Online courses directory (10358)

We will use the free and open tool, App Inventor for Android, to explore advanced topics in computer science.

You’ll build an app a week, exploring such advanced topics as gameplay over a network, encryption, and more.

At the end of the course, we’ll collectively decide on an app that we will build together. You will be able to build almost anything you can imagine!

Because computer science is not just about coding and building apps, we will also learn some of the fundamental principles of computer science. We'll explore the potential and the limitations of computing and coding. We'll learn how the Internet works and about the positive and negative aspects of computing in today's society.

For these broader computing concepts we will work within an emerging curricular framework -- the Computer Science Principles (CSP).  The CSP framework is being developed by leading computer science educators from around the country under the auspices of the College Board and with funding support of the National Science Foundation.

In addition to programming and CSP, the course is project-based and emphasizes writing, communication, and creativity. Multiple-choice questions, in the style that students can expect to encounter on the AP exam, will also be a key component of this course.

Easy guide to creating 2D-games for Android using AndEngine. Create simple 2D games.

This course focuses on cost-effective health care solutions using ever-expanding mobile technologies. The addressed themes are: 1) Global Health Challenges. 2) Mobile Health Opportunities. 3) Entrepreneurship in Health Care.

This course focuses on cost-effective health care solutions using ever-expanding mobile technologies. The addressed themes are: 1) Global Health Challenges. 2) Mobile Health Opportunities. 3) Entrepreneurship in Health Care.

By Eric Leroux and Homero Rivas

Discover the world of mobile robots - how they move, how they interact with the world, and how to build them!

The Latest Mobile Web Build Development and Publishing Tools

So you’ve heard mobile is kind of a big deal, and you’re not sure how to transform your traditional desktop-focused web apps into fast, effective mobile experiences. This course is designed to teach web developers what they need to know to create great cross-device mobile web experiences. This course will focus on building mobile web apps, which will work across multiple platforms including Android, iOS, and others.

Heidi Roizen, managing director for Mobius Venture Capital, explains that Mobius Venture Capital has $1.5 B under manage

Modal logic is the logic of necessity and possibility, and by extension of analogously paired notions like validity and consistency, obligation and permission, the known and the not-ruled-out. This a first course in the area. A solid background in first-order logic is essential. Topics to be covered include (some or all of) the main systems of propositional modal logic, Kripkean "possible world" semantics, strict implication, contingent identity, intensional objects, counterpart theory, the logic of actuality, and deontic and / or epistemic logic. The emphasis will be more on technical methods and results than philosophical applications.

This course will teach you how to start from scratch in answering questions about the real world using data. Machine learning happens to be a small part of this process. The model building process involves setting up ways of collecting data, understanding and paying attention to what is important in the data to answer the questions you are asking, finding a statistical, mathematical or a simulation model to gain understanding and make predictions. All of these things are equally important and model building is a crucial skill to acquire in every field of science. The process stays true to the scientific method, making what you learn through your models useful for gaining an understanding of whatever you are investigating as well as make predictions that hold true to test. We will take you on a journey through building various models. This process involves asking questions, gathering and manipulating data, building models, and ultimately testing and evaluating them.

Learn stuff.

In this class, you will learn how to think with models and use them to make sense of the complex world around us.

在本课程中，你将了解如何运用模型进行思考、理解我们生活的这个复杂世界。

ESD.864 Modeling and Assessment for Policy explores how scientific information and quantitative models can be used to inform policy decision-making. Students will develop an understanding of quantitative modeling techniques and their role in the policy process through case studies and interactive activities. The course addresses issues such as analysis of scientific assessment processes, uses of integrated assessment models, public perception of quantitative information, methods for dealing with uncertainties, and design choices in building policy-relevant models. Examples used in this class focus on models and information used in earth system governance.

ESD.864 Modeling and Assessment for Policy explores how scientific information and quantitative models can be used to inform policy decision-making. Students will develop an understanding of quantitative modeling techniques and their role in the policy process through case studies and interactive activities. The course addresses issues such as analysis of scientific assessment processes, uses of integrated assessment models, public perception of quantitative information, methods for dealing with uncertainties, and design choices in building policy-relevant models. Examples used in this class focus on models and information used in earth system governance.

This course models multi-domain engineering systems at a level of detail suitable for design and control system implementation. Topics include network representation, state-space models; multi-port energy storage and dissipation, Legendre transforms; nonlinear mechanics, transformation theory, Lagrangian and Hamiltonian forms; and control-relevant properties. Application examples may include electro-mechanical transducers, mechanisms, electronics, fluid and thermal systems, compressible flow, chemical processes, diffusion, and wave transmission.

Bringing together insights from physics, chemistry, biology, earth and atmospheric sciences -- and even some economics -- this course is geared to curious enthusiasts, allowing them to work with real climate data and simulations of the earth’s changing climate.
 
This eight-week class takes a quantitative approach to the science of global warming and will enable students to understand the greenhouse effect, the planet's carbon cycle, and how burning fossil fuel affects that cycle; and to evaluate the potential severity of humans’ impact on Earth’s climate.

Learn a new way to approach problem solving by stating the problem and letting powerful constraint solving software do the rest. This class teaches you the art of encoding complex discrete optimization problems in the MiniZinc modeling language and then shows you how to effortlessly solve them by leveraging state-of-the-art open-source constraint solving software.

This course is the first of a two term sequence in modeling, analysis and control of dynamic systems. The various topics covered are as follows: mechanical translation, uniaxial rotation, electrical circuits and their coupling via levers, gears and electro-mechanical devices, analytical and computational solution of linear differential equations, state-determined systems, Laplace transforms, transfer functions, frequency response, Bode plots, vibrations, modal analysis, open- and closed-loop control, instability, time-domain controller design, and introduction to frequency-domain control design techniques. Case studies of engineering applications are also covered.