Online courses directory (10358)

At first it may seem strange to consider monetization before a game is even completed, and many developers leave this as an afterthought. But monetization should be built into the fabric of a game from the beginning, because a clearly defined and understood monetization strategy can have tremendous impact on design decisions made during the development process. This kind of forward-thinking approach is especially important in today’s highly competitive game market, and keeping monetization strategy front-of-mind throughout can be the difference between product success and failure. This course will teach you how to make your game stand out in a very crowded field, and encourage people to pay for game features that will define the ultimate success of your product. Currently, most game apps are free to play, and many users are looking for something simple and entertaining without the risk of making a purchase. We'll look at the most successful premium and freemium games, and discuss the most effective strategies for monetization. Our goal in this course is to teach students how to design games that produce sustainable revenue over the long-term.

Drawing from both the consumer and technology viewpoints, we propose a Web site engagement construct which serves as the

Gain practical strategies, tools, and structures to effectively engage, empower, and mentor vulnerable youth.

Government works best when citizens are directly engaged in policymaking and public service delivery. What conditions are necessary for inclusive and effective citizen engagement? Can it positively improve people's lives? This course provides an overview of citizen engagement, critically analyzing how it can be leveraged most effectively to achieve development results.

This course is presented in both English and Hindi. Videos will feature Hindi subtitles.

This course offers an overview of contemporary India and explores its role as one of the dominant economic and military powers of Asia. We begin with a discussion on India as a multilingual society.  The entire course will be available in both English and Hindi.

The central focus of the course is an examination of contemporary issues in India. This includes perspectives on how Indian culture and language are being affected by the boom in technology; sections on politics and nationalism; economics and the implications of recent moves toward liberalisation of the economy; and security, international relations, and regionalism. In addition, we will examine India’s role in South Asian politics and current issues relating to its regional neighbours in Asia. The aim of the course is to provide students with a comprehensive and wide-ranging overview of India in order that they may better understand its role in the world.

यह पाठ्यक्रम हमें आधुनिक भारत के बारे में एक संक्षिप्त विवरण देता है। और उसके साथ यह भी दर्शाता है कि किस तरह से भारत आज एशिया का एक प्रभावशाली आर्थिक और सैन्य सत्ता बन गया है। इस पाठ्यक्रम की शुरुआत हम भारत के बहुभाषी समाज पर चर्चा से करेंगे।   

यह पाठ्यक्रम हिन्दी और अंग्रेज़ी दोनों भाषाओं में उपलब्ध होगा।

इस पाठ्यक्रम का केंद्र बिन्दू भारत के समकालीन मुद्दों का विश्लेषण करना है। इस में भिन्न-भिन्न दृष्टिकोणों से विचार प्रस्तुत किये जायेंगे कि भारतीय संस्कृतियाँ और भाषाएँ किस तरह से टेक्नोलोजी में आई तेज़ी से प्रभावित हुईं हैं। इसके अलावा हम इन विषयों के बारे में बातचीत करेंगे: राजनीति और राष्ट्रवाद, अर्थशास्त्र और अर्थव्यवस्था के उदारीकरण से हुये परिवर्तन का असर, सुरक्षा, भारत की विदेश नीति और क्षेत्रवाद। इन सब के साथ हम यह भी देखेंगे कि दक्षिण एशिया की राजनीति में भारत ने क्या भूमिका निभाई है और उसके पड़ोसी देशों के संबंध में विचार करेंगे। इस पाठ्यक्रम का उद्देश्य है विद्यार्थियों को भारत के बारे में विस्तृत जानकारी देना ताकि वे ज़्यादा अच्छी तरह से भारत और विश्व में भारत की भूमिका को समझ सकें।

Founded in more than 25 years of research, this course will engage students in various forms of cooperative learning including STAD (Student-Teams Achievement-Divisions) which continues to empower students to work together to improve their understanding of mathematics concepts through a collaborative learning approach.

Chemical Engineering (E20) is an introductory course offered by the Stanford University Engineering Department. It provi

This course will provide a walk-through of a STEM trend project that inspired passion in students and teachers in a middle school. Participants are introduced to industry applications and their links to an interdisciplinary STEM trend project.

This course is a detailed technical and historical exploration of the Apollo project to "fly humans to the moon and return them safely to earth" as an example of a complex engineering system. Emphasis is on how the systems worked, the technical and social processes that produced them, mission operations, and historical significance. Guest lectures are featured by MIT-affiliated engineers who contributed to and participated in the Apollo missions. Students work in teams on a final project analyzing an aspect of the historical project to articulate and synthesize ideas in engineering systems.

This multidisciplinary seminar addresses fundamental issues in global health faced by community-based healthcare programs in developing countries. Students will broadly explore topics with expert lecturers and guided readings. Topics will be further illuminated with case studies from healthcare programs in urban centers of Zambia. Multidisciplinary teams will be formed to develop feasible solutions to specific health challenges posed in the case studies and encouraged to pursue their ideas beyond the seminar. Possible global health topics include community-based AIDS/HIV management, maternity care, health diagnostics, and information technology in patient management and tracking. Students from Medicine, Public Health, Engineering, Management, and Social Sciences are encouraged to enroll. No specific background experience is expected, but students should have some relevant skills or experiences.

This multidisciplinary seminar addresses fundamental issues in global health faced by community-based healthcare programs in developing countries. Students will broadly explore topics with expert lecturers and guided readings. Topics will be further illuminated with case studies from healthcare programs in urban centers of Zambia. Multidisciplinary teams will be formed to develop feasible solutions to specific health challenges posed in the case studies and encouraged to pursue their ideas beyond the seminar. Possible global health topics include community-based AIDS/HIV management, maternity care, health diagnostics, and information technology in patient management and tracking. Students from Medicine, Public Health, Engineering, Management, and Social Sciences are encouraged to enroll. No specific background experience is expected, but students should have some relevant skills or experiences.

This course provides students with an opportunity to conceive, design and implement a product, using rapid prototyping methods and computer-aid tools. The first of two phases challenges each student team to meet a set of design requirements and constraints for a structural component. A course of iteration, fabrication, and validation completes this manual design cycle. During the second phase, each team conducts design optimization using structural analysis software, with their phase one prototype as a baseline.

Acknowledgements

This course is made possible thanks to a grant by the alumni sponsored Teaching and Education Enhancement Program (Class of '51 Fund for Excellence in Education, Class of '55 Fund for Excellence in Teaching, Class of '72 Fund for Educational Innovation). The instructors gratefully acknowledge the financial support. The course was approved by the Undergraduate Committee of the MIT Department of Aeronautics and Astronautics in 2003. The instructors thank Prof. Manuel Martinez-Sanchez and the committee members for their support and suggestions.

This course is an introduction to the dynamics and vibrations of lumped-parameter models of mechanical systems. Topics covered include kinematics, force-momentum formulation for systems of particles and rigid bodies in planar motion, work-energy concepts, virtual displacements and virtual work. Students will also become familiar with the following topics: Lagrange's equations for systems of particles and rigid bodies in planar motion, and linearization of equations of motion. After this course, students will be able to evaluate free and forced vibration of linear multi-degree of freedom models of mechanical systems and matrix eigenvalue problems.