Techbridge has proposed a broad implementation project that will scale up a tested multi-faceted model that increases girls' interest in STEM careers. The objectives of this project are to increase girls' engineering, technology, and science skills and career interests; build STEM capacity and sustainability across communities; enhance STEM and career exploration for underrepresented girls and their families; and advance research on the scale-up, sustainability, and impact of the model with career exploration. The Techbridge approach is grounded in Eccles' expectancy value model, and helps bridge critical junctures as girls transition from elementary to middle school and middle school to high school, immersing participants in a network of peers and supportive adults. Techbridge targets girls in grades 5-12 with a model that includes five components: a previously tested and evaluated curriculum, career exploration, professional development for staff and teachers, family engagement, and dissemination. The inquiry-based curriculum introduces electrical engineering and computer science through engaging, hands-on units on Cars and Engines, Green Design, and Electrical Engineering. The Techbridge model will be enhanced to include a central repository for curriculum and support materials, electronic girl-driven career exploration resources, an online learning community and video tools for staff, and customized family guides. Project deliverables include the dissemination of the enhanced model to three cities, 24 school sites and teachers, 2,000 girls, and over 600 role models. A supplementary research component will study the broad implementation of the Techbridge model by examining the fidelity of implementation and the program's impact on girls' STEM engagement and learning. The research questions are as follows: (1) To what extent and how do new program sites demonstrate adherence to the Techbridge program model? (2) Do new sites experience similar or increased participant responsiveness to Techbridge programming with regard to scientific learning outcomes, career awareness, attitude and interest in engineering? (3)How are changes experienced by girls sustained over time, if at all? (4) To what extent and how do new sites balance instilling the Techbridge essentials, those critical components Techbridge identifies as essential for success, with the need for local adaptation and ownership of the program? and (5) Given the potential for customization in local communities, do new sites maintain programmatic quality of delivery experienced at the original site? If so, what are elements essential to success regarding quality delivery? The mixed-methods study will include document analysis, embedded assessments, participant survey scales, and observations. Qualitative data methods include interviews with teachers, role models, staff and focus groups with girls. A project evaluation will also be conducted which investigates project outcomes for participants (girls, teachers, role models, and families) and fidelity of the implementation and enhancements at expansion sites, using a quasi-experimental approach. Career and learning outcomes for girls will be determined using embedded assessments, portfolios, surveys, school data, and previously validated instruments such as the Career Interest Questionnaire and the Modified Attitudes towards Science Inventory. The Managing Complex Change model is used as a framework for the project evaluation for the purpose of examining factors related to the effectiveness of scaling. The dissemination of research and evaluation findings will be achieved through the use of publications, blogs, social media, and conferences. It is anticipated that this project will broaden the participation of Hispanic, African-American, and English language learner girls, build capacity for STEM programming and sustainability at the dissemination sites, and disseminate findings to over 1 million educators, researchers, and community members. Broader impacts include contributing to the field's understanding of how virtual role models and field trips can engage young women, increase corporate advocacy, and engage participants in research and dissemination efforts.
This Pathways project responds to the high level of public skepticism about climate change science despite strong scientific consensus. In 2010, two George Mason University / Yale University polls became headline news in mainstream media (such as the NY Times and NPR) when they reported that 50% or more of our broadcast meteorologists and TV news directors are skeptical about global climate science. A full 30% of TV broadcast meteorologists, who are largely untrained in disciplines other than meteorology and weather forecasting, denounce anthropogenic global warming (AGW) as a hoax or a scam. Such polls strongly suggest that the general public trusts media statements over scientific facts, despite position statements acknowledging dominantly human responsibility for global warming in the past 50 years from nearly every U.S. professional society dealing with Earth sciences. Climate literacy in citizens and policy makers is essential for advancing responsible public policy on energy legislation, carbon emission reductions, and other climate change issues, and TV broadcast meteorologists have great potential for enhancing that literacy.
The National Girls Collaborative Project (NGCP) seeks to maximize access to shared resources within projects and with public and private sector organizations and institutions interested in expanding girls’ participation in science, technology, engineering, and mathematics (STEM). Funded primarily by the National Science Foundation, the NGCP is a robust national network of more than 3,000 girl-serving STEM organizations. Currently, 31 Collaboratives, serving 40 states, facilitate collaboration between more than 12,800 organizations who serve more than 7.7 million girls and 4.4 million boys. The NGCP occupies a unique role in the STEM community because it facilitates collaboration with all stakeholders who benefit from increasing diversity and engagement of women in STEM. These stakeholders form Regional Collaboratives, who are connected to local girl-serving STEM programs. Regional Collaboratives are led by leadership teams and advisory boards with representatives from K-12 education, higher education, community-based organizations, professional organizations, and industry. NGCP strengthens the capacity of girl-serving STEM projects by facilitating collaboration among programs and organizations and by sharing promising practice research, program models, and products through webinars, collaboration training, and institutes. This is accomplished through a tested comprehensive program of change that uses collaboration to expand and strengthen STEM-related opportunities for girls and women. In each replication state, the NGCP model creates a network of professionals, researchers, and practitioners, facilitating collaboration within this network, and delivering high-quality research-based professional development. Participating programs can also receive mini-grant funding to develop collaborative STEM-focused projects. To date, over 27,000 participants have been served in 241 mini-grant projects, and over 17,000 practitioners have been served through in-person events and webinars. The NGCP’s collaborative model changes the way practitioners and educators work to advance girls’ participation in STEM. It facilitates the development of practitioners in their knowledge of good gender equitable educational practices, awareness of the role of K-12 education in STEM workforce development, and mutual support of peers locally and across the United States.
SciGirls CONNECT is a broad national outreach effort to encourage educators, both formal and informal, to adopt new, research-based strategies to engage girls in STEM. SciGirls (pbskids.org/scigirls) is an Emmy award-winning television program and outreach program that draws on cutting-edge research about what engages girls in science, technology, engineering and math (STEM) learning and careers. The PBS television show, kids' website, and educational outreach program have reached over 14 million girls, educators, and families, making it the most widely accessed girls' STEM program available nationally. SciGirls' videos, interactive website and hands-on activities work together to address a singular but powerful goal: to inspire, enable, and maximize STEM learning and participation for all girls, with an eye toward future STEM careers. The goal of SciGirls is to change how millions of girls think about STEM. SciGirls CONNECT (scigirlsconnect.org) includes 60 partner organizations located in schools, museums, community organizations and universities who host SciGirls clubs, camps and afterschool programs for girls. This number is intended grow to over 100 by the end of the project in 2016. SciGirls CONNECT provides mini-grants, leader training and educational resources to partner organizations. Each partner training session involves educators from a score of regional educational institutions. To date, over 700 educators have received training from over 250 affiliated organizations. The SciGirls CONNECT network is a supportive community of dedicated educators who provide the spark, the excitement and the promise of a new generation of women in STEM careers. Through our partner, the National Girls Collaborative Project, we have networked educational organizations hosting SciGirls programs with dozens of female role models from a variety of STEM fields. The SciGirls CONNECT website hosts monthly webinars, a quarterly newsletter, gender equity resources, SciGirls videos and hands-on activities. SciGirls also promotes the television, website and outreach program to thousands of elementary and middle school girls and their teachers both locally and nationally at various events.
This documentary film series and community story project aims to raise awareness of the critical role of trees for all life on Earth and to spark interest in getting involved with trees at the local level. Trees are threatened by climate disruption and deforestation, and yet at the same time are essential to efforts to mitigate and adapt to climate change. Many citizen groups are involved with planting and care of trees. Collaboration with these groups at the national and community level offers a practical, action-oriented opportunity to mobilize networks of citizens already interested in and identified with trees in the effort to raise broader awareness of the subject. Project deliverables include a 3-part PBS documentary series, a multimedia story project in collaboration with several of these citizen groups; a website and social media; and informational materials to support broadcast meteorologists in reporting about tree science in the context of current weather/changing climate. The project is projected to reach at least 15 million Americans during the grant period and many more during the 10-year project lifespan of the films. Principal public audiences include PBS viewers and citizen foresters. The professional audience is broadcast meteorologists. Partners include the U.S. Forest Service, National Environmental Education Foundation, and Alliance for Community Trees. This is a new model of local/national collaborative storytelling and community engagement designed to increase knowledge, awareness, and interest in tree biology and forest ecology.
The Westside Science Club (WSSC) is an out-of-school time opportunity that brings participant-directed STEM activities to under-resourced late-elementary and middle school students in low-income housing units in Los Angeles. WSSC and CCI Solar began a collaboration in 2012 with funding from the NSF to connect research scientists from Caltech with the underserved youth in the club. Another community partner, Wildwood School, provided high school students to act as near-peer mentors for the club members. CCI Solar's research on the efficient and economical conversion of solar energy into stored chemical fuel provides an entry point for informal science education activities designed to introduce pre-high school participants to basic chemistry and related STEM concepts such as physics and plant biology. Activities were largely student driven, though lessons were developed by the team of facilitators including the club's founder Ben Dickow, Wildwood teacher Levi Simons, and students, post-docs, and staff from Caltech. Each lesson was tied to CCI Solar's research through a mind-map of related chemistry concepts. The activities were mostly intended to be "maker-type" experiences that allowed the club members to follow their own interests and questions. Caltech students and postdocs from CCI Solar helped deliver activities while honing their science communication skills with the young WSSC audience. The team is currently adapting the model of this successful collaboration to develop another science club in a different Los Angeles community. Two-years of lessons developed from this project, an evaluation of the project by Kimberly Burtnyk of Science for Society, and a model on how to replicate such a program are available in the project final report below. This was a two-year pilot program that was completed in July 2014.
This Pathways Project connects rural, underserved youth and families in Eastern Washington and Northern Idaho to STEM concepts important in sustainable building design. The project is a collaboration of the Palouse Discovery Science Center (Pullman, WA), Washington State University and University of Idaho, working in partnership with rural community organizations and businesses. The deliverables include: 1) interactive exhibit prototype activities, 2) a team cooperative learning problem-solving challenge, and (3) take-home materials to encourage participants to use what they have learned to investigate ways to make their homes more energy-efficient and sustainable. The project introduces youth and families to the traditionally difficult physics concept of thermal energy, particularly as it relates to sustainable building design. Participants explore how building materials and their properties can be used to control all three types of heat transfer: conduction, convection, and radiation. The interactive exhibit prototypes are coupled with an Energy Efficient Engineering Challenge in which participants, working in cooperative learning teams, use information learned from the exhibit prototype activities to retrofit a model house, improving its energy efficiency. The project components are piloted at the Palouse Discovery Science Center, and then travel to three underserved rural/tribal communities in Northern Idaho and Eastern Washington. Front-end and formative evaluation studies will demonstrate whether this model advances participant understanding of and interest in STEM topics and careers. The project will yield information about ways that other ISE practitioners can effectively incorporate cooperative learning strategies in informal settings to improve the transferability of knowledge gained from exhibits to real-world problem-solving challenges, especially for rural and underserved audiences. This project will also provide the ISE field with: 1) a model for increasing the capacity of small, rural science centers to form collaborative regional networks that draw on previously unused resources in their communities and provide more effective outreach to the underrepresented populations they serve, and 2) a model for coupling cooperative learning with outreach exhibits, providing richer experiences of active engagement.
This pathways project from Boston College will test the efficacy of an intergenerational interdisciplinary hydroponics program involving curriculum development and activities at the Salvation Army's Kroc Center and the STEM Garden Institute for 4-6th grade youths and seniors. The primary research includes an examination of the efficacy of intergenerational interdisciplinary community based research. Additional goals of the hydroponic program include the examination of the ways in which urban community-based hydroponic programs foster motivation and self-efficacy, and how well youths and seniors understand the scientific inquiry process involving technology, economics and plant production. The research design includes qualitative and quantitative methods. The project will evaluate the ways in which the instructors implement the program with youth and seniors. The project will also evaluate the effectiveness of the technologies associated with plant production and knowledge acquisition in the area of hydroponics from the development through the delivery of the plant products to sell at the local Farmer's Market. Interviews, focus groups and survey will be administered to seniors and youth throughout the project. The project will disseminate a science inquiry based instructional guide for informal providers and youth who are involved with informal science education programs. The guide will focus on hydroponics with an emphasis on the electromagnetic spectrum, photosynthesis, pH, and nutrients, and electrical conductivity science concepts. More than 120-150 youth and 200 seniors will participate in the hydroponics program. Additional materials on the development of economic and business planning will be developed for the use of planning and setting up a Farmer's Market retail business. The materials will be available through the Salvation Army's Kroc Center. The Kroc Center averages 500-1000 visitors per day in addition to the Center's website, which averages 1200 unique visits per day.
The PBS NewsHour STEM Learning project is a broadcast and online science journalism and informal science education initiative to report breaking science news and cutting-edge STEM (Science, Technology, Engineering and Mathematics) research and researchers to a national audience. The multi-platform project goals are to: (1) increase and improve the knowledge of the audience with respect to science and technology; (2) stimulate the active engagement of the audience with science and technology through interactive tools; and (3)position the PBS NewsHour as a regular destination for in-depth and innovative science reporting; (4) deploy new and creative digital tools to extend the impact of NewsHour science reporting, especially for youth. The PBS NewsHour is produced by MacNeil/Lehrer Productions and distributed by PBS to PBS television and radio stations across the country, five nights per week. This project is informed by an expert advisory board and other consultants. Project evaluation will be conducted by City Square Associates. The formative evaluation in year one will employ focus groups of adults from the general audience and teens as well as a quantitative survey online to determine a benchmark of current science knowledge, attitudes and behaviors. The evaluation in year two will test digital components of the project in a usability lab setting to gather information to help improve the quality and effectiveness of these deliverables. The summative evaluation will administer a tracking study with the same population surveyed in the first year. Deliverables include: a minimum of 26 science documentary reports broadcast per year plus additional in-studio interviews and coverage of breaking science news; a revamped website, notably "Science and Tech To Go"; a weekly STEM interview or report online featuring Hari Sreenivasan or other reporters; additional weekly digital STEM reporting; and an expanded and redesigned outreach program for teens and educators including an innovative, cloud-based student editing and content-sharing initiative in collaboration with several science centers. Six new PBS NewsHour Student Reporting Labs, established in high-need urban schools, will shoot, edit, and post their videos on the web. The PBS NewsHour science reports will be broadcast and featured on the NewsHour iPhone app, as well as disseminated on the NewsHour's YouTube Channel, Disqus and UStream, Hulu.com, with new science material updated daily on the web. The NewsHour is seen by more than 7 million viewers each week, with additional audiences being reached by radio, the Online NewsHour website, podcasts, and other social media. New community-based programs expand the audience farther. The final summative report will outline the impact of the project and identify the strategies and tactic found to be most effective in making use of digital media to support project goals.
This full-scale development project would use a multi-platform approach (TV, Field School, and Web site) to engage public audiences and underserved youth in archaeology research and discovery. The project will advance knowledge and practice in the field of ISE by establishing the utility of archaeology as an entry point to multiple STEM fields showing how it answers important questions about human origins-culture, history, and the natural environment. The target audience includes a broad demographic of viewers who will watch the PBS broadcasts. The other key audience is underserved youth who will participate in the archeology digs and be featured in the national broadcast. They will engage other underserved youth who will have the opportunity to participate in the interactive online virtual field school. Primary organizational partners include the Crow Canyon Archaeology Center in Colorado and other archeology organizations at the 4 field sites. Deliverables include four hours of PBS programming filmed at four archaeological sites telling the stories of diverse cultures (Native American, African American, Hispanic); field schools designed for underrepresented youth both onsite and online; blogs, online discussions, and user-generated videos. The evaluation will determine the impact of the television series, online content, and the on-site Field School on audiences' understanding of, interest in, and interactions around STEM topics within the context of archaeology. Formative evaluation will provide input and help refine the television programs, web site, and field school. The summative evaluation will use a variety of methods and artifacts to determine the degree to which the process of the TV series, web site, and Field School was successful. The television programs are expected to reach 13 million viewers via broadcast, 300,000 via streaming video and 50,000 unique web site visitors. The lessons learned from this project will be disseminated to other media and ISE organizations.
The Herpetology Education in Rural Places & Spaces (HERPS) project is a four-year full-scale development project designed to engage diverse North Carolina residents from the Central Piedmont, Eastern Piedmont, and Inner Coastal Plain regions of the state in conservation and field experiences focused on herpetology, the study of reptiles and amphibians. The project targets rural underrepresented groups in STEM; predominately African-Americans, Hispanics, and Lumbee Native Americans. The University of North Carolina-Greensboro and its partner organizations, Elon University and University of North Carolina-Pembroke, will partner to develop and implement all phases of the project. Ultimately, the project aims to increase knowledge of and interest in herpetology and related conservation issues, provide authentic research experiences, and better understand identity-related motivations and affordances of the casual, regular, and enthusiastic participant across project strands. HERPS builds on four pilot studies and will engage people of all ages in a broad range of herpetological activities including: (a) an annual herpetology-focused community event (HERPS Celebrations), (b) technology resources such as a project website and customized mobile applications (HERPS Cyberhub), (c) summer and year-long herpetological research experiences (HREs) for high school students and teachers, and (d) in-depth longitudinal herpetological study opportunities (e.g., box turtle study). In addition, there is separate but integrated research stand that will focus on identity and HERPS experiences, as settings for informal science learning. The identity research will study: (a) identity-related motivations and (b) identity-related affordances of casual, regular and enthusiastic participants across threads. In addition, an extensive formative and summative evaluation will be conducted using a mixed methods approach by an external evaluator. Using a multiple-entry-points approach for learning and engagement, this project could serve as a replicable model for similar efforts in other settings. In addition, the results of the identity reseach strand could fill a critical gap in the identity and informal science education research bases. With an average estimated reach of nearly 15,000 people of all ages and diverse backgrounds, the potential broader impacts of this project could be extensive.
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TEAM MEMBERS:
Catherine MatthewsAndy AshTerry TomasekAnn SomersHeidi Carlone
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.