The Physics and Chemistry Education Technology (PhET) Project is developing an extensive suite of online, highly-interactive simulations, with supporting materials and activities for improving both the teaching and learning of physics and chemistry. There are currently over 70 simulations and over 250 associated activities available for use from the PhET website (http://phet.colorado.edu). These web-based resources are impacting large number of students. Per year, there are currently over 4 million PhET simulations run online and thousands of full website downloads for offline use of the simulations. The goal is that this widespread use of PhET's research-based tools and resources will improve the education of students in physics and chemistry at colleges and high schools throughout the U.S. and around the world. This PhET project combines a unique set of features. First, the simulation designs and goals are based on educational research. Second, using a team of professional programmers, disciplinary experts, and education research specialists enables the development of simulations involving technically-sophisticated software, graphics, and interfaces that are highly effective. Third, the simulations embody the predictive visual models of expert scientists, allowing many interesting advanced concepts to become widely accessible and revealing their relevance to the real world. And finally, the project is actively involved in research to better understand how the design and use of simulations impacts their effectiveness - e.g. investigating questions such as "How can these new technologies promote student understanding of complex scientific phenomena?" and "What factors inhibit or enhance their use and effectiveness?".
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TEAM MEMBERS:
Katherine PerkinsMichael DubsonNoah FinkelsteinRobert ParsonCarl Weiman
Overview of Sustainability Professional Development and Evaluation: As part of the National Science Foundation funded "Sustainability: Promoting Sustainable Decision Making in Informal Education" project, the Oregon Museum of Science and Industry (OMSI) and its partners developed a professional development website and workshop. The goal of this and other project deliverables was to promote sustainable decision making by building skills that allow participants to weigh their choices and choose more sustainable practices. ExhibitSEED (Exhibit Social Environmental and Economic Development) refers
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Oregon Museum of Science and IndustryRenee B. Curtis
Overview of the Local Voices, Clever Choices Project: As part of the National Science Foundation funded "Sustainability: Promoting Sustainable Decision Making in Informal Education" project, the Oregon Museum of Science and Industry (OMSI) and its partners developed a bilingual (Spanish/English) outreach campaign- Local Voices, Clever Choices/Nuestras voces, nuestras decisiones. The goal of this and other deliverables was to promote sustainable decision making by building skills that allow participants to weigh the tradeoffs of their choices and thereby choose more sustainable practices. The
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TEAM MEMBERS:
Oregon Museum of Science and IndustryRenee B. CurtisKyrié Thompson Kellett
This project continues the development, testing, and use of a series of web-based computer simulations for improving the teaching and learning of physics. It expands the number of simulations in physics, creates new simulations addressing introductory chemistry, creates simulations addressing the conceptual understanding of equations in solving science problems, and further refines some existing simulations. It increases, by approximately 35, the 35 online interactive simulations that have been developed for teaching physics. The project produces and widely disseminates on-line supporting materials for use in undergraduate and high school science courses. The supporting materials include: guided-discovery, tutorial worksheets; a list of learning goals; materials to support in-lecture, homework, and laboratory use; assessment instruments; and other user-contributed materials. The simulations being introduced and their effectiveness are being evaluated in at least eight additional courses in physics and chemistry at the University of Colorado and a diverse set of partner institutions. The materials are being extensively tested to ensure that they are easy to use and effective at promoting deep conceptual understanding and positive attitudes about science and technology.
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TEAM MEMBERS:
Carl WiemanNoah FinkelsteinKatherine Perkins
Based on work in media studies, new literacy studies, applied linguistics, the arts and empirical research on the experiences of urban youths’ informal media arts practices we articulate a new vision for media education in the digital age that encompasses new genres, convergence, media mixes, and participation. We first outline the history of how students’ creative production has been used to meet the goals of media educators and highlight new trends in media education that are instructive for creative production. Our goal is to introduce and situate the new ways in which youth are
In this paper we articulate an alternative approach to look at video games and learning to become a creator and contributor in the digital culture. Previous discussions have focused mostly on playing games and learning. Here, we discuss game making approaches and their benefits for illuminating game preferences and learning both software design and other academic content. We report on an ongoing ethnographic study that documents youth producing video games in a community design studio. We illustrate how video game making can provide a context for addressing issues of participation
This paper argues that the "kindergarten approach to learning" – characterized by a spiraling cycle of Imagine, Create, Play, Share, Reflect, and back to Imagine – is ideally suited to the needs of the 21st century, helping learners develop the creative-thinking skills that are critical to success and satisfaction in today’s society. The paper discusses strategies for designing new technologies that encourage and support kindergarten-style learning, building on the success of traditional kindergarten materials and activities, but extending to learners of all ages, helping them continue to
In today's rapidly changing world, people must continually come up with creative solutions to unexpected problems. Success is based not only on what one knows or how much one knows, but on one's ability to think and act creatively. In short, people are now living in the Creative Society. Unfortunately, few of today's classrooms focus on helping students develop as creative thinkers. In addition, the proliferation of new technologies is quickening the pace of change, accentuating the need for creative thinking in all aspects of people's lives. In this article, the author discusses two
This project develops an interdisciplinary and transformative in- and out of-school science education and technology program that engages high school aged youth and their teachers in 1) the production of food using hydroponics, and 2) the use of green energy technologies (solar, and wind) to power hydroponic systems. This distinctive program integrates food production, a novel model of parental outreach, a focus on green career development, and an authentic reason (growing their own produce for selling at a market) for learning how and why to use alternative energy technologies. The project creates an approach to sustainability in which students not only give back to their community, but are in a position to provide a continuous revenue stream to the school in order to operate their indoor urban garden indefinitely. The partnership with the Boston Youth Environmental Network provides youth opportunities for summer internships with green energy companies. The project builds upon a learning progressions model in which youth gradually learn about complex scientific systems and economic principles throughout their years in the program. Rather than a onetime experience, youth are engaged in a long-term experience building their knowledge and skills regarding science, economics, and college preparedness. This project has the potential to impact thousands of students informally and over 2000 students (in classrooms) directly with a minimum of 60 students receiving focused and in depth learning experiences during the summer and on weekends during the school year. With the passage of laws encouraging local schools to partner with local farms, the need for locally grown produce will increase; in that context, the program brings the farm to the school in a way that allows food to be grown year round. Thus, a model is developed that any school or informal learning center could adopt to grow their own food while simultaneously creating a living and learning laboratory for youth in their own program.
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TEAM MEMBERS:
George BarnettEric StraussDavid BlusteinCatherine WongElizabeth Bagnani