Courses tagged with "Infor" (2510)

This course provides an introduction to public policy analysis. It is designed for students who may be planning a career in public or non-profit sectors. The primary goal is to help students understand the implications of public policy for different pursuits. The class examines various approaches to policy analysis by considering the concepts, tools, and methods used in economics, political science, and other disciplines. Students apply and critique these approaches through case studies of current public policy problems.

Hitherto it had gone by the original Indian name Manna-hatta, or as some still have it, 'The Manhattoes'; but this was now decried as savage and heathenish... At length, when the council was almost in despair, a burgher, remarkable for the size and squareness of his head, proposed that they should call it New-Amsterdam. The proposition took every body by surprise; it was so striking, so apposite, so ingenious. The name was adopted by acclamation, and New-Amsterdam the metropolis was thenceforth called.

—Washington Irving, 1808

In less tongue-in-cheek style, this course examines the evolution of New York City from 1607 to the present. The readings focus on the city's social and physical histories, and the class discussions compare New York's development to patterns in other cities.

This course discusses MHD equilibria in cylindrical, toroidal, and noncircular tokamaks. It covers derivation of the basic MHD model from the Boltzmann equation, use of MHD equilibrium theory in poloidal field design, MHD stability theory including the Energy Principle, interchange instability, ballooning modes, second region of stability, and external kink modes. Emphasis is on discovering configurations capable of achieving good confinement at high beta.

This course encourages creative thinking through hands-on experience via building, observing and manipulating micro-and nano-scale structures. Students learn about underlying science and engineering principles and possible applications.

This course introduces the theory and technology of micro/nano fabrication. Lectures and laboratory sessions focus on basic processing techniques such as diffusion, oxidation, photolithography, chemical vapor deposition, and more. Through team lab assignments, students are expected to gain an understanding of these processing techniques, and how they are applied in concert to device fabrication. Students enrolled in this course have a unique opportunity to fashion and test micro/nano-devices, using modern techniques and technology.

This class presents microeconomic theory and applications of consumer and producer behavior and welfare analysis at an intermediate level. In addition to standard competitive models, we study deviations due to externalities, asymmetric information, and imperfect rationality. We apply this material to policy debates including minimum wage regulations, food stamp provision, trade protection, educational credentials, health insurance markets, and real estate markets.

This course applies microeconomic theory to analysis of public policy. It builds from the microeconomic model of consumer behavior and extends to operation of single and multiple markets and analysis of why markets sometimes fail. We will study empirical examples to evaluate theory, focusing on the casual effects of policy interventions on economic outcomes. Topics include minimum wages and employment, food stamps and consumer welfare, economics of risk and safety regulation, the value of education, and gains from international trade.

This half-semester course provides an introduction to microeconomic theory designed to meet the needs of students in an economics Ph.D. program. Some parts of the course are designed to teach material that all graduate students should know. Others are used to introduce methodologies. Students should be comfortable with multivariable calculus, linear algebra, and basic real analysis.

This course offers an introduction to noncooperative game theory. The course is intended both for graduate students who wish to develop a solid background in game theory in order to pursue research in the applied fields of economics and related disciplines, and for students wishing to specialize in economic theory. While the course is designed for graduate students in economics, it is open to all students who have taken and passed 14.121.

This course covers models of individual decision-making under certainty and uncertainty. Applications include risk sharing and financial markets; contracts and information economics; village economies and national development; models with money and credit; trade, spatial economics and differentiated commodities.

The topic of the class is information economics. The purpose is to give an introduction to some of the main subjects in this field: risk sharing, moral hazard, adverse selection (signaling, screening), mechanism design, decision making under uncertainty. These subjects (and others) will be treated in more depth in the advanced theory courses on Contract Theory.

Microeconomics will ground you in - surprise - basic microeconomics-how markets function, how to think about allocating scarce resources among competing uses, what profit maximizing behavior means in industries with different numbers of competitors, how technology and trade reshapes the opportunities people face, and so on. We will apply economic ideas to understand current economic problems, including the housing bubble, the current unemployment situation (particularly for high school gradutes), how Google makes its money and why healthcare costs are rising so fast.

6.012 is the header course for the department's "Devices, Circuits and Systems" concentration. The topics covered include modeling of microelectronic devices, basic microelectronic circuit analysis and design, physical electronics of semiconductor junction and MOS devices, relation of electrical behavior to internal physical processes, development of circuit models, and understanding the uses and limitations of various models. The course uses incremental and large-signal techniques to analyze and design bipolar and field effect transistor circuits, with examples chosen from digital circuits, single-ended and differential linear amplifiers, and other integrated circuits.

Transport is among the most fundamental and widely studied phenomena in science and engineering. This subject will lay out the essential concepts and current understanding, with emphasis on the molecular view, that cut across all disciplinary boundaries. (Suitable for all students in research.)

• Broad perspectives of transport phenomena
• From theory and models to computations and simulations
• Micro/macro coupling
• Current research insights