Online courses directory (19947)

Master JavaScript foundations and become an Interactive Developer

In this course, we will actively explore a powerful framework, Reading Apprenticeship©—described in the book, Reading for Understanding. Through video clips, readings and practice, this course provides snapshots of a proven approach to helping readers use and master a set of powerful literacy tools that will help them enjoy and understand high-quality, complex texts in and beyond school. This course is for: - Educators interested in deepening literacy with innovative, proven strategies - Teachers (K-16) supporting readers in any content area - Administrators, curriculum specialists, and teacher leaders looking for literacy professional learning that will support their schools in meeting Common Core State Standards Learn more about the Reading Apprenticeship at WestEd

This course gives an introduction to probability and statistics, with emphasis on engineering applications. Course topics include events and their probability, the total probability and Bayes' theorems, discrete and continuous random variables and vectors, uncertainty propagation and conditional analysis. Second-moment representation of uncertainty, random sampling, estimation of distribution parameters (method of moments, maximum likelihood, Bayesian estimation), and simple and multiple linear regression. Concepts illustrated with examples from various areas of engineering and everyday life.

This course covers the following questions. What are the predominant heat producing elements of the Earth? Where and how much are they? Are they present in the core of the Earth? Detection of antineutrinos generated in the Earth provides: 1) information on the sources of the terrestrial heat, 2) direct test of the Bulk Silicate Earth (BSE) model and 3) testing of non-conventional models of Earth's core. Use of antineutrinos to probe the deep interior of our planet is becoming practical due to recent fundamental advances in the antineutrino detectors.

This course gives an overview of engineering management and covers topics such as financial principles, management of innovation, technology strategy, and best management practices. The focus of the course is the development of individual skills and team work. This is carried out through an exposure to management tools.

This course explores natural and electric lighting that integrates occupant comfort, energy efficiency and daylight availability in an architectural context. Students are asked to evaluate daylighting in real space and simulations, and also high dynamic range photography and physical model building.

This course develops and applies scaling laws and the methods of continuum and statistical mechanics to biomechanical phenomena over a range of length scales, from molecular to cellular to tissue or organ level.

This course explores the fundamentals of optical and optoelectronic phenomena and devices based on classical and quantum properties of radiation and matter culminating in lasers and applications. Fundamentals include: Maxwell's electromagnetic waves, resonators and beams, classical ray optics and optical systems, quantum theory of light, matter and its interaction, classical and quantum noise, lasers and laser dynamics, continuous wave and short pulse generation, light modulation; examples from integrated optics and semiconductor optoelectronics and nonlinear optics.

This course provides a rigorous treatment of non-cooperative solution concepts in game theory, including rationalizability and Nash, sequential, and stable equilibria. It covers topics such as epistemic foundations, higher order beliefs, bargaining, repeated games, reputation, supermodular games, and global games. It also introduces cooperative solution concepts—Nash bargaining solution, core, Shapley value—and develops corresponding non-cooperative foundations.

This course discusses the selection and evaluation of commercial and naval ship power and propulsion systems. It will cover the analysis of propulsors, prime mover thermodynamic cycles, propeller-engine matching, propeller selection, waterjet analysis, and reviews alternative propulsors. The course also investigates thermodynamic analyses of Rankine, Brayton, Diesel, and Combined cycles, reduction gears and integrated electric drive. Battery operated vehicles and fuel cells are also discussed. The term project requires analysis of alternatives in propulsion plant design for given physical, performance, and economic constraints. Graduate students complete different assignments and exams.

This course is the second semester in the statistics sequence for political science and public policy offered in the Political Science Department at MIT. The intellectual thrust of the course is a presentation of statistical models for estimating causal effects of variables. The model of an effect is a conditional mean (though we might imagine other effect). The notion of causality is the effect of one variable on another holding all else constant.

This course is an introduction to epistemology: the theory of knowledge. We will focus on skepticism—that is, the thesis that we know nothing at all—and we will survey a range of skeptical arguments and responses to skepticism.

This course is a study of the history of theater art and practice from its origins to the modern period, including its roles in non-western cultures. Special attention is given to the relationship between the literary and performative dimensions of drama, and the relationship between drama and its cultural context.

This is an introductory course in algebraic combinatorics. No prior knowledge of combinatorics is expected, but assumes a familiarity with linear algebra and finite groups. Topics were chosen to show the beauty and power of techniques in algebraic combinatorics. Rigorous mathematical proofs are expected.

Human Supervisory Control of Automated Systems discusses elements of the interactions between humans and machines.  These elements include: assignment of roles and authority; tradeoffs between human control and human monitoring; and human intervention in automatic processes.  Further topics comprise: performance, optimization and social implications of the system; enhanced human interfaces; decision aiding; and automated alterting systems.  Topics refer to applications in aerospace, industrial and transportation systems.

A large proportion of contemporary research on organizations, strategy and management relies on quantitative research methods. This course is designed to provide an introduction to some of the most commonly used quantitative techniques, including logit/probit models, count models, event history models, and pooled cross-section techniques.

Surveys general principles and specific examples of motor control in biological systems. Emphasizes the neural mechanisms underlying different aspects of movement and movement planning. Covers sensory reception, reflex arcs, spinal cord organization, pattern generators, muscle function, locomotion, eye movement, and cognitive aspects of motor control. Functions of central motor structures including cerebellum, basal ganglia, and cerebral cortex considered. Cortical plasticity, motor learning and computational approaches to motor control, and motor disorders are discussed.

This course examines signals, systems and inference as unifying themes in communication, control and signal processing. Topics include input-output and state-space models of linear systems driven by deterministic and random signals; time- and transform-domain representations in discrete and continuous time; group delay; state feedback and observers; probabilistic models; stochastic processes, correlation functions, power spectra, spectral factorization; least-mean square error estimation; Wiener filtering; hypothesis testing; detection; matched filters.

6.637 covers the fundamentals of optical signals and modern optical devices and systems from a practical point of view. Its goal is to help students develop a thorough understanding of the underlying physical principles such that device and system design and performance can be predicted, analyzed, and understood.

Most optical systems involve the use of one or more of the following: sources (e.g., lasers and light-emitting diodes), light modulation components (e.g., liquid-crystal light modulators), transmission media (e.g., free space or fibers), photodetectors (e.g., photodiodes, photomultiplier tubes), information storage devices (e.g., optical disk), processing systems (e.g., imaging and spatial filtering systems) and displays (LCOS microdisplays). These are the topics covered by this course.

William Shakespeare didn't go to college. If he time-traveled like Dr. Who, he would be stunned to find his words on a university syllabus. However, he would not be surprised at the way we will be using those words in this class, because the study of rhetoric was essential to all education in his day. At Oxford, William Gager argued that drama allowed undergraduates "to try their voices and confirm their memories, and to frame their speech and conform it to convenient action": in other words, drama was useful. Shakespeare's fellow playwright Thomas Heywood similarly recalled:

In the time of my residence in Cambridge, I have seen Tragedies, Comedies, Histories, Pastorals and Shows, publicly acted…: this is held necessary for the emboldening of their Junior scholars, to arm them with audacity, against they come to be employed in any public exercise, as in the reading of Dialectic, Rhetoric, Ethic, Mathematic, the Physic, or Metaphysic Lectures.

Such practice made a student able to "frame a sufficient argument to prove his questions, or defend any axioma, to distinguish of any Dilemma and be able to moderate in any Argumentation whatsoever" (Apology for Actors, 1612). In this class, we will use Shakespeare's own words to arm you "with audacity" and a similar ability to make logical, compelling arguments, in speech and in writing.

Shakespeare used his ears and eyes to learn the craft of telling stories to the public in the popular form of theater. He also published two long narrative poems, which he dedicated to an aristocrat, and wrote sonnets to share "among his private friends" (so wrote Francis Meres in his Palladis Tamia, 1598). Varying his style to suit different audiences and occasions, and borrowing copiously from what he read, Shakespeare nevertheless found a voice all his own–so much so that his words are now, as his fellow playwright Ben Jonson foretold, "not of an age, but for all time." Reading, listening, analyzing, appreciating, criticizing, remembering: we will engage with these words in many ways, and will see how words can become ideas, habits of thought, indicators of emotion, and a means to transform the world.