Courses tagged with "Nutrition" (6413)

Join us on an exploration to uncover new technology tools to connect your classroom and students to the Common Core. Plug in with other teachers in this six-week course where you will use technology to communicate and collaborate with students and colleagues. Each week you'll experience new technology tools and explore ways these tools can support Common Core standards and help you plan and create engaging student activities. A course certificate may be earned for completing assignment tasks.

This class looks at the special structural and practical needs of theatrical scenery and effects and how they can be constructed. We map the technical design process from initial meetings to realization on stage. The class emphasizes safety, budgeting, and problem solving. Ten 1-3 page Tech notes are required as well as a final project. Work includes actual production assignments as well as paper design projects.

Are you ready to conquer your next interview? To succeed, you need to understand the expectations. Virtually all technical interviews follow a very set pattern: you get asked a very specific type of question, you're required to have very specific knowledge, and you're expected to answer—and interact with your interviewer—in a very particular way. Knowing this in advance, and preparing accordingly, is the key to success. This course was designed to give you what you need to ace a technical interview. Included are: - videos that walk you through the algorithms and data structures concepts commonly asked in technical interviews - an explanation of efficiency, and an explanation of how it relates to topics covered throughout the class - practice problems and quizzes to test your understanding - a mock interview with a breakdown explaining how interviewers expect you to explain your thought process - curated links to outside resources, including a special link to live practice interviewing with other Udacity students on Pramp - if you’re a Nanodegree student, a final project where you can answer interview questions and get feedback from a trained reviewer. The goal of this course is to prepare you for a real technical interview, so we focus on the material you'll actually be expected to do.

Here’s your chance to review the fundamental processes of mathematics with emphasis on problem-solving techniques.

Here’s your chance to review the fundamental processes of mathematics with emphasis on problem-solving techniques. During this five-week course, students can select individual math concepts or proceed through each of the self-paced learning modules. Topics include a review of arithmetic, introductory algebra, rudiments of analytic geometry, elementary trigonometry, introductory statistics, and basic finance. Module warm-up questions will help students identify learning deficits, which can then be addressed through the modules. This course also contextualizes math for trades, including electro-mechanical, engineering graphics, machining, and welding. Students who choose to master every short module quiz will be awarded a certificate of completion

We live in real-time, technologically enhanced cities. Explore the sweeping changes that our cities are undergoing as a result of networks, sensors, and communication technology.

This course introduces analysis techniques for complex structures and the role of material properties in structural design, failure, and longevity. Students will learn about the energy principles in structural analysis and their applications to statically-indeterminate structures and solid continua. Additionally, the course will examine matrix and finite-element methods of structured analysis including bars, beams, and two-dimensional plane stress elements. Structural materials and their properties will be considered, as will metals and composites. Other topics include modes of structural failure, criteria for yielding and fracture, crack formation and fracture mechanics, and fatigue and design for longevity. Students are expected to apply these concepts to their own structural design projects.

6.825 is a graduate-level introduction to artificial intelligence. Topics covered include: representation and inference in first-order logic, modern deterministic and decision-theoretic planning techniques, basic supervised learning methods, and Bayesian network inference and learning.

This course was also taught as part of the Singapore-MIT Alliance (SMA) programme as course number SMA 5504 (Techniques in Artificial Intelligence).

This course explores the potential impact of modern technologies on the school reforms debate. The first part of the course provides an overview of the current state of the school reform debate and reviews the ideas in the progressive school reform movement, as well as examining the new public charter school in Cambridge as a case study. The second part of the course requires critical study of research projects that hold promise as inspirations and guidelines for concrete multidisciplinary activities and curriculum for progressive charter schools. The course concludes with a discussion of the challenges in scaling the successful innovations in school reform to new contexts.

Understand the impact of technology on sustainability and society, using relevant historical examples and current issues in the news, and gain insight on the cultural frameworks within which ideas such as sustainability and different technologies are understood and evolve. You’ll also explore emerging technologies from the Industrial Revolution through present day, leading to a future that will be complex and challenging, and in many ways look like science fiction.

This 3 credit hour course satisfies the Humanities, Arts and Design (HU) general studies requirement at Arizona State University. This course may satisfy a general education requirement at other institutions; however, it is strongly encouraged that you consult with your institution of choice to determine how these credits will be applied to their degree requirements prior to transferring the credit.

This course explores the design of innovative educational technologies and creative learning environments, drawing on specific case studies such as the LEGO® Programmable Brick, Scratch software and Computer Clubhouse after-school learning centers. Includes activities with new educational technologies, reflections on learning experiences, and discussion of strategies and principles underlying the design of new tools and activities.

This course explores the properties of non-sequential, multi-linear, and interactive forms of narratives as they have evolved from print to digital media. Works covered in this course range from the Talmud, classics of non-linear novels, experimental literature, early sound and film experiments to recent multi-linear and interactive films and games. The study of the structural properties of narratives that experiment with digression, multiple points of view, disruptions of time, space, and of storyline is complemented by theoretical texts about authorship/readership, plot/story, properties of digital media and hypertext. Questions that will be addressed in this course include: How can we define ‘non-sequentiality/multi-linearity’, ‘interactivity’, ‘narrative’. To what extend are these aspects determined by the text, the reader, the digital format? What are the roles of the reader and the author? What kinds of narratives are especially suited for a non-linear/interactive format? Are there stories that can only be told in a digital format? What can we learn from early non-digital examples of non-linear and interactive story telling?

This course focuses on the application of theoretical approaches to the strategic management of technology and innovation. Concepts, tools, and process will be explored through lectures, readings, team activities, and case study applications. Major topics include: The importance of technological innovation Dynamics of technological change Factors affecting technological innovation and adoption Organizational strategy and strategic management in the face of rapid technological change At the end of the course you will be able to: Identify how technological innovation impacts individuals, businesses, and society as a whole Explain how technology changes and evolves Identify the key factors affecting technological innovation and adoption Explain how organizations develop and manage strategies Explain the fundamental dynamics of technological innovation in an organizational setting Explain how to develop and implement organizational strategies for technological innovation Required Materials: The purchase of an e-book priced at $5.99 is required. Technology & the Future: Managing Change and Innovation in the 21st Century Author: Peter von Stackelberg Publisher: Jericho Hill Interactive Alfred NY, 14802 Available for purchase here

This course considers the historical dimensions of rural production from subsistence to industrialization, both in America and in an international context, with an emphasis on the role of science and technology. Topics include changing notions of progress; emergence of genetics and its complex applications to food production; mechanization of both farm practices and the food industry; role of migrant labor; management theory and its impact on farm practice; role of federal governments and NGOs in production systems; women in food production systems; and the green revolution.

This course examines relationships among technology, culture, and politics in a variety of social and historical settings ranging from 19th century factories to 21st century techno dance floors, from colonial Melanesia to capitalist Massachusetts. We will be interested in whether technology has produced a better world, and for whom.

This subject examines relationships among technology, culture, and politics in a range of social and historical settings. The class is organized around two topics: Identity and infrastructure, and will combine interactive lectures, film screenings, readings, and discussion.

This course examines relationships among technology, culture, and politics in a variety of social and historical settings ranging from 19th century factories to 21st century techno dance floors, from colonial Melanesia to capitalist Massachusetts. We will be interested in whether technology has produced a better world, and for whom.

The meteoric rise of technologies used in our everyday life for profit, power, or improvement of an individual's life can, on occasion, cause cultural stress as well as ethical challenges. In this course, we will explore how these multifaceted impacts might be understood, controlled and mitigated.

This course centers on the changing relationships between men, women, and technology in American history. Topics include theories of gender, technologies of production and consumption, the gendering of public and private space, men's and women's roles in science and technology, the effects of industrialization on sexual divisions of labor, gender and identity at home and at work.

What do technology and innovation mean from Africa? This is the central question of this course, which tackles a double absence: Of the meanings and role of technology in African history, on the one hand, and of Africa's place in the global history of technology, on the other. This course alternates between technologies from outside and technologies from within Africa and their itineraries in everyday life, and it is designed to provide students with grounded understandings of technology in Africa for intellectual and action-oriented purposes.