The Garden Mosaics program will develop and test a model in which youth conduct research on community and home gardens in urban settings. Youth ages 11-18 will be recruited to participate in gardening activities in conjunction with elders from their communities. Students learn the science content associated with organismal biology, community ecology, ecosystems and the physical environment, as well as culturally-related food growing practices. Participants then take part in guided research; using methods such as transect walks, mapping, ecosystem models and soil tests, to document food-growing practices of immigrant minority and traditional gardeners. Expanded research investigations will be open to students who want to continue their explorations using the Internet and other resources. Students contribute to new and existing databases of ethnic and heritage gardening practices in the United States. Materials to be developed include an Educator's Manual, a Youth Handbook and a Garden Mosaics website. During the pilot phase a national leadership team will be established to test the program and materials at 10 sites in different cities across the U.S. including San Antonio, Baltimore, Boston, Sacramento, New York, Brooklyn and Philadelphia. It is anticipated that the dissemination of this model will reach more than 750 educators and 13,000 youth.
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TEAM MEMBERS:
Marianne KrasnyAlan BerkowitzGretchen Ferenz
This creative project pairs grandparents or other senior citizens with children in grades K-7 for an intergenerational hands-on SMT program. The OASIS institute, which has a large national membership of adults 55 and older with centers based in 25 cities across the US, is the source of adults. Twenty intergenerational modules will be developed which address the learning styles of both children and older adults, half of which will be linked with the NSF-funded "Find Out Why" materials. Master training sessions will be conducted for OASIS trainers, who would then train volunteers at their local centers. Anticipated outcomes include increased knowledge of standards-based SMT concepts, enhanced problem-solving skills and a better understanding of how science, math and technology apply to everyday life. In addition to the modules, the program would also result in the creation of a supplementary guide for volunteers, materials kits and a comprehensive training program. It is anticipated that this exciting program will be piloted in the following nine states: MO, IN, OR, MD, AZ, TX, CA, IL and OH. Over 100,000 individuals will be impacted during the three years of the project.
Native Waters is a comprehensive four-year tribal science education program focused on water. Working closely with leaders from 28 Missouri River Basin Tribes, the project will explore the Missouri River Flood Basin from a scientific and cultural standpoint. Partners are The Watercourse and International Project WET (Water Education for Teachers). Activities include Leadership Institutes for community educators and Native Waters Future Leaders Camps for secondary school and college students. Products to be developed include an interactive traveling exhibit, which will focus on the Missouri River watershed and the physical properties of water, as well as its uses from a cultural and scientific standpoint. The exhibit will travel to cultural centers, tribal colleges and school libraries throughout the ten Missouri River Basin states. A 250-page Native Water's Educators Guide will be disseminated nationally and impact over 500,000 individuals, both youth and adults. Finally, a 16-page student activity book and a Native Waters film will be produced to introduce youth and community members to water resource issues. The training materials will be used in cultural centers, museums, area water councils and schools.
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TEAM MEMBERS:
Bonnie Sachatello-SawyerDennis Nelson
The University of Minnesota is requesting funding to implement a nationwide citizen science project focused on the life cycle of monarch butterflies. Scientists from the University will train naturalists and environmental educators throughout the U.S. at nine host sites. Participants in the first round of training will then conduct regional training sessions for naturalists, who will in turn train volunteer monitors. The target audience for volunteers will be adult/child teams. Results will be disseminated using the University of Minnesota's Environmental Spatial Analysis Center to show temporal and spatial data via the WWW. Listserves will also be created to support the project, to augment a monthly newsletter and the website. Mini-exhibits will be created to highlight the project at participating nature centers. Exhibits will focus on monarch and insect ecology and conservation, as well as local and population-wide monitoring efforts. It is estimated that 90-150 nature centers will participate in the regional training, and they will in turn train almost 5,000 volunteers.
The Developmental Studies Center (DSC) will implement "Home, School and Community: AfterSchool Math for Grades 3-5," a program that targets at-risk and low income children in afterschool programs. AfterSchool Math trains youth workers to help students in grades 3-5 better understand measurement and geometry concepts, building on the success of the NSF-funded Home, School and Community mathematics program for grades K-2 (ESI #97-05421). The project develops, field-tests and evaluates thirty math games and ten story guides, which support the social and mathematical development of children, while emphasizing cooperative learning. The content for all materials will be aligned with national standards in mathematics. A 12-hour professional development workshop for youth workers and an 18-hour workshop for facilitators or youth worker leaders are also planned. Two training videos and a facilitator manual will be produced to support this aspect of the project. Field testing will occur in Kansas, Louisiana and Missouri. This proposal has been augmented to include a special emphasis on rural communities which doubles the number of field test sites from 50 to 100. A Rural Outreach Specialist will conduct focus group meetings to determine needs unique to rural programs and lead the field testing in these communities. It is anticipated that over 3,200 youth workers will be trained and a national cadre of more than 300 youth worker leaders will be created.
Family Science: Expanding Community Support for Inquiry-based Science is the University of Washington's innovative five-year plan for reaching youth and families in the Seattle school district. This program represents an enhancement of the NSF-funded Family Science program targeting grades K-5 and expansion of this successful program to include middle and high school students. The proposed activities, Science Explorations, Inquiry Science Conferences and Community Celebrations, are designed to help parents understand inquiry-based science instruction while heightening students' confidence in their ability to understand science processes. The hands-on activities also support and complement Seattle's Local Systemic Change project by enlisting teachers, parents and community members to champion science education outside of the formal school setting. The implementation strategy includes workshops to train Family Science Lead Teachers and Parent/Community Leaders to coordinate Family Science programs. Subsequent partnerships between teachers and community organizations are designed to establish regional clusters of community networks to support programmatic activities during and beyond the funding period. It is estimated that Family Science will result in the presentation of nearly 300 school and community-based events impacting 10,000 individuals.
This award supports a workshop to be held in conjunction with the 2010 World Maker Faire being hosted at the New York Hall of Science. The purpose of the workshop is to bring together the Maker community with formal and informal science and mathematics learning experts. The Maker movement is a recent phenomenon promoted by the Maker Media division of O'Reilly Media. There are currently three U.S. and one International Maker Faires, with attendance of about 30,000 each. The Faires consist of exhibits characterized as technology-rich and innovative and developed either by the exhibitor (Do-It-Yourself or DIY) or increasingly, as collaborative exhibits (Do-It-With-Others or DIWO). Participants visiting the Faires interact directly with the developer(s) and exhibits to learn the technology and engineering skills associated with designing and building their own products. The New York Hall of Science workshop will be co-chaired by Tom Kalil, Associate Director of the White House Office of Science and Technology, and Dale Dougherty, Founder of the Maker Faires. It will have approximately 50 participants drawn from academe, business, non-profits, and state, local and federal government. Workshop attendees will observe and participate in the Maker Faire at the New York Hall of Science the day before the workshop. On the second day, attendees will then address the following questions: 1) How can the innovations of the Maker movement inform science and mathematics education?; 2) What collaborations between policy makers, education and learning science researchers, and the Maker Movement can best spur innovation in science and mathematics education?; 3) What funding opportunities are possible between the Maker community and the private, philanthropic, and government sectors for the support of transformative science and mathematics education and learning research? The workshop will result in a multimedia report that will propose answers to these questions. The report will inform the education and learning science research communities about opportunities for innovations in education and learning. The workshop is designed to broadly inform both policy and practice in STEM Education. The Maker/DIY/DIWO movement is focused on design and engineering. These processes are important in STEM disciplines. In particular, the movement has motivated thousands of individuals to voluntarily participate in building technology-based projects in a manner similar to the open source software movement. If this motivation can be broadly harnessed, it could transform STEM education through new knowledge of STEM learning science and education research. The broader impact of this workshop is situated in the large numbers of individuals already engaged in Maker/DIY/DIWO projects. If more STEM content can be married to these projects, then the impact to science learning and teaching could be substantial. Since many of the Maker Faire participants come from rural communities, there is an implicit promise that incorporating more STEM content into Faire projects could have the effect of broadening participation to an underrepresented community.
Cornell's Laboratory of Ornithology will develop the "Cornell Nest Box Network (CNN)". This is an educational/research project that will enable lay people to participate in scientific research and it builds on a successful NSF grant "National Science Experiments". For this project, CNN participants will build and place nest boxes in their communities and monitor the boxes gathering information on the breeding success of their occupants. Participants will summarize and analyze their data and then send it to the Lab for more comprehensive analysis. Lab biologists will analyze the compiled data and report results in a variety of media including scientific reports and popular newsletters. The CNN includes both an educational and research agenda. Participants will learn about birds while participating directly in the scientific process. The research questions, requiring huge, continent-wide databases, will focus on the effects of acid rain on bird populations, geographic variation in avian clutch size, effects of ectoparasites on nesting birds and population dispersal, among others. The protocol will encourage group participation and will be especially suitable for families. It will involve a corps of trained "ambassadors" who will help sustain the project a local levels. One of the goals of the project is to move participants up a ladder of science knowledge from projects involving minimal knowledge and skill to those requiring more. It also addresses national education standards that call for increased opportunities for students to engage in extended inquiry and authentic research activities. After the fourth development year, this research/education project will become self-sustaining.
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TEAM MEMBERS:
Andre DhondtRick BonneyJohn FitzpatrickDavid Winkler
The Educational Film Center will complete production of a science, engineering, and technology careers exhibit and informal science education project for use in science museums, libraries, schools, and community locations. The twelve additional interactive and linear career profiles to be produced under this grant will bring the total number of careers available in a fully interactive mode to thirty-two. Users will be able to explore each of these careers with first person video profiles of people in science and engineering and animated/reality video simulations of work experiences in these fields. The exhibit also with provide guidance to help users make decisions about education and career choices and will include a database of information about approximately 200 additional science and math-based professions. The project also will undertake the development and testing of eight permanent model Family Outreach Science Career Education Centers in eight cities. These centers will be based on and will expand upon the experience the project had in their earlier model Parent Outreach Science Career Program. Utilization support will be provided through special target leader guides, presentations and workshops at national and regional meetings of user organizations and groups, and a SETQuest bulletin board and e-mail network for the exchange of user science career programming. This project is a collaborative effort among four organizations: The Educational Film Center (EFC) is responsible for management of the project and for the development of production of the software and the documentary video profiles; COMAP is responsible for selecting and hiring content consultants, for formative and summative evaluation, and will jointly market and distribute the material with EFC; The New York Hall of Science is responsible for the exhibit kiosk and graphics, the design and development of the workbook and museum installation print components of the project, and will serve as principal test site for the exhibit; and the AAAS is coordinating the design, implementation, and testing of parent outreach program. All of the organizations will be involved in presentations and dissemination of project information to the informal and formal education communities.
WGBH is conducting preliminary work on an untested and novel idea for a new multimedia project, EGames. The target audience for the project is children ages 9-12. The project envisions a 13-part television series which combines the appeal of a game show with the drama of real-world challenges to engender enthusiasm and promote understanding of engineering in kids nationwide. The television programs will be complemented with materials and training for engineers to mount EGames events in public venues and run workshops in schools, afterschool programs and libraries, and an extensive companion website. During the research phase, WGBH will convene a Content Advisory Board which would include professional engineers, curriculum developers, classroom teachers, professors of engineering and informal educators, and a Funding Advisory Board. They will also write the series curriculum, design the game, develop outreach, Web, and evaluation plans, and develop and test a sample engineering challenge with a group of contestants to work out logistic and production questions. This will inform the next stage of project development. Note: This project led to the series "FETCH! With Ruff Ruffman."
The Parents Involved/Pigeons Everywhere (PIPE) project is a collaboration between KCTE-Community Television of Southern California, The American Association for the Advancement of Science, and the Cornell Laboratory of Ornithology. They are developing a three-year model project to engage parents in science education with their children through Project PigeonWatch, a citizen-science program run by Cornell University. The PIPE project will develop videos and written materials for use in a series of parent workshops designed for libraries and community science centers. The materials and workshops will be targeted to low-income parents with children in grades three through five and will be tested at 27 pilot sites around the country. A PIPE leader's Web Site will link all of the pilot sites. At the end of the pilot stage, the video and print materials will be widely available and the applicants will produce a publication that indicates strategies for using and building on PIPE and will provide assistance to new sites that wish to implement the program.
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TEAM MEMBERS:
Cynthia RuizDavid CrippensJudy KassRick Bonney
Using a five-month planning grant, the International Society for Optical Engineering (SPIE) will develop a comprehensive 10-year, educational initiative to address the needs of the optical science and engineering communities. A series of workshops will be held at professional meetings of SPIE and the Optical Society of America (OSA) to assess regional needs and resources. Workshop recommendations will be used to create a plan to enhance the scientific and technological literacy of the public and raise the level of awareness about career options in this exciting and expanding field. The meetings will incorporate a diverse array of stakeholders including optical engineering and science professionals, formal and informal educators, as well as representatives from industry and underrepresented groups in science and engineering. Strategic emphasis will be placed on informal science education and efforts to recruit and retain minorities and women in optical engineering and related sciences. The resulting education blueprint will be disseminated to the field in electronic and print media, and subsequently implemented by SPIE and OSA.