This course will offer a laboratory component to allow students hands-on experience observing and working with bacteria and small eukaryotes and experimental design.
Terms: Sum | Units: 5 | UG Reqs: WAY-SMA
Instructors: Yamada, S. (PI)

BIO 12N: Sensory Ecology of Marine Animals (OCEANS 12N)

Animals living in the oceans experience a highly varied range of environmental stimuli. An aquatic lifestyle requires an equally rich range of sensory adaptations, including some that are totally foreign to us. In this course we will examine sensory system in marine animals from both an environmental and behavioral perspective and from the point of view of neuroscience and information systems engineering.
Terms: Aut | Units: 3 | UG Reqs: WAY-SMA
Instructors: Thompson, S. (PI)

BIO 25Q: Cystic fibrosis: from medical conundrum to precision medicine success story

The class will explore cystic fibrosis (CF), the most prevalent fatal genetic disease in the US, as a scientific and medical whodunit. Through reading and discussion of medical and scientific literature, we will tackle questions that include: how was life expectancy with CF increased from weeks to decades without understanding the disease mechanism? Why is the disease so prevalent? Is there an advantage to being a carrier? Is CF a single disease or a continuum of physiological variation; or- what is a disease? How did research into CF lead to discovery of the underlying cause of most other genetic diseases as well? Through critical reading of the scientific and medical literature, class discussion, field trips and meetings with genetic counselors, caregivers, patients, physicians and researchers, we will work to build a deep understanding of this disease, from the biochemical basis to the current controversies over pathogenic mechanisms, treatment strategies and the ethics and economics of genetic testing and astronomical drug costs.
Terms: Win | Units: 3 | UG Reqs: GER: DB-NatSci, WAY-SMA
Instructors: Kopito, R. (PI)
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