The University of Pennsylvania Museum of Archaeology and Anthropology will work over three years to design, develop and fabricate "Survivor, the Place of Humans in the Natural World," a 3,000 sq. ft. traveling exhibition for audiences ages nine and older which explores the process and consequences of human evolution in the context of its implications for our daily lives. Using hands-on interactive devices, flexible exhibit designs with multimedia capabilities, and interactive "Web-chats" with an open community of scholars, UPM will engage visitors with the discovery of the place of humans on the planet Earth. The exhibition, along with ancillary educational materials and programs, is scheduled to open in 2006, then subsequently travel for three years to nine widely distributed institutions, ultimately serving a national audience of several million viewers.
The North Carolina State University will produce a one-hour film documentary on language diversity in North Carolina for public television and for distribution to public agencies throughout the state. The documentary and associated activities will illustrate the socio-cultural and socio-linguistic heritage of language variation; exemplify the systematic language patterns associated with different regional and ethnic groups and demonstrate the role of language in the construction of cultural identity. In addition to the documentary for public broadcast, footage for particular regional varieties and socio-cultural groups will be compiled into pedagogically useful 20-30 minute vignettes. A workbook for using the materials will also be prepared. In terms of its larger significance and broader impacts, this project addresses a need for informal education about language variation to counter public misunderstandings and stereotypes leading to discrimination based on language differences.
After-school programs are a source of powerful, positive experiences for an estimated eight to ten million youth, especially those in low-income, under-represented populations (the majority of youth in these programs). Through this conference grant, TERC, along with the Exploratorium and the Lawrence Hall of Science, proposes to launch a national initiative to create, support and sustain engaging, research-based science and mathematics activities in the after-school community. This planning conference will bring together the leaders and experts who run exemplary after-school programs, create quality science and mathematics materials, and provide effective staff training to identify the challenges, goals and questions of greatest interest and value to the national community. Intellectual merit and broader impact are evidenced by the gathering of key players, promotion of dialog and the facilitation of connections between developer and after-school communities.
Community Science Workshops: Beginning a National Movement is an extension of a successful, NSF-funded project that created a network of community science centers in California. The San Francisco State University will now take this successful venture to a national level by working with the American Association for the Advancement of Science (AAAS) and Quality Education for Minorities (QEM) to establish a new Community Science Workshop (CSW) 8-10 in underserved communities over the next four years. Once sites are selected, CSW directors participate in an intensive two-week training program. This is followed by visits by site mentors, and ongoing support through the WWW and other media, which contributes to the establishment and eventual sustainability of the centers. Each site partners with larger, established museums and science centers locally to gain much needed assistance with exhibits and education programs. Community Science Workshops contain permanent exhibit space, a workshop area for student projects and classroom/storage space. They serve a variety of audiences through after school, family, school and summer science programs. Potential locations include Arizona, Florida, Louisiana, Michigan, Montana, Nebraska, New York, Tennessee, Texas, Washington and the District of Columbia.
Project Butterfly WINGS is a three-year project targeting 4th-8th grade participants in 13 Florida counties. This project includes the use of the 4-H network as a partner to recruit participants. It builds on the development of student-scientist partnerships to create an environment where information, data and ideas can be exchanged. This project will focus on collecting data on butterflies and the environments/habitats the butterflies choose to visit. This project brings together several important elements to present an interactive, authentic, research-based SSP activity supported through an established network of ISE providers, educators and community-based organizations. Based on solid research and knowledge about ISE approaches, the project has strong content connections and a well-designed structure. An interactive web-site will provide opportunities for participants to interact with each other and with participating scientists, and to experience firsthand some of the most interesting aspects of engaging in scientific inquiry. WINGS has the potential to create a network of young people who will be more aware of issues related to biodiversity and the environment. Through its model approach and participant outcomes, "Project Butterfly WINGS" is positioned to make a difference in the ISE field and in the lives of its participants.
Mixing in Math is a multi-dimensional, three-year project that seeks to build the capacity of after-school programs to provide meaningful and engaging math activities for youth. Program collaborators including project leaders from TERC and after-school program leaders will reach approximately 40,000 children through at least 350 sites and approximately 9,000 staff and volunteers. Drawing on the unique features of the after-school environment, the project design includes the following elements: development of materials appropriate to the setting; staff development and support; institutionalization and dissemination of materials throughout an established network and evaluation research to further knowledge about informal math and after-school programming. Project goals are to: provide free math materials to all participating after-school staff; produce a significant increase in informal math training for the after-school workforce; strengthen the role of informal math in after-school settings; and conduct and disseminate research on the project in terms of its impact on after-school programming, informal math education and the math "achievement gap." "Mixing in Math" national partners will facilitate further reach of the project. The National Institute of Out of School Time (NIOST) in addition to posting materials on their website, will incorporate project activities into their staff development programs. Ceridian, a work-life benefits provider, will distribute project materials to workplace school-ages childcare programs.
Chabot Space and Science Center seeks support to engage in a six-month planning process for "Imagine That!," a multi-faceted science and technology career exploration program. In partnership with the Columbia River Exhibition of History, Science & Technology (CREHST) and the American Museum of Science & Energy (AMSE), Chabot proposes to fill the gap between well-intentioned and designed programs and the programs' abilities to really influence/affect future career choices by participants. "Imagine That!" will familiarize youth with a wide range of careers in scientific and technical fields through after-school and summer programs that offer in-depth career exploration and guidance activities, hands-on experiences that complement science education in school and an introduction to role models. "Imagine That!" will also provide parents with resources to support their children as they explore potential careers in science, technology and engineering. This planning grant will enable the three major science museums, Junior Achievement and government and business partners to develop the logistics for working together on an ambitious collaborative program of national scope. "Imagine That!" has the potential for broad and significant impact. Not only would it create a national program of career exploration, it will strengthen and diversify the STEM workforce. The national impact of this project is assured by the inclusion of geographically diverse partners, regional advisory councils and a robust dissemination plan.
WGBH's Science Unit is requesting funds to produce for NOVA a two-hour television special based on David Bodanis' book "E=mc2: A Biography of the World's Most Famous Equation." Combining dramatic and documentary techniques, the program uses Einstein's iconic equation to explore the physics behind the equation and the nature of the scientific process. A media initiative, an interactive Web site, and an outreach campaign broaden the program's impact beyond the television broadcast. "E=mc2" is intended for prime-time broadcast on PBS in the fall of 2005, to coincide with the centennial of Einstein's "Miracle Year," and should reach an initial audience of seven million viewers. Outreach kits will be made available for free to 16,000 public libraries and 1,000 after-school programs. Notification of educational resources will be sent to all 14,000 high school physics teachers around the country. A formative evaluation of the program and a summative evaluation of the program and outreach materials will ensure that "E=mc2" achieves its ultimate purpose: to enhance public understanding of science and promote scientific careers. Key Project Personnel: Director of the WGBH Science Unit and Senior Executive Producer of NOVA: Paula S. Apsell Writer/Director: Kevin Macdonald Producer: John Smithson Formative Evaluation: Multimedia Research Summative Evaluation: Goodman Research Group
The Wildlife Conservation Society (WCS), the umbrella organization including the Bronx Zoo, will design, develop, fabricate, evaluate and install a long-term exhibition with ancillary public programming about the biology and conservation science of the island of Madagascar. Based in part on long-term scientific research conducted in Madagascar by the WCS, the exhibit will use immersive, interactive exhibit approaches including live plants and animals, as well as an on-line curriculum (Wild Explorations in Science), distance learning expeditions, and an interactive website to engage visitors of all ages in experiencing conservation science and specific examples of science saving wildlife. Visitors will explore unique and beautifully re-created habitats, encounter fascinating animals and learn about concepts such as endemism, island biogeography and biodiversity. The exhibit will serve about 2,000,000 visitors to the Bronx Zoo annually and millions nationwide through on-line curricula and distance learning programs.
The Children's Museum of Houston seeks to develop a 1,500 sq ft bilingual traveling exhibition based on their bilingual "Magnificent Math Moments" activities. This project simultaneously addresses two very important needs: the relative lack of mathematics exhibits for young children and for Spanish-speaking audiences. The exhibition is based on Patron (Pattern) Point where the visitor meets math superheroes, Subtracta, Capt. Mas in the settings of Subtracta's Puzzle Parlor; Capt. Mas's Marina; and Formas (Shapes) Family Shipping Yard. It will provide an inviting setting for introducing the target audiences to mathematics through the use of characters, environments and puzzles. BROADER IMPACT: Fabrication of a second version of the traveling exhibition will extend the number of institutions reached through two national tours. These exhibitions, which target children ages 5-10 and adults, are projected to reach some 1.4 million visitors in 24 museums over five years; sites will be selected to reach Hispanic audiences in smaller, low-income urban and rural areas. For further impact CMH is forming another network of museums that will benefit from this project, even though the institutions will not be able to host the traveling exhibition. CMH also is developing ancillary materials and services to accompany the exhibition that include activity kits and cart, character costumes, training guides, parent materials and other resources.
This study (1) creates a genre of exhibit-based, group scientific inquiry programs for general and low-income museum visitors, (2) determines key program characteristics that lead to learning, (3) conducts a controlled experiment to assess the levels and nature of actual transfer of such skills to other exhibits and to visitors' lives beyond the museum visit. A team of researchers and educators creates, revises, and studies Exhibit Investigations for general and underserved visitors at the Exploratorium. During Investigations, educators coach visitors in inquiry skills that are heuristics for engaging with exhibits or physical phenomena beyond the museum. Pre- and post-assessments of learner interactions with a novel exhibit are recorded and analyzed for evidence of transfer of the inquiry skills introduced during the Investigations. Exit and follow-up interviews determine long-term impact. Two versions of the Investigations-with and without mnemonic cards summarizing inquiry skills-are compared with two control conditions in a randomized block design with four conditions and 50 groups per condition. Intellectual Merit The project broadens the focus of current research on the learning of scientific inquiry skills beyond the school setting. A science museum with engaging and interactive exhibits constitutes an ideal and understudied setting for research on inquiry learning by groups. This project . describes the nature of inquiry learning in an informal learning environment . generates principles for using audience diversity to enhance learning identifies specific inquiry skills that are relevant and effective in this environment . assesses levels of transfer of such skills by visitors . compares such transfer to control groups receiving no mediation or content-based mediation The exhibit-based, group inquiries adapt best practices from formal education for use in the multigenerational, free-choice learning environment of a museum. The research yields a series of effective programs and a set of theoretical principles that account for their efficacy. Broader Impacts Project results and learning principles will be disseminated to academic, museum, and lay audiences. In total, the project serves approximately 1,000 Exploratorium visitors. The project will is presented at national and local conferences such as AERA, ASTC, VSA, and AAM, reaching museum researchers, practitioners, and a broad educational research community. Articles are submitted to peer-review journals in the fields of museum studies and science education. Project updates and the final report are posted on the Exploratorium Web site (visited by 15 million annually). Outcomes are disseminated to the Center for Informal Learning and Schools (CILS), an initiative of the Exploratorium, Kings College London, and UC Santa Cruz. A non-technical publication, distributed through the Association of Science-Technology Centers (ASTC), informs science centers around the world.
Understanding the Science Connected to Technology (USCT) targets information technology (IT) experiences in a comprehensive training program and professional support system for students and teachers in science, technology, engineering and mathematics (STEM). Participants have opportunities to assume leadership roles as citizen volunteers within the context of science and technology in an international watershed basin. Training includes collection, analysis, interpretation and dissemination of scientific data. BROADER IMPACTS: Building on a student volunteer monitoring program called River Watch, the USCT project enables student scientists to conduct surface water quality monitoring activities, analyze data and disseminate results to enhance local decision-making capacity. The project incorporates state and national education standards and has the potential to reach 173 school jurisdictions and 270,000 students. USCT will directly impact 81 teachers, 758 students and 18 citizen volunteers. The USCT project provides direct scientist mentor linkages for each participating school. This linkage provides a lasting process for life-long learning and an understanding of how IT and STEM subject matter is applied by resource professionals. Broader impacts include accredited coursework for teachers and students, specialized training congruent with the "No Child Left Behind Act of 2001," and building partnerships with Native American schools. INTELLECTUAL MERIT: The USCT project is designed to refocus thinking from static content inside a textbook to a process of learning that includes IT and STEM content. The USCT engages students (the next generation of decision makers) in discovery of science and technology and expands education beyond current paradigms and political jurisdictions.