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EAAS W4545: Culture and Art in Contemporary Tibet

3.00 Credits

Columbia University in the City of New York

In this course, we study films, poems, stories, paintings, pop songs and other forms of cultural product that have been made by Tibetans in the last 3 or 4 decades, together with some made by others in their name or in their areas. We discuss questions of identity, survival, history and the politics of representation. We'll look at questions about cultures and continuity; about whether and how we as outsiders can come to understand or interpret the culture of a country whose language and history we may barely know; about the interplay of texts, politics, and power; and about ways of reading and interpreting artworks and the meanings that they generate in politically charged societies and communities.

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EAAS W4557: Envisioning the SnowLand: Film and TV in Tibet and Inner Asia

3.00 Credits

Columbia University in the City of New York

A study of film and television production in Tibet, comparisons with cinema and TV in Mongolia, Xinjiang and Inner Mongolia. The course will look at the ways state, nation, culture, and politics are constructed at different times through film and other visual media. Major Cultures Requirement: East Asian Civilization List B only whenpaired with ASCE V2365 Introduction to East Asian Civilization: Tibet.

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EAEE E1100: A better planet by design

3.00 Credits

Columbia University in the City of New York

Development of the infrastructure for providing safe and reliable resources (energy, water and other materials, transportation services) to support human societies while attaining environmental objectives. Introduction of a typology of problems by context, and common frameworks for addressing them through the application of appropriate technology and policy. An interdisciplinary perspective that focuses on the interaction between human and natural systems is provided. Alternatives for resource provision and forecasts of their potential environmental impacts through a context provided by real- world applications and problems. Science Requirement: Partial Fulfillment.

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EAEE E2002: Alternative energy resources

3.00 Credits

Columbia University in the City of New York

Unconventional, alternative energy resources. Technological options and their role in the world energy markets. Comparison of conventional and unconventional, renewable and non-renewable energy resources and analysis of the consequences of various technological choices and constraints. Economic considerations, energy availability, and the environmental consequences of large-scale, widespread use of each particular technology. Introduction to carbon dioxide capture and carbon dioxide disposal as a means of sustaining the fossil fuel option.

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EAEE E3103: Energy, minerals and materials systems

3.00 Credits

Columbia University in the City of New York

Prerequisites: MSAE E3111 or MECE E3301 and ENME E3161 or MECE E3100 or equiv Corequisites: MSAE E3111 or MECE E3301 and ENME E3161 or MECE E3100 or the equiv Overview of energy resources, resource management from extraction and processing to recycling and final disposal of wastes. Resources availability and resource processing in the context of the global natural and anthropogenic material cycles; thermodynamic and chemical conditions including nonequilibrium effects that shape the resource base; extractive technologies and their impact on the environment and the biogeochemical cycles; chemical extraction from mineral ores, and metallurgical processes for extraction of metals. In analogy to metallurgical processing, power generation and the refining of fuels are treated as extraction and refining processes. Large scale of power generation and a discussion of its impact on the global biogeochemical cycles.

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EAEE E3800: Earth and environmental engineering laboratory I

2.00 Credits

Columbia University in the City of New York

Prerequisites: CHEE E3010. Corequisites: EAEE E3255 Experiments on fundamental aspects of Earth and environmental engineering with emphasis on the applications of chemistry, biology and thermodynamics to environmental processes: energy generation, analysis and purification of water, environmental biology, and biochemical treatment of wastes. Students will learn the laboratory procedures and use analytical equipment firsthand, hence demonstrating experimentally the theoretical concepts learned in class.

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EAEE E3801: Earth and environmental engineering laboratory II

2.00 Credits

Columbia University in the City of New York

Prerequisites: EAEE E3800 Corequisites: EAEE E4003 A continuation of EAEE E3800, with emphasis on the principles underlying water analysis for inorganic, organic, and bacterial contaminants. Lab Required.

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EAEE E4001: Industrial ecology of earth resources

3.00 Credits

Columbia University in the City of New York

Industrial ecology examines how to reconfigure industrial activities so as to minimize the adverse environmental and material resource effects on the planet. Engineering applications of methodology of industrial ecology in the analysis of current processes and products and the selection or design of environmentally superior alternatives. Home assignments of illustrative quantitative problems.

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EAEE E4003: Introduction to aquatic chemistry

3.00 Credits

Columbia University in the City of New York

Prerequisites: CHEN E3010 Principles of physical chemistry applied to equilibria and kinetics of aqueous solutions in contact with minerals and anthropogenic residues. The scientific background for addressing problems of aqueous pollution, water treatment, and sustainable production of materials with minimum environmental impact. Hydrolysis, oxidation-reduction, complex formation, dissolution and precipitation, predominance diagrams; examples of natural water systems, processes for water treatment and for the production of inorganic materials from minerals.

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EAEE E4006: Field methods for environmental engineering

3.00 Credits

Columbia University in the City of New York

Prerequisites: ENME E3161 or the equivalent or instructor's permission Principles and methods for designing, building and testing systems to sense the environment. Monitoring the atmosphere, water bodies and boundary interfaces between the two. Sensor systems for monitoring heat and mass flows, chemicals, and biota. Measurements of velocity, temperature, flux and concentration in the field. The class will involve planning and execution of a study to sense a local environmental system.

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