We a have full slate of programs including science academies for underrepresented high school and middle school students; Large programs for the public including holiday lectures, stars of materials science lectures, materials science and nano days for the public; Teacher development programs including Research Experience for Teachers and Teachers as Scholars; Research Experience for Undergraduates; Graduate Summer School on Condensed Matter; and many other programs.
The Center for Sustainable Polymers implements and fosters a wide range of educational and public outreach activities. Our faculty, researchers, students, and staff work together to engage the public and educate the citizenry and policy makers on the societal importance of sustainable polymers and technologies. An important aspect of the CSP’s work is to broaden the participation of underrepresented groups in science, technology, engineering, and math (STEM) fields by relying on key community partners.
The mission of QESST public outreach is to provide a platform for engaging the community; students, parents, teachers, and the general public; in discussions about solar energy. Although there is a growing interest in advances of solar energy, many misconceptions prevail amongst the general community. Community outreach serves as a mechanism for engaging people and drawing them in. It is often the hook that creates interest in parents who pass that interest onto their children, or lures young students into more formalized QESST programs. Our outreach events range in scale from small workshops, large university wide open houses, and participation in educational television.
Xraise provides experiences that empower individuals by making science familiar and accessible. Immersed with scientists themselves, we facilitate hands-on, minds-on activities that involve the direct exploration of physics phenomena. Our relationship with K12 students, educators and community partners provides us with a platform for exploring personal intuitions, developing understandings and fostering excitement in science.
Choreographed by Liz Lerman and the Dance Exchange, The Matter of Origins is a contemporary dance exploring historical perspectives and cutting edge physics about our beginnings. In Act One, audience members watch as science concepts are translated into images, music, and dance. Dancers portray ideas such as the complexity of measurement, the ways atomic particles interact, and the origins of the universe. Science-themed, multi-media experiences including images from the Hubble space telescope, CERN, and replications of atomic bomb explosions accompany the dancing. In Act Two, audience members
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TEAM MEMBERS:
Liz LermanDiane DoberneckJohn SchweitzerPaula MillerJohn Borstel
The scrapbook of Winifred Penn-Gaskell – celebrated aerophilatelist and collector of aeronautica –reveals a great deal about its maker and the social and political context of early flight history in Britain. It is argued here that a ‘reading’ of the book as a non-textual object offers a predictive argument for the aesthetic and cultural representation of heavier-than-air craft and pilots in the years immediately prior to the First World War. By viewing each section of the scrapbook as parts of a contingent whole, the early-twentieth century interest in performative masculinity (physical
CERN’s Large Hadron Collider, the world’s largest particle physics facility, provides museological opportunities and challenges. Visitor interest in cutting-edge physics, with its high media profile, is tempered by anxiety about understanding complex content. The topic does not readily lend itself to traditional museum showcase-dominated displays: the technology of modern particle physics is overwhelmingly large, while the phenomena under investigation are invisible. For Collider, a major temporary exhibition, the Science Museum adopted a ‘visit to CERN’ approach, recreating several of the
This award will support the production of a two-hour documentary about one of the great milestones in the history of flight: the 1935 crossing of the Pacific Ocean by a Pan American Airways flying boat called the China Clipper. The Pacific crossing was a technological achievement that captured the world’s imagination in much the way the space program did a generation later. It also began the era of transoceanic flight – an era that would lead to profound changes in American foreign policy, commerce and the very way Americans saw the world. Produced by one of the makers of "Forgotten Genius," NOVA's NEH-funded, Emmy Award-winning biography of black chemist Percy Julian, "Across the Pacific" will combine dramatic re-enactments, interviews with scholars, and films and photographs drawn from the rich archival record about the early days of commercial aviation.
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