INTO THE DEEP: America, Whaling & the World: a two-hour documentary film for national broadcast on PBS in 2010, directed by Ric Burns and co-produced by Steeplechase Films, American Experience, and WGBH/Boston, explores the history, culture and significance of the American whaling industry from its 17th century origins in drift and shore-whaling, through the golden age of deep ocean whaling in the 18th and 19th centuries, and on to the industry's demise in the decades following the American Civil War. Combining stunning archival material with powerful on-camera interviews, evocative live cinematography, dramatic reenactments, and underwater footage of whales at sea, the film will bring alive the complex reality and extraordinary experience of American whaling as the nation rose to the threshold of global power, all the while registering the larger forces, economic, social, cultural, technological and environmental, that shaped and propelled American Whaling.
There can be a mistaken impression that the new vision for K-12 science education is only relevant to classroom science instruction. But youth frequently engage in powerful science and engineering activities that take place after or outside-of-school. They learn STEM content, engage in STEM practices, and develop an understanding of how STEM is used in the world. To capitalize on those assets, educators and other stakeholders should learn about, leverage, and broker connections for youth across the STEM learning experiences available in and out of school.
The Chicago Architecture Foundation will produce "One Nation, Under Construction," a weekly web and radio broadcast program that engages people in learning the stories behind the building – conceptual and physical – of America’s spaces, places, and structures. Each week, the show will address a humanities theme through exploration of architecture, infrastructure, urban history, planning, and landscape. While drawing on the latest scholarship, each 60-minute broadcast will surprise, engage, and move viewers as it investigates the link between the ways of building and the values of the builders. The innovative power of this project derives from its approach –featuring the everyday voices and stories that illuminate humanities themes discussed by featured scholars and experts – combined with an internet-based strategy linked to a national scholarly network and the Chicago Architecture Foundation's extensive programming.
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.
This is a request to the National Endowment for the Humanities for funds to support the production of Panama Canal, a two-hour special presentation of American Experience, for national broadcast on PBS. Focusing primarily on the decade-long American construction effort, it places the American Canal against the backdrop of the calamitous French effort that preceded and haunted it. It traces the roots of the American commitment to a trans-Isthmian canal in Theodore Roosevelt’s expansionist vision of American power, and shows how advances in public health, technology and engineering made it possible for the Americans to succeed where the French had failed. It examines how the leadership of the canal dealt with the challenges of recruiting and managing an immense and diverse work force, and explores the risks borne by workers building one of the planet's most remarkable structures in one of the most hostile environments on earth.
This award-winning website includes a comprehensive collection of standards-based, space science education materials. Site visitors can explore a variety of resources such as A Hubble Gallery, Online Explorations, Tonight’s Sky, and Star Witness News science content readings. The “For Educators” side of site includes support materials such as science background information and overview pages that provide strategies for using Amazing Space activities in educational settings.
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TEAM MEMBERS:
Space Telescope Science InstituteBonnie Eisenhamer
The Lemelson Center for the Study of Invention and Innovation at the Smithsonian’s National Museum of American History (NMAH) contracted Randi Korn & Associates, Inc. (RK&A) to conduct a formative evaluation for Places of Invention, an exhibition funded by the National Science Foundation. The study explored visitors’ use and interpretation of the prototypes (including barriers to use and interpretation), understanding of the relationships among people-place-invention and 21st century skills, and interpretation of what the Places of Invention exhibition is about. How did we approach this study
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TEAM MEMBERS:
Lemelson Center for the Study of Invention and InnovationRandi KornEmily CraigAmanda KrantzNational Museum of American HistorySmithsonian Institution
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.
This feature documentary will join film to humanities scholarship in investigating the historical production of nuclear waste, the present character of communities living with that waste, and the combined efforts of sociologists, anthropologists, writers, and scientists to imagine how to guard this material into the 10,000-year future. Drawing on important work in environmental (land) history, ethics, and politics, as well as work on the cultural anthropology of the nuclear world, the film “Containment” examines how the Cold War transformed the American landscape, how nuclear waste compels us today—in lands across the United States and beyond—to examine our most basic views about the control and ethics of land use, and how 24,000-year half-life of plutonium pushed scientists and humanists into the Congressionally-demanded business of imagining a ten-thousand year human future in order to mark and isolate nuclear waste.
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
This project will study two emerging and innovative technologies: interactive, dynamic simulations and touch-based tablet devices. The use of touch-based tablet technology (e.g., iPads) in the classroom is rapidly increasing, though little research has been done to understand effective implementation for learning science. Interactive simulations are now in use across K-16 levels of education, though what impact tablet devices have on the effective implementation of science simulations is not yet known. This project will explore this new frontier in education, over a range of contexts, providing new insight into effective interactive simulation design, classroom facilitation techniques, and the effects of tablet-based simulation use on underrepresented populations in STEM courses. Together, Dr. Emily Moore (PhET, UCB), a leader in interactive simulation design and classroom use, and Dr. Roy Tasker of the University of Western Sydney (UWS), a leader in chemistry education research, science visualizations, and teaching with technology, will research on the new technology frontier in science education - laying the groundwork for future investigations of foundational questions in technology use for learning science. This work has great potential to transform the future of science learning, making it both more engaging and more effective for diverse populations. The research findings will immediately impact 1) the design of new and existing PhET simulations - reaching millions of students and teachers using PhET simulations worldwide - and 2) the development of best practices guidelines for teachers using tablet technology to increase student learning, engagement, and participation in STEM disciplines.
The PhET Interactive Simulations group at the University of Colorado is expanding their expertise of physics simulations to the development of eight-to-ten simulations designed to enhance students' content learning in general chemistry courses. The simulations are being created to provide highly engaging learning environments which connect real life phenomena to the underlying science, provide dynamic interactivity and feedback, and scaffold inquiry by what is displayed and controlled. In a second strand of the project, a group of experienced faculty participants are developing and testing lecture materials, classroom activities, and homework, all coordinated with well-established, research-based teaching methods like clicker questions, peer instruction, and/or tutorial-style activities, to leverage learning gains in conjunction with the simulations. The third strand of the project focuses on research on classroom implementation, including measures of student learning and engagement, and research on simulation design. This strand is establishing how specific characteristics of chemistry sim design influence engagement and learning, how various models of instructional integration of the sims affect classroom environments as well as learning and engagement, and how sim design and classroom context factors impact faculty use of sims. To ensure success the project is basing sim design on educational research, utilizing high-level software professionals (to ensure technically sophisticated software, graphics, and interfaces) working hand-in-hand with chemistry education researchers, and is using the established PhET team to cycle through coding, testing, and refinement towards a goal of an effective and user friendly sim. The collection of simulations, classroom materials, and faculty support resources form a suite of free, web-based resources that anyone can use to improve teaching and learning in chemistry. The simulations are promoting deep conceptual understanding and increasing positive attitudes about science and technology which in turn is leading to improved education for students in introductory chemistry courses both in the United States and around the world.