4.175 Case Studies in City Form (MIT)
This course serves as an introduction to urban form and design, focusing on the physical, historical, and social form of cities. Selected cities are analyzed, drawn, and compared, to develop a working understanding of urban and architectural form. The development of map making and urban representation is discussed, and use of the computer is required. A special focus is placed on the historical development of the selected cities, especially mid-nineteenth and mid-twentieth century periods of exp
21L.015 Introduction to Media Studies (MIT)
Introduction to Media Studies is designed for students who have grown up in a rapidly changing global multimedia environment and want to become more literate and critical consumers and producers of media. Through an interdisciplinary comparative and historical lens, the course defines "media" broadly as including oral, print, performance, photographic, broadcast, cinematic, and digital cultural forms and practices. The course looks at the nature of mediated communication, the functions of media,
11.493 Legal Aspects of Property and Land Use (MIT)
This course is designed to offer an advanced introduction to key legal issues that arise in the area of property and land-use in American law, with a comparative focus on the laws of India and South Africa. The focus of the course is not on law itself, but on the policy implications of various rules, doctrines and practices which are covered in great detail. Legal rules regulating property are among the most fundamental to American, and most other, economies and societies. The main focus is on A
22.38 Probability And Its Applications To Reliability, Quality Control, And Risk Assessment (MIT)
This course covers interpretations of the concept of probability. Topics include basic probability rules; random variables and distribution functions; functions of random variables; and applications to quality control and the reliability assessment of mechanical/electrical components, as well as simple structures and redundant systems. The course also considers elements of statistics; Bayesian methods in engineering; methods for reliability and risk assessment of complex systems (event-tree and
9.29J Introduction to Computational Neuroscience (MIT)
This course gives a mathematical introduction to neural coding and dynamics. Topics include convolution, correlation, linear systems, game theory, signal detection theory, probability theory, information theory, and reinforcement learning. Applications to neural coding, focusing on the visual system are covered, as well as Hodgkin-Huxley and other related models of neural excitability, stochastic models of ion channels, cable theory, and models of synaptic transmission.
Visit the Seung Lab Web s
w13.1 Final Review
soc1a06-c01 - Section C01 - w13.1 Final Review - McMaster University > Courses > SOC1A06 Introduction to Sociology > Section C01 > w13.1 Final Review
7.2 Academic Writing
soc1a06-c01 - Section C01 - 7.2 Academic Writing - McMaster University > Courses > SOC1A06 Introduction to Sociology > Section C01 > 7.2 Academic Writing
5.451 Chemistry of Biomolecules I (MIT)
5.451 is a half-semester introduction to natural product biosynthetic pathways. The course covers the assembly of complex polyketide, peptide, terpene and alkaloid structures. Discussion topics include chemical and biochemical strategies used to elucidate natural product pathways.
10.445 Separation Processes for Biochemical Products (MIT)
This course serves as an introduction to the fundamental principles of separation operations for the recovery of products from biological processes, membrane filtration, chromatography, centrifugation, cell disruption, extraction, and process design.
This course was last taught during the regular school year in the Spring semester of 1999, but has been a part of the MIT Technology and Development Program (TDP) at the Malaysia University of Science and Technology (MUST), as well as at MIT's Prof
HST.950J Engineering Biomedical Information: From Bioinformatics to Biosurveillance (MIT)
This course provides an interdisciplinary introduction to the technological advances in biomedical informatics and their applications at the intersection of computer science and biomedical research.
21F.102 Chinese II (Regular) (MIT)
This subject is the second semester of two that form an introduction to modern standard Chinese, commonly called Mandarin. Though not everyone taking this course will be an absolute beginner, the course presupposes only 21F.101/151, the beginning course in the sequence. The purpose of this course is to develop: (a) basic conversational abilities (pronunciation, fundamental grammatical patterns, common vocabulary, and standard usage); (b) basic reading skills (in both the traditional character se
21F.101 Chinese I (Regular) (MIT)
This subject is the first semester of two that form an introduction to modern standard Chinese, commonly called Mandarin. Though not everyone taking this course will be an absolute beginner, the course presupposes no prior background in the language. The purpose of this course is to develop:
Basic conversational abilities (pronunciation, fundamental grammatical patterns, common vocabulary, and standard usage)
Basic reading and writing skills (in both the traditional character set and th
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.
1.00 Introduction to Computers and Engineering Problem Solving (MIT)
This course teaches fundamental software development and computational methods for engineering, scientific and managerial applications. Emphasis is focused on object-oriented software design and development. Assignments cover programming concepts, graphical user interfaces, numerical methods, data structures, sorting and searching, computer graphics and selected advanced topics. The Java programming language is used.
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
12.114 Field Geology I (MIT)
The course provides students with (1) an introduction to the geologic history of western North America, with particular emphasis on our field camp location and (2) an introduction to both digital and traditional techniques of geological field study. The weather permitting, several weekend field exercises provide practical experience in preparation for Field Geology II (12.115). It presents introductory material on the regional geology of the locale of 12.115.
20.011J Statistical Thermodynamics of Biomolecular Systems (BE.011J) (MIT)
This course provides an introduction to the physical chemistry of biological systems. Topics include: connection of macroscopic thermodynamic properties to microscopic molecular properties using statistical mechanics, chemical potentials, equilibrium states, binding cooperativity, behavior of macromolecules in solution and at interfaces, and solvation. Example problems include protein structure, genomic analysis, single molecule biomechanics, and biomaterials.
24.251 Introduction to Philosophy of Language (MIT)
This course is an introduction to the philosophy of language. It examines different views on the nature of meaning, truth and reference, with special focus on the problem of understanding how linguistic communication works.
24.241 Logic I (MIT)
This course provides an introduction to the aims and techniques of formal logic. Logic is the science of correct argument, and our study of logic will aim to understand what makes a correct argument good, that is, what is it about the structure of a correct argument that guarantees that, if the premises are all true, the conclusion will be true as well? Our subject (though, to be sure, we can only scratch the surface) will be truth and proof, and the connection between them.
18.03 Differential Equations (MIT)
Differential Equations are the language in which the laws of nature are expressed. Understanding properties of solutions of differential equations is fundamental to much of contemporary science and engineering. Ordinary differential equations (ODE's) deal with functions of one variable, which can often be thought of as time. Topics include: Solution of first-order ODE's by analytical, graphical and numerical methods; Linear ODE's, especially second order with constant coefficients; Undetermined
