18.443 Statistics for Applications (MIT)
This course provides a broad treatment of statistics, concentrating on specific statistical techniques used in science and industry. The course topics include hypothesis testing and estimation. It also includes confidence intervals, chi-square tests, nonparametric statistics, analysis of variance, regression, and correlation.
15.760B Introduction to Operations Management (MIT)
This half-term course introduces students to problems and analysis related to the design, planning, control, and improvement of manufacturing and service operations. Class sessions involve explaining concepts, working examples, and discussing cases. A wide range of topics are covered, including: process analysis, quality management, supply chain design, procurement, and product development. Toward the end of the course, students work in teams to manage a virtual factory in a web-based simulation
24.951 Introduction to Syntax (MIT)
This course is concerned with the concepts and principles which have been of central significance in the recent development of syntactic theory, with special focus on the "Government and Binding" (GB) / "Principles and Parameters" (P&P) / "Minimalist Program" (MP) approach.
It is the first of a series of two courses (24.951 is taught during the Fall and 24.952 is taught in the Spring). This course deals mostly with phrase structure, argument structure and its syntactic expression, including
8.701 Introduction to Nuclear and Particle Physics (MIT)
The phenomenology and experimental foundations of particle and nuclear physics are explored in this course. Emphasis is on the fundamental forces and particles, as well as composites.
21L.451 Introduction to Literary Theory (MIT)
This subject focuses on the ways in which we read, providing an overview of some of the different strategies of reading, comprehending and engaging with literary texts developed in the twentieth century. The course is organized around specific theoretical paradigms. In each case our task will be, first, to work through the selected reading in order to see how it determines or defines the task of literary interpretation; second, to locate the limits of each particular approach; and finally, to tr
4.351 Introduction to Video (MIT)
This class serves as an introduction to video recording and editing, presenting video as a tool of personal apprehension and expression, with an emphasis on self-exploration, performance, social critique, and the organization of raw experience into aesthetic form (narrative, abstract, documentary, essay). Students are required to complete a variety of assignments to learn the basics of video capture and editing, culminating in a final assignment that has to do with personal storytelling.
18.417 Introduction to Computational Molecular Biology (MIT)
This course introduces the basic computational methods used to understand the cell on a molecular level. It covers subjects such as the sequence alignment algorithms: dynamic programming, hashing, suffix trees, and Gibbs sampling. Furthermore, it focuses on computational approaches to: genetic and physical mapping; genome sequencing, assembly, and annotation; RNA expression and secondary structure; protein structure and folding; and molecular interactions and dynamics.
21A.100 Introduction to Anthropology (MIT)
This class introduces students to the methods and perspectives of cultural anthropology. Readings emphasize case studies in very different settings (a nuclear weapons laboratory, a cattle-herding society of the Sudan, and a Jewish elder center in Los Angeles). Although some of the results and conclusions of anthropology will be discussed, emphasis will be on appreciating cultural difference and its implications, studying cultures and societies through long-term fieldwork, and most of all, learni
18.152 Introduction to Partial Differential Equations (MIT)
This course analyzes initial and boundary value problems for ordinary differential equations and the wave and heat equation in one space dimension. It also covers the Sturm-Liouville theory and eigenfunction expansions, as well as the Dirichlet problem for Laplace's operator and potential theory.
18.901 Introduction to Topology (MIT)
This course introduces topology, covering topics fundamental to modern analysis and geometry. It also deals with subjects like topological spaces and continuous functions, connectedness, compactness, separation axioms, and selected further topics such as function spaces, metrization theorems, embedding theorems and the fundamental group.
18.335J Introduction to Numerical Methods (MIT)
The focus of this course is on numerical linear algebra and numerical methods for solving ordinary differential equations. Topics include linear systems of equations, least square problems, eigenvalue problems, and singular value problems.
21L.005 Introduction to Drama (MIT)
Drama combines the literary arts of storytelling and poetry with the world of live performance. As a form of ritual as well as entertainment, drama has served to unite communities and challenge social norms, to vitalize and disturb its audiences. In order to understand this rich art form more fully, we will study and discuss a sampling of plays that exemplify different kinds of dramatic structure; class members will also participate in, attend, and review dramatic performances.
21F.311 Introduction to French Culture (MIT)
Ce cours est une introduction à la culture et la société françaises depuis la Révolution, mais surtout à partir du Second Empire. Nous tacherons de cerner ce qui définit la singularité francaise dans une perspective historique. Nous commencerons avec la notion "d'exception francaise" et de ce qui la constitue depuis la Révolution (La République, L'Universalisme, La Laicité, etc.) Nous explorerons l'impact de l
15.501 Introduction to Financial and Managerial Accounting (MIT)
This course studies basic concepts of financial and managerial reporting. The viewpoint is that of readers of financial and managerial reports rather than the accountants who prepare them.
18.330 Introduction to Numerical Analysis (MIT)
This course analyzed the basic techniques for the efficient numerical solution of problems in science and engineering. Topics spanned root finding, interpolation, approximation of functions, integration, differential equations and direct and iterative methods in linear algebra.
4.273 Introduction to Design Inquiry (MIT)
This subject explores the varied nature and practice of computation in design. We will view computation and design broadly. Computation will include both work done on the computer (digital computing) and by-hand. Design will include both the process of making designs and artifacts, as well as the designs and artifacts themselves. The aim of the course is to develop a view of computation and design beyond the specifics of techniques and tools, and a critical, self-awareness of our own approaches
18.755 Introduction to Lie Groups (MIT)
This course is devoted to the theory of Lie Groups with emphasis on its connections with Differential Geometry. The text for this class is Differential Geometry, Lie Groups and Symmetric Spaces by Sigurdur Helgason (American Mathematical Society, 2001).
Much of the course material is based on Chapter I (first half) and Chapter II of the text. The text however develops basic Riemannian Geometry, Complex Manifolds, as well as a detailed theory of Semisimple Lie Groups and Symmetric
12.808 Introduction to Observational Physical Oceanography (MIT)
Observational physical oceanography includes topics such as the physical description of the sea, the physical properties of seawater, methods and measurements, wind-driven ocean circulation, abyssal ocean circulation, boundary processes, and wave motions.
3.091 Introduction to Solid State Chemistry (MIT)
This course explores the basic principles of chemistry and their application to engineering systems. It deals with the relationship between electronic structure, chemical bonding, and atomic order. It also investigates the characterization of atomic arrangements in crystalline and amorphous solids: metals, ceramics, semiconductors, and polymers (including proteins). Topics covered include organic chemistry, solution chemistry, acid-base equilibria, electrochemistry, biochemistry, chemi
7.012 Introduction to Biology (MIT)
The MIT Biology Department core courses, 7.012, 7.013, and 7.014, all cover the same core material, which includes the fundamental principles of biochemistry, genetics, molecular biology, and cell biology. Biological function at the molecular level is particularly emphasized and covers the structure and regulation of genes, as well as, the structure and synthesis of proteins, how these molecules are integrated into cells, and how these cells are integrated into multicellular systems and organism
