After-School Math PLUS (ASM+) uses the rapidly growing field of informal education as a venue to develop positive attitudes, build conceptual knowledge, and sharpen skills in mathematics for underserved youth in grades 3-8. "ASM+" brings families and children together in the pursuit of mathematics education and future career interests and directly addresses the NSF-ISE's four areas of special interests: (1) builds capacity with and among informal science education institutions; (2) encourages collaborations within communities; (3) increases the participation of underrepresented groups; and (4) models an effective after-school program. " ASM+" is being developed in collaboration with the New York Hall of Science and the St. Louis Science Center with support from after-school centers in their communities. "ASM+" incorporates the best practices of existing programs, while adding its own innovative elements that have proven successful in the NSF-funded "After-School Science Plus" (HRD #9632241). "ASM+" is aimed at underserved youth and their families, as well as after-school group leaders and teenage museum explainers who will benefit from training and participation in the project. It has facilitated the creation of alliances between museums, after-school centers, schools and the community.
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.
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 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.
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.
The St. Louis Science Center, in collaboration with the City College of New York and the Science Museum of Minnesota, will combine their considerable expertise with youth programs to create new opportunities for after-school STEM learning. Teens, ages 14-17, currently participating in the "Youth Exploring Science" program at the St. Louis Science Center and the Youth Science Center at the Science Museum of Minnesota will receive intensive training to prepare them to assume the role of lead designers of Learning Places that will be created in nine-after school programs in St. Louis and St. Paul. "Learning Places" are educational environments supported by hands-on activities and innovative strategies that integrate science, mathematics and technology into after-school programs. In the final year of the grant the project will be disseminated to five museums across the US including the Pacific Science Center (Seattle, WA), Headwaters Science Center (Bemidji, MN), Explora (Albuquerque, NM), and Sciencenter (Ithica, NY). Youth program staff, and staff and administrators in after-school programs and partnering museums will also benefit from training and professional development. Deliverables include 27 "Learning Places," a teen training program, a Resource Guide for implementation and research contributions to the field.
Geometry Playground created by The Exploratorium, playground designers Landscape Architecture, Inc., the Science Museum of Minnesota, Brooklyn Children's Museum, Sciencenter-Ithaca, and Science Works-Ashland is a 4,500-square foot traveling exhibition that includes immersive, table-top hands-on and electronic game elements on spatial and mathematical learning (Shape Garden, Surface City and Pattern Jungle); outdoor versions of selected exhibits from the full exhibition for public and school playgrounds and museums; and a Web site optimized for Web-enabled mobile phones.
The goal of this Planning Grant is to create and pilot embedded mathematics activities in an effort to increase numeracy skills of adults in community advocacy groups. The project is designed to explore the manner in which adults address mathematics issues related to community problems, design interventions that will assist with the understanding and interpretation of data, the use of mathematics and experiment with focused activities to explicate mathematical ideas. Three proof of concept intervention activities will be pilot tested with members of urban and rural community action groups in Boston, Massachusetts, and in a rural Appalachian town in Tennessee. The project partners include the Center for Literacy Studies, Boston Asthma Coalition, Haitian American Public Health Initiative and the Blue Ridge Environmental Defense Fund. Project deliverables include a needs assessment and the design and evaluation of mathematics interventions to ascertain the impact on adults' use and confidence. Strategic impact will be realized by exploring community groups as an informal education setting for introducing contextualized STEM content.
Colorado State University proposes to identify the framework and infrastructure needed for the university's main campus and pueblo campus to deliver informal science education to school aged youth and their families with a particular focus on Hispanic families. The two-year planning process will include workshops, surveys, focus groups and interviews with key partners in the community that provide programming and advocacy for the targeted audience of school age children and Hispanic families in particular. An advisory board and core team of planners will use data gathered from this process to inform the development of the infrastructure model and to identify STEM concepts and formats, compelling University resources and faculty Professional Development needs in this University/Community partnership. The results of this planning initiative will provide tools, infrastructural plans and community awareness that will support future opportunities for delivering programs to specific school age audiences and developing the capacity of the faculty/staff to work with new audiences. These future efforts will support the ultimate goal of increasing school age children's participation in ISE and ultimately the numbers of Hispanic youth who go on to participate in STEM careers.
Children's Discovery Museum of San Jose, CA, will develop a three-pronged project called "Round and Round" focused on the geometry, science and technology of circles and wheels. All three project products (one permanent and one traveling version of a 2000-sq. ft. exhibition; an array of complementary educational programs for children ages 3-10; and published research on patterns of interactions among families of diverse backgrounds in museum settings) will be developed in cooperation with developmental psychologists from the University of California at Santa Cruz and advisors from Latino and Vietnamese communities in San Jose. "Round and Round" exhibits and programs will offer a trans-cultural, gender-neutral, and multi-disciplinary look at the ingenuity and ubiquity of circles. Together they will provide a comprehensive array of interactive experiences that help children, ages 3-10, and adults explore the mathematics, physics, physical properties and engineering advantages of circles and wheels. The project is expected to serve three million visitors in science and children's museums across the nation within four years of implementation.
The purpose of this project is to enhance African American parental involvement with high school student children by developing skills and strategies for effectively managing the educational careers of their children. It would create a capacity for collaborations with the schools that service African American children by developing the social and organizational infrastructure for continued parental involvement in educational careers. It seeks to increase enrollment and success of Black students in higher-level mathematics and science courses to diminish the race gap in math and science track placements. It uses a quasi-experimental design to implement a series of community workshops designed to enhance knowledge, skills, and strategies for managing placements of children in science and math tracks. The research would create an intervention designed to change the outcome of students. It would conduct ethnographic work to map successful pathways to enrollment in higher-level math courses. It would use findings from these studies to implement workships within the Black communities, and conduct statistical analysis of the growth in achievement as a result of the reduction in course taking.
This project develops an 8-week middle-school mathematics module that introduces cryptography, the science of sending secret messages, while teaching and reinforcing the learning of related mathematical concepts. The topics range from the classical encryption systems and the historic context in which they were used through powerful modern encryption systems that provide secrecy in electronic messages today. The module also covers passwords and codes that correct errors in the transmission of information. Public awareness of the importance of cryptography is growing, as is the need to understand the issues involved. The study of cryptography provides an interesting context for students to apply traditional mathematical skills and concepts. Mathematical topics covered include percents, probability, functions, prime numbers, decimals, inverses and modular arithmetic. The main product is a middle-school student book, with accompanying teacher materials. A web site is being developed that supports the activities in this book. Abbreviated modules for Grades 3, 4 and 5 are also being developed, as well as an instructor's guide for adapting the materials for use in informal educational settings such as museums and after-school programs. The development of the module involves piloting and field-testing by experienced classroom teachers from diverse school communities and instructors of informal educational programs. Evaluation includes review by mathematicians and educators, as well as an investigation into the level of students' understanding of the topics studied.