Red Hills Studios proposes to design and develop BioArcade, a suite of online biology games for youth ages 9 to 13. Unique to the field of educational games is the specialized and innovative modding feature that Red Hills Studio will develop. Modding will allow learners to create their own customized versions of BioArcade games for dissemination to other learners. BioArcade games are intended to encourage extended game play and motivation for learning key biology concepts through exciting interactive game modules developed by a leading group of game developers and science content experts. The underlying educational and scientific framework for BioArcade will be developed collaboratively with Co-PI, Dr. Janis Cannon-Bowers at the University of Central Florida and Roger Bybee at the Biological Sciences Curriculum Study (BSCS), along with the projects Scientific and Design Advisory Boards. The project will rigorously evaluate modding as a potential new approach in game design. The modding innovation will be studied in a three-condition randomized controlled trial to determine its effectiveness in promoting deep exploration of scientific concepts and increased knowledge gain. Results of the study will be disseminated to the informal learning community through peer-reviewed educational journals, papers, and presentations at science education and game conferences. Extensive formative and summative evaluations, conducted by Knight Williams Research Communications, will provide valuable insight and assessment of the game design approach for science content learning in informal venues. BioArcade will be widely disseminated daily to millions of young learners online through PBSKids: www.pbskids.org/
The Cryptoclub: Cryptography and Mathematics Afterschool and Online is a five-year project designed to introduce middle school students across the country to cryptography and mathematics. Project partners include the Young Peoples Project (YPP), the Museum of Science and Industry in Chicago, and Eduweb, an award-winning educational software design and development firm. The intended impacts on youth are to improve knowledge and interest in cryptography, increase skills in mathematics, and improve attitudes towards mathematics. The secondary audience is leaders in afterschool programs who will gain an increased awareness of cryptography as a tool for teaching mathematics and adopt the program for use in their afterschool programs. Project deliverables include online activities, online cryptography adventure games, interactive offline games, a leader\'s manual, and training workshops for afterschool leaders. The project materials will be developed in collaboration with YPP staff and pilot tested in Year 3 at local afterschool programs and YPP sites in Chicago in addition to four national sites. Field testing and dissemination occurs in Year 4 at both local sites in Chicago and national locations such as afterschool programs, science centers, and community programs. Six 3-day training workshops will be provided (2 per year in Years 3-5) to train afterschool leaders. It is anticipated that this project will reach up to 11,000 youth, including underserved youth in urban settings, and 275 professional staff. Strategic impact resulting from this project includes increased awareness of cryptography as a STEM topic with connections to mathematics as well a greater understanding of effective strategies for integrating and supporting web-based and offline activities within informal learning settings. The Cryptoclub project has the potential to have a transformative impact on youth and their understanding of cryptography and may serve as a national model for partnerships between afterschool and mentoring programs.
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TEAM MEMBERS:
Janet BeissingerSusan GoldmanDaria TsoupikovaBonnine Saunders
The Science Museum of Minnesota (SMM) is collaborating with the Museum of Science in Boston (MoS), the North Carolina Museum of Life and Science in Durham (NCMLS), Explora in Albuquerque, the Center for Research in Mathematics and Science Education at San Diego State University (CRMSE), and TERC in Cambridge, MA to develop, create and evaluate "MathCore for Museums," long-term math environments that children can interact with over multiple visits and over several years. The project is prototyping and producing 12 open-source, validated interactive exhibits about proportion: fractions, ratios, similarity, scaling, and percentages, basic concepts for understanding Algebra. The eight best exhibits will be replicated for each MathCore museum and the exhibits will be supported by a limited-access website designed to support and extend repeated use of exhibits and further exploration of ratio and proportion. Selinda Research Associates will conduct a longitudinal evaluation of the project. CRSME will conduct a research study of selected exhibit prototypes to investigate when children start to work on proving relations between similarity and proportion in informal settings, the relationship between children's artwork and mathematical insight, and the roles of bodily activity in learning to see relations in similarity and proportion. Results will be disseminated in peer-reviewed publications, at professional meetings, at the Association of Science and Technology Center's RAP Sessions at the NCMLS, and through the project's website.
The University of Minnesota is partnering with several nature centers in the Midwest to transform citizen "technicians" into citizen "scientists." The Driven to Discover project will use existing citizen science programs with strong educational components to engage 12-14 year old youth and their adult mentors in authentic research. The goal of the project is to develop a training model for adults who work with youth in a variety of informal education settings to involve them in authentic scientific inquiry via citizen science rather than just data collection activities. In the proof-of-concept phase, teams consisting of 4-H youth, adult leaders, and several scientists are conducting participatory action research to understand what factors lead youth to full engagement in ecological research. In phase two, project personnel are training 4-H educators, naturalists, and teachers how to engage youth and their adult leaders in other 4-H programs and other informal education programs to conduct ecological research with scientists in advisory roles. Phase one involves approximately 10 adults and 70 youth, whereas phase two involves approximately 40 adults and 300 youth. A front-end study defined the project's target audiences and partners. Formative evaluation study will monitor interactions among members of the research teams and summative evaluation will measure impacts on participants' knowledge, skills development, attitudes, and behavior. Project deliverables include youth-generated ecological research findings, web-based program implementation materials, an annual conference, and a model for engaging youth groups in informal settings in authentic scientific inquiry. The model is expected to impact more than six million youth nationwide.
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TEAM MEMBERS:
Karen OberhauserNathan MeyerAndrea Lorek StraussPamela NippoltKatie ClarkRobert Blair
This project will create and study Kids' Survey Network as an exemplar of a new, replicable model of informal learning called an apprenticeship network. The project will develop the data literacy of future learners, workers, and citizens by empowering participants aged 11-14 to develop survey projects to address their own questions about local community issues. Research on the project will illuminate core questions relating to the design and potential impact of the apprenticeship network, including social and motivational dynamics, community and technology-based scaffolding, educational game genres, and conditions of effective use. The project deliverables include four components: (1) a web-based community of practice; (2) a common set of tools; (3) a suite of learning games and tutorials; and (4) structures for tiered, team-based advancement. Tertl Studios LLC and MIT's Education Arcade will develop the learning games, SRI International will conduct the evaluation, leading regional and national informal education organizations will provide test bed sites, and professional survey research organizations will provide technical and volunteer assistance.
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TEAM MEMBERS:
Elizabeth RoweDiana NunnaleyChristopher Hancock
This planning effort, a collaboration of teams at the University of Maryland, Cornell University, Carnegie Mellon University and the Sciencenter of Ithaca, deals with the development and testing of a unique methodology for educating youth in computer programming. Through a mobile robot that is cleverly disguised as a small animal, participants will learn to manipulate the system by physically moving it as well as setting variables via electronic buttons thereby learning programming and design. The eventual use of this system and methodology is in museum exhibits so preliminary survey data will be gathered from various venues that presently use less capable devices. Iterative testing will be done at the Sciencenter in its exhibits.
BRIDGES: Build, Research, Invent, Design, Grow and Explore through Science The New York City Housing Authority (NYCHA) and the Salvadori Center partner in providing BRIDGES [Build, Research, Invent, Design, Grow and Explore through Science], an after-school program using investigations of the built environment to introduce and reinforce STEM concepts and skills. The program highlights engineering concepts and the design process through hands-on investigations of the built environment done in small groups (with an emphasis on collaborative learning). It is co-taught by Salvadori educators in partnership with NYCHA community center instructors. After an intensive 3-day institute to train NYCHA staff, Salvadori staff members meet weekly with the housing authority staff to provide coaching in facilitation skills and to co-teach projects on building scaled bridges, mapping neighborhoods, investigating tension and compression, and more. In subsequent years, NYCHA after-school instructors take over the teaching with on-going support/professional development from the Center. The target audience is young people 8-12 years old enrolled in after-school programs run by the New York City Housing Authority, who gain content understanding and self concept in terms of their attitude and interest in STEM learning. BRIDGES begins with 5 sites serving 150 children in its first year with five sites added annually. By Year 5, BRIDGES serves 625 children at 25 NYCHA community centers. In addition in Years 4 and 5, the project is disseminated in at least two municipalities outside of NYC. In all 775 youth and 60 after-school educators will be directly impacted by this new program. The strategic impact is to provide strategies and evidence of support necessary for effective scale up of this locally successful program and for bringing school-based materials associated with the project into the after-school time experience. A project book, summative evaluation by The After School Corporation (TASC), and a website will be shared with the field on line, through conference presentations, and publications. The Salvadori Center was founded by Dr. Mario Salvadori (1907-1997), Columbia Professor of Civil Engineering & Architecture, in collaboration with City College of New York Schools of Education and Architecture. Its mission is to stimulate and deepen young people's curiosity and knowledge about math, science, arts and the humanities by using the built environment as an entry point for learning. For over 20 years, the Center has offered research-based teacher development and support, including intensive training institutes, workshops and classroom mentoring programs focused on project-based learning. The Center has reached over 125,000 students in New York City public schools, and its books, videos, and construction kits have been distributed nationally and internationally. The Centers staff are all professionally trained architects, engineers, and science and fine arts teachers.
The City as Learning Lab (CaLL) is a comprehensive research and development initiative designed to create new measures of audience impact in technology experiences; identify features of university-community collaboration that facilitate sustainable community programs; and produce a set of tools and resources that allow other cities to tailor creative robotics programs to unique audiences. Project partners include the University of Pittsburgh Center for Learning in Out-of-School Environments (UPCLOSE), the Community Robotics Education and Technology Empowerment (CREATE) lab at Carnegie Mellon University's Robotics Institute, and the Georgia Institute of Technology as well as local museums, community organizations, and afterschool clubs. CaLL builds on the work of three existing youth technology programs in Pittsburgh targeting audiences ages 9-15: the Robot Diaries, Neighborhood Nets, and Robot 250. Research questions relate to creative processes in informal learning settings, use of robotics to engage diverse audiences, and changes in technological fluency after students leave the informal learning setting and apply their new knowledge and skills at home or in other learning contexts. The research incorporates data from up to 1000 program participants. Findings will establish evidence for how technological fluency can be measured, supported, and developed through informal technology learning experiences. Project deliverables include a CaLL curriculum, toolkit, new measures of audience impact, and identification of factors that support university/community collaborations. Broader impacts in informal technology education will be achieved by developing flexible toolkits that allow other communities to adapt and adopt CaLL technologies, curricula, and activities.
The Oregon Museum of Science and Industry (OMSI) will create a 5,000 sq ft traveling exhibition designed to engage families with children ages 10-14 with concepts of algebra. Access Algebra will increase visitor awareness of the role of algebra in everyday life and help them to develop algebraic thinking skills. This exhibition will travel to 21 science centers, reaching some 3.5 million visitors on its national tour. It will be accompanied by an Educator's Guide, Family Guide, and complementary web activities. Access Algebra incorporates testing and implementation of an innovative model for professional development for museum exhibit, program, and interpretive staff. It links the exhibition tour to training at each venue designed to increase knowledge of algebra concepts and to develop facilitation skills in family math learning. The package includes workshops, training DVD, printed guide, Math Toolkit, and website support. Project partners include TERC, Oregon State University College of Education (OSU), and Blazer Boys & Girls Club (BBGC). The BBGC members will participate in exhibit development over an extended (12-week) period, helping to create an exhibition that will engage a target audience of underserved low-income youth. The strategic impact of Access Algebra derives from the development and testing of effective strategies for engaging audiences in exhibit-based informal math learning, along with increasing the capacity of the field for facilitating these kinds of experiences through a new model for professional development.
The Louisiana State Museum and Tulane University/Xavier University Center for Bioenvironmental Research and the University of Rhode Island Graduate School of Oceanography, along with several other research collaborators, designers, evaluators, and the Times-Picayune newspaper are partnering to develop a multi-pronged approach on educating the general public, school children, teachers and public officials on the STEM-related aspects of Hurricane Katrina and its implications for the future of New Orleans and other parts of the country. The major products will be an 8,500 square-foot semi-permanent exhibit, smaller exhibits for Louisiana regional libraries, a comprehensive Web site on hurricanes, a set of studies on informal learning, a case study for public officials about the relevance of science research to policy and planning, teacher workshops, and a workshop for interested exhibit designers from around the country. This project advances the field of informal science education by exploring how museums, universities, and their communities can work together to provide meaningful learning experiences on STEM topics that are critical to solving important community and national issues.
TERC and the Girl Scouts of Eastern Massachusetts are partnering to create an energy monitoring and conservation afterschool program for approximately 5,500 girls ages 8-11 in eastern Massachusetts. The goals of the Girls Energy Conservation Corps (GECCo) project are to involve girls in learning and applying science, using technology, developing leadership and communication skills, educating peers, saving energy, and addressing the global issue of climate change. The project is (1) developing activity-based Guides to help girls understand, monitor, and reduce energy use, (2) understand the connection between their own energy consumption and climate change, and (3) setting goals to cumulatively reduce their energy consumption.
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TEAM MEMBERS:
Gillian PuttickJoan ReillyBrian DraytonKatherine LeLacheur
Hopa Mountain, in collaboration with Blackfeet Community College, One Step Further, and Ogala Lakota College, will develop "Native Science Field Centers (NSFC)" to provide year-round informal science education for youth ages 8-18 and adults. Informal science education professionals are also served through the publications and materials designed to support programs targeting Native communities. The "NSFCs" will be located on the Blackfeet, Fort Belknap, and Pine Ridge reservations. The centers will develop "TribalWatch" environmental science programs that will be disseminated to six other tribes in the Missouri River Watershed. The "Tribalwatch" programs create a STEM career ladder for youth and adults to develop scientific expertise, knowledge of monitoring and an understanding of management of local lands. New technologies will be created for the evaluation of Native science programs that incorporate indigenous evaluation methodologies. Key partners include the American Indian Higher Education Consortium (AIHEC), the Field Museum of Natural History and the Science Museum of Minnesota. Deliverables include "Native Science Field Centers, ""TribalWatch" programs and a "TribalWatch" toolkit and training plan. Strategic impact will be realized through capacity building within Native communities, research and documentation of programming practices and dissemination of the toolkit and publications to informal science education professionals, 32 tribal colleges and other educational organizations that serve Native communities. It is anticipated that this project will reach 100,000 Native and non-Native youth, adults and informal science education practitioners in Montana, North Dakota, South Dakota and Wyoming.
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TEAM MEMBERS:
Bonnie Sachatello-SawyerHelen AugareMichael Fredenberg