9.85 Infant and Early Childhood Cognition (MIT)
This course is an introduction to cognitive development focusing on children's understanding of objects, agents, and causality. Students develop a critical understanding of experimental design and how developmental research might address philosophical questions about the origins of knowledge, appearance and reality, and the problem of other minds.
McGill Goodman Cancer Research Center
A video produced to honor the work of legendary researcher, Dr. Phil Gold, and the advances made everyday in biomedical science at the McGill Goodman Cancer Research Center.
7.391 Concept-Centered Teaching (MIT)
Do you like teaching, but find yourself frustrated by how little students seem to learn? Would you like to try teaching, but are nervous about whether you will be any good at it? Are you interested in new research on science education? Research in science education shows that the greatest obstacle to student learning is the failure to identify and confront the misconceptions with which the students enter the class or those that they acquire during their studies. This weekly seminar course focuse
HST.590 Biomedical Engineering Seminar Series: Topics in Medical Ethics and Responsible Conduct in R
This seminar based course explores techniques for recognizing, analyzing, and resolving ethical dilemmas facing healthcare professionals and biomedical researchers in today's highly regulated environment. Guest lectures by practicing clinicians, technologists, researchers, and regulators will include case studies, interactive small group discussions, and role-playing simulations. Professional conduct topics will include authorship, conflict of interest, data acquisition and management, and the p
2.25 Advanced Fluid Mechanics (MIT)
This course surveys the principal concepts and methods of fluid dynamics. Topics include mass conservation, momentum, and energy equations for continua, the Navier-Stokes equation for viscous flows, similarity and dimensional analysis, lubrication theory, boundary layers and separation, circulation and vorticity theorems, potential flow, an introduction to turbulence, lift and drag, surface tension and surface tension driven flows. The class assumes students have had one prior undergraduate clas
16.410 Principles of Autonomy and Decision Making (MIT)
This course surveys a variety of reasoning, optimization, and decision-making methodologies for creating highly autonomous systems and decision support aids. The focus is on principles, algorithms, and their applications, taken from the disciplines of artificial intelligence and operations research. Reasoning paradigms include logic and deduction, heuristic and constraint-based search, model-based reasoning, planning and execution, reasoning under uncertainty, and machine learning. Optimization
11.486J Economic Institutions and Growth Policy Analysis (MIT)
This course is designed for students particularly concerned with the practical problems of operating in large formal organizations, either from an operational or a research perspective. It will focus, as the title suggests, upon different forms of economic organizations and institutions in advanced and developing industrial societies and the theories (and theoretical perspectives) which might help us to understand them.
6.883 Program Analysis (MIT)
6.883 is a graduate seminar that investigates a variety of program analysis techniques that address software engineering tasks. Static analysis topics include abstract interpretation (dataflow), type systems, model checking, decision procedures (SAT, BDDs), theorem-proving. Dynamic analysis topics include testing, fault isolation (debugging), model inference, and visualization. While the course focuses on the design and implementation of programming tools, the material will be useful to anyone w
Green Chemistry
Green Chemistry is a relatively new field of research, with McGill playing a leading role worldwide. Find out how our researchers are developing processes and products to reduce or eliminate hazardous substances and manufacturing waste.
20.442 Molecular Structure of Biological Materials (BE.442) (MIT)
This course, intended for both graduate and upper level undergraduate students, will focus on understanding of the basic molecular structural principles of biological materials. It will address the molecular structures of various materials of biological origin, such as several types of collagen, silk, spider silk, wool, hair, bones, shells, protein adhesives, GFP, and self-assembling peptides. It will also address molecular design of new biological materials applying the molecular structural pri
20.010J Introduction to Bioengineering (BE.010J) (MIT)
Bioengineering at MIT is represented by the diverse curricula offered by most Departments in the School of Engineering. This course samples the wide variety of bioengineering options for students who plan to major in one of the undergraduate Engineering degree programs. The beginning lectures describe the science basis for bioengineering with particular emphasis on molecular cell biology and systems biology. Bioengineering faculty will then describe the bioengineering options in a particular eng
3.A26 Freshman Seminar: The Nature of Engineering (MIT)
Are you interested in investigating how nature engineers itself? How engineers copy the shapes found in nature ("biomimetics")? This Freshman Seminar investigates why similar shapes occur in so many natural things and how physics changes the shape of nature. Why are things in nature shaped the way they are? How do birds fly? Why do bird nests look the way they do? How do woodpeckers peck? Why can't trees grow taller than they are? Why is grass skinny and hollow? What is the wood science behind m
18.022 Calculus (MIT)
This is an undergraduate course on calculus of several variables. It covers all of the topics covered in Calculus II (18.02), but presents them in greater depth. These topics are vector algebra in 3-space, determinants, matrices, vector-valued functions of one variable, space motion, scalar functions of several variables, partial differentiation, gradient, optimization techniques, double integrals, line integrals in the plane, exact differentials, conservative fields, Green's theorem, triple int
6.972 Algebraic Techniques and Semidefinite Optimization (MIT)
This research-oriented course will focus on algebraic and computational techniques for optimization problems involving polynomial equations and inequalities with particular emphasis on the connections with semidefinite optimization. The course will develop in a parallel fashion several algebraic and numerical approaches to polynomial systems, with a view towards methods that simultaneously incorporate both elements. We will study both the complex and real cases, developing techniques of general
15.668 People and Organizations (MIT)
This course examines the historical evolution and current human and organizational contexts in which scientists, engineers and other professionals work. It outlines today's major challenges facing the management profession and uses interactive exercises, simulations and problems to develop critical skills in negotiations, teamwork and leadership. It also introduces concepts and tools to analyze work and leadership experiences in optional undergraduate fieldwork projects.
17.466 Organization Theory and the Military (MIT)
This course explores organizational concepts and research methods that explain the performance and development of military organizations in peace and war. Classic studies are reviewed. Approaches to current policy problems based on theoretical insights into military organizations and practices are also considered. The class stresses development of new theory.
11.501 Introduction to Technology and Cities (MIT)
This seminar is an introduction to the usage and impacts of information and communication technologies (ICTs) on urban planning, the urban environment and communities. Students will explore how social relationships, our sense of community, the urban infrastructure, and planning practice have been affected by technological change. Literature reviews, guest speakers, and web surfing will provide examples and issues that are debated in class and homework exercises. We will examine metropolitan info
STS.310 History of Science (MIT)
This seminar explores recent historiographical approaches within the history of science. Students will read a wide variety of studies covering topics from the seventeenth through the twentieth centuries, from the physical sciences to natural history and medicine. Emphasis will be placed on: deciphering different theoretical approaches; the pros and cons of different research questions, subjects, and sources of evidence; and what makes for good and interesting history of science.
HST.750 Modeling Issues in Speech and Hearing (MIT)
This course explores the theory and practice of scientific modeling in the context of auditory and speech biophysics. Based on seminar-style discussions of the research literature, the class draws on examples from hearing and speech, and explores general, meta-theoretical issues that transcend the particular subject matter. Examples include: What is a model? What is the process of model building? What are the different approaches to modeling? What is the relationship between theory and experimen
18.152 Introduction to Partial Differential Equations (MIT)
This course provides a solid introduction to Partial Differential Equations for advanced undergraduate students. The focus is on linear second order uniformly elliptic and parabolic equations.
