printer friendly pageCEE 50N: Multi-Disciplinary Perspectives on a Large Urban Estuary: San Francisco Bay (EARTHSYS 49N, EESS 49N)
This course will be focused around San Francisco Bay, the largest estuary on the Pacific coasts of both North and South America as a model ecosystem for understanding the critical importance and complexity of estuaries. Despite its uniquely urban and industrial character, the Bay is of immense ecological value and encompasses over 90% of California's remaining coastal wetlands. Students will be exposed to the basics of estuarine biogeochemistry, microbiology, ecology, hydrodynamics, pollution, and ecosystem management/restoration issues through lectures, interactive discussions, and field trips. Knowledge of introductory biology and chemistry is recommended.
Terms: Spr
| Units: 3
Instructors:
Francis, C. (PI)
;
Monismith, S. (PI)
CHEM 24N: Nutrition and History
Preference to freshmen. Intended to broaden the introductory chemistry experience. The biochemical basis of historically important nutritional deficiencies (vitamins, minerals, starvation, metabolic variants that predispose to disease) and environmental toxins is related to physiological action and the sociological, political, and economic consequences of its effect on human populations. Prerequisite: high school chemistry. Recommended: 31A,B, or 31X, or 33.
Terms: Spr
| Units: 3
Instructors:
Huestis, W. (PI)
CHEM 25N: Science in the News
Preference to freshmen. Possible topics include: diseases such as avian flu, HIV, and malaria; environmental issues such as climate change, atmospheric pollution, and human population; energy sources in the future; evolution; stem cell research; nanotechnology; and drug development. Focus is on the scientific basis for these topics as a basis for intelligent discussion of societal and political implications. Sources include the popular media and scientific media for the nonspecialist, especially those available on the web.
Terms: Aut
| Units: 3
| UG Reqs: WAY-SMA
Instructors:
Andersen, H. (PI)
CHEM 25Q: Science-in-Theatre: A New Genre? (TAPS 25Q)
Preference to sophomores. Contrasts through selected "science-in-theatre" plays what Theatre can do for science compared to what Science occasionally does for the theatre as well as emphasizing in that regard some unique features of the theatre compared to films. Illustrates why more intellectually challenging "science-in-theatre" plays have appeared in recent times where scientific behavior and scientists are presented accurately rather than just as Frankensteins, Strangeloves or nerds. Students engage in a playwriting experiment.
Terms: Win
| Units: 3
Instructors:
Djerassi, C. (PI)
CHEM 26N: The What, Why, How and wow's of Nanotechnology
Preference to freshmen. Introduction to nanotechnology with discussion of basic science at the nanoscale, its difference from molecular and macroscopic scales, and implications and applications. Developments in nanotechnology in the past two decades, from imaging and moving single atoms on surfaces to killing cancer cells with nanoscale tools and gadgets.
Terms: Spr
| Units: 3
| UG Reqs: GER: DB-NatSci
Instructors:
Dai, H. (PI)
CHEM 27N: Light and Life
Preference given to freshmen. Light plays a central role in many biological processes. In this course, we will discuss the nature of light, how it is measured, how it is generated in the laboratory, how molecules are excited, and the fate of this excitation in biological chromophores. We will take a chemical perspective on the molecules that absorb and emit light in biological systems, focusing on the "primary" light-driven processes of electron transfer, proton transfer, energy transfer, and isomerization.
Chem 31X or 31A preferred, but not required.
Terms: Win
| Units: 3
Instructors:
Boxer, S. (PI)
CHEMENG 60Q: Environmental Regulation and Policy
Preference to sophomores. How environmental policy is formulated in the U.S. How and what type of scientific research is incorporated into decisions. How to determine acceptable risk, the public's right to know of chemical hazards, waste disposal and clean manufacturing, brownfield redevelopment, and new source review regulations. The proper use of science and engineering including media presentation and misrepresentation, public scientific and technical literacy, and emotional reactions. Alternative models to formulation of environmental policy. Political and economic forces, and stakeholder discussions.
Terms: Aut
| Units: 3
| UG Reqs: GER:DB-EngrAppSci, WAY-AQR
Instructors:
Libicki, S. (PI)
CHEMENG 70Q: Masters of Disaster
Preference to sophomores. For students interested in science, engineering, politics, and the law. Learn from past disasters to avoid future ones. How disasters can be tracked to failures in the design process. The roles of engineers, artisans, politicians, lawyers, and scientists in the design of products. Failure as rooted in oversight in adhering to the design process. Student teams analyze real disasters and design new products presumably free from the potential for disastrous outcomes.
Terms: Aut
| Units: 3
| UG Reqs: GER:DB-EngrAppSci, WAY-AQR
Instructors:
Moalli, J. (PI)
CHEMENG 80Q: Art, Chemistry, and Madness: The Science of Art Materials
Preference to sophomores. Chemistry of natural and synthetic pigments in five historical palettes: earth (paleolithic), classical (Egyptian, Greco-Roman), medieval European (Middle Ages), Renaissance (old masters), and synthetic (contemporary). Composite nature of paints using scanning electron microscopy images; analytical techniques used in art conservation, restoration, and determination of provenance; and inherent health hazards. Paintings as mechanical structures. Hands-on laboratory includes stretching canvas, applying gesso grounds, grinding pigments, preparing egg tempera paint, bamboo and quill pens, gilding and illumination, and papermaking.
Terms: Spr
| Units: 3
| UG Reqs: GER:DB-EngrAppSci, WAY-SMA
Instructors:
Frank, C. (PI)
;
Loesch-Frank, S. (PI)
CHEMENG 35N: Renewable Energy for a Sustainable World
Preference to freshmen. Organized to prepare a renewable energy plan for California. Energy concepts and quantitation approaches are learned, energy needs and natural resources are assessed, and renewable energy technologies are evaluated for economic performance and environmental impact. An investment plan is developed along with implementation and research recommendations. The same concepts are then applied to Mexico as a second model system.
| UG Reqs: GER:DB-EngrAppSci
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