The National COSEE Network, primarily funded by the National Science Foundation, is in its thirteenth year. It is comprised of regional and thematic Centers comprised of ocean science research and formal and informal science education institutions. The network has grown to one of the largest organizations of ocean science research and education institutions, with over 280 members. COSEE is currently transitioning to an independent, international consortium. Its dues paying members are continuing to serve as a broader impacts arm for the ocean science community.
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TEAM MEMBERS:
Gail ScowcroftWilliam SpitzerAnnette deCharon
This project will reinterpret a significant property owned by Historic Hudson Valley (HHV). Using as a focusing device the experiences of four women who shaped this country estate during its 200-year history, the new interpretation will illustrate important turning points in American attitudes toward nature and landscape. As it forges a more integrated, effective way for house museums to interpret the built and natural environments, HHV will strive to help visitors understand how American points of view about landscape and nature have changed over time and why those shifts matter. Project formats include an interpretive tour of the nearly 400-acre site; web-based programs and blog; and publications. The story of Montgomery Place reflects many of the ideas and values that have shaped America’s land and people. The project addresses how cultural attitudes toward the natural world determine human actions, and how these actions in turn affect people’s environments.
Today's Brooklyn Navy Yard is a rarity: a 19th-century citadel of the Industrial Revolution reincarnated as a model of clean industrial re-use in the 21st century. A historic national icon, the Yard has long been a mystery to its neighbors. Now, for the first time since 1801, BNYDC is inviting the public in and offering a unique and remarkable venue where the Yard can tell its many stories, most for the first time. On September 7, 2011 (Labor Day), BNYDC will open the Brooklyn Navy Yard Center at Building 92, a visitor center and home of a new exhibition, The Brooklyn Navy Yard: Past, Present, and Future.
Interpreting the Interstates seeks to understand the impact of Interstate Highways on the culture and history of Rural America. Its core is a unique collection of 36,655 large-format negatives taken before, during, and after construction of the Interstates in Vermont, the Nation’s most rural state. During year 1, we will make 10,000 of these rarely-seen images public through an established digital image archive, the Landscape Change Program. In year 2, we will use images as catalysts for public discourse at town gatherings. In year 3, we will disseminate our findings widely and stimulate public discussion using 1) a flexible modular exhibit reaching much of the State’s populace at non-traditional venues: 20 county fairs, 18 libraries, & 17 rest areas, 2) permanent interpretive signs at rest stops along Vermont’s Interstate Highways to reach millions of tourists who yearly visit Vermont on the Interstate, and 3) a book and interactive web presence for national dissemination.
The Adirondack Museum at Blue Mountain Lake, New York will develop Mining in the Adirondacks, a multi-faceted project that will include a 29,000 square foot permanent exhibit, an interactive web site module, curriculum development, and public programming. The exhibition will feature approximately 300 objects from the Adirondack Museum collection, including a tuyere plate, miners’ safety gear, picks and drills, historic photographs, an ore cart, maps, iron pigs, garnet jewelry, household items and audio recordings. A mining tunnel, open pit and mine village landscape will be incorporated to provide an immersive experience for visitors. The Mining in the Adirondacks project seeks to interpret the history of mining in the Adirondack wilderness grounded in current scholarship, best museum practice, visitor studies research, and understanding of varied learning styles. Four humanities scholars will work with museum staff.
The Rochester Museum & Science Center (RMSC) requests funding to complete initial plans for Innovation Place (working title), a major new 10,000 sq. ft. exhibition in RMSC’s third floor galleries that promotes understanding of Rochester’s technological history and its culture of invention and innovation. Collections objects, immersive environments, multimedia presentations, and interactives will be used to tell stories of invention and innovation from Rochester’s beginnings as the nation’s first boomtown after the opening of the Erie Canal to its current rank among the top knowledge-based economies in the world. By combining the sciences and the humanities into a single exhibition, this project will critically frame and interpret new questions about Rochester as a laboratory of significant technologies – on the local, national, and global levels – and the changes in regional culture and economics that both inspire, and result from, their invention.
In Spring / Summer 2012, The New York Botanical Garden will present a Garden-wide, multi-element exhibit, entitled "Medicinal Plants: Ancient Culture to Modern Medicine," which will demonstrate how plants have shaped the trajectory of medicine from a historical, humanities-based, and cross-cultural perspective. The exhibition, sited throughout the Garden’s 250-acre historic landscape, including the LuEsther T. Mertz Library, the Enid A. Haupt Conservatory, the Everett Children's Adventure Garden, and the permanent collection, will examine the relationship between medicine, people, and culture. Public programs and interpretative materials will help visitors make the connection between plants and nature, and the impact, via medicine, that plants have in their lives.
The Harvard Art Museum will organize, present, and circulate a groundbreaking interpretive exhibition that will transform traditional assumptions about the role of artists in the production of new forms of knowledge during the Renaissance’s Scientific Revolution. The museum will create a major traveling exhibition, Prints and the Pursuit of Knowledge in Early Modern Europe, and related publications and public programming. The exhibition, which opens jointly at Harvard’s Sackler Museum and Wellesley College’s Davis Art Museum, addresses the participation of such celebrated northern European artists as Albrecht Dürer, Hendrick Goltzius, and Hans Holbein in the scientific inquiries of the sixteenth century, especially as manifested in their printed works. Such an investigation reveals the previously unexamined close working relationships between the artistic and scientific communities, and the exchanges of influence between them.
The project will develop and study the impact of science simulations, referred to as sims, on middle school childrens' understanding of science and the scientific process. The project will investigate: 1) how characteristics of simulation design (e.g., interface design, visual representations, dynamic feedback, and the implicit scaffolding within the simulation) influence engagement and learning and how responses to these design features vary across grade-level and diverse populations; 2) how various models of instructional integration of a simulation affect how students interact with the simulation, what they learn, and their preparation for future learning; 3) how these interactions vary across grade-level and diverse populations; and 4) what critical instructional features, particularly in the type and level of scaffolding, are needed. Working with teachers, the team will select 25 existing sims for study. Teachers and students will be interviewed to test for usability, engagement, interpretation, and learning across content areas. The goal will be to identify successful design alternatives and to formulate generalized design guidelines. In parallel, pull-out and classroom-based studies will investigate a variety of use models and their impact on learning. Ten new simulations will then be developed to test these guidelines. Products will include the 35 sims with related support materials available for free from a website; new technologies to collect real-time data on student use of sims; and guidelines for the development of sims for this age population. The team will also publish research on how students learn from sims.
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TEAM MEMBERS:
Katherine PerkinsDaniel SchwartzMichael DubsonNoah Podolefsky
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
The ScratchEd project, led by faculty at the Massachusetts Institute of Technology and professionals at the Education Development Center, is designing, developing, and studying an innovative model for professional development (PD) of teachers who use the Scratch computer programming environment to help their students learn computational thinking. The fundamental hypothesis of the project is that engagement in workshops and on-line activities of the ScratchEd professional development community will enhance teacher knowledge about computational thinking, their practice of design-based instruction, and their students' learning of key computational thinking concepts and habits of mind. The effectiveness of the ScratchEd project is being evaluated by research addressing four specific questions: (1) What are the levels of teacher participation in the various ScratchEd PD offerings and what do teachers think of these experiences? (2) Do teachers who participate in ScratchEd PD activities change their use of Scratch in classroom instruction to create design-based learning opportunities? (3) Do the students of teachers who participate in the ScratchEd PD activities show evidence of developing an understanding of computational thinking concepts and processes? (4) When the research instruments developed for the evaluation are made available for teachers in the Scratch community to use for self-evaluation, how do teachers make use of them? Because both computational thinking and design-based instruction are complex activities, the project research is using a combination of survey, interview, and artifact analysis methods to answer the questions. The ScratchEd professional development and research work will provide important insight into the challenge of helping teachers create productive learning environments for development of computational thinking. Those efforts will also yield a set of evaluation tools that can be integrated into the ScratchEd resources and used by others to study development of computational thinking and design-based instruction.
This project's aim is to understand collaboration, cooperation, and learning in the context of a large, distributed virtual organization consisting of children and teachers building web-based simulations and animations using the Scratch software. The PIs will study the nature and patterns of cooperation in the Scratch decentralized learning environment, establish principles to guide the development of systems that foster cooperative attitudes and behaviors, and develop strategies to cultivate computational-thinking capacities that are important for productive cooperation and problem-solving in virtual organizations. The Scratch community consists of over 400,000 registered members discussing, remixing, and reusing more than a million projects. The project is a collaborative project with researchers from MIT, Harvard, and the University of Pennsylvania drawn from computer science, psychology, child development, education, organizational science, and economics. Using a novel combination of experimental and ethnographic methods, the research will provide insights into how young people cooperate in virtual organizations, their attitudes and motivations related to cooperation, and their development of computational-thinking skills and capacities necessary for productive cooperation and creative learning. The researchers expect that the findings will contribute to the design and understanding of more effective virtual organizations, particularly in the areas of learning, education, and cooperative creation. The methods used include observational studies, design interventions, and field experiments. The test bed will be the Scratch community and the evaluations will be done by mining the online record of cooperation in the construction of new simulations and animations. The outcomes of the project will include an improved Scratch environment, design principles for the construction of distributed virtual organizations that encourage cooperation and co-construction of knowledge and artifacts, and new methods of teaching computational thinking in an engaging environment. The Scratch community of 400,000 members will be part of this work. This project is potentially transformative because of the engaging nature of this particular application, because of its applicability to similar virtual communities, and because of its promise to reach a diverse community of learners.
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TEAM MEMBERS:
Mitchel ResnickNatalie RuskJohn MaloneyYochai BenklerYasmin Kafai