SciGirls is a multimedia project designed to encourage and empower more girls to pursue careers in STEM. It is a bold and unique experiment--the first television series on PBS designed specifically for girls aged 8-13. The approach is based on the findings of prior gender research. The television show and the Web site are integrally linked. Episodes are available for distribution on many of the newest digital platforms, e.g., Vimeo and iTunes for downloads, free of charge. SciGirls launched in February 2010 and reaches over 80% of the country. This project will support further research and development to advance SciGirls' online and outreach activities. Specifically, the deliverables include: (1) enhancement of the SciGirls website on pbs.org; (2) maintenance of the SciGirls Educator Networks and outreach to new partners; and (3) R&D on other media platforms. The project's two strategic partners are the National Girls Collaborative Project (NGCP) in Seattle and The Franklin Institute in Philadelphia. The NGCP links SciGirls with its network of 500 community-based science programs for girls, and The Franklin Institute coordinates an affiliate network of science museums to implement SciGirls' outreach activities. The project will also work with the Girl Scouts of America's new "Girl Scout Leadership Experience" program, which emphasizes STEM learning. The most significant web component is a social networking feature that allows girls who are interested in science to connect with peers across the nation. To date, there have been over 300,000 unique visitors and 20,000 registered "SciGirls."
The New York Hall of Science, in collaboration with the Tufts Center for Engineering Education, the Learning Games Network, and New York City departments of education and of parks and recreation, is creating and testing two innovative science games to support student learning about frictional force and linear motion. SciGames integrates rigorous, highly motivating, data collection activities conducted in museum and playground settings, with in-depth data analysis and additional scientific investigation in the classroom. The primary goals of the SciGames project are to increase student motivation and interest in science and improve student learning about core physical science concepts. This exploratory project targets underrepresented urban students and their teachers from 20 schools in New York City (NYC) and through its partnership with NYC department of parks and recreation has great potential for scale-up throughout NYC, as well as dissemination to other urban communities. The SciGames model creates experiences for students that build on the positive, fun, free-choice learning characteristics of informal settings; promotes learning through repeated game-like experimentation and play; and supports students' sustained interest and learning in science classrooms where core concepts are formalized. The project is based on four design principles: (1) SciGames turns students' informal experiences into a game, (2) SciGames makes science content an integral part of game play, (3) SciGames generates data for further analysis during game play, and (4) SciGames, through the use of digital apps, supports students inquiring into data back in their classrooms. Researchers are developing the games using rigorous, well constructed, iterative cycles of design, development, testing, evaluation, and revision with different groups of NYC students and teachers. Pre and post data on students\' science learning and affect are being used to inform the design cycles. Over a two-year period, SciGames will produce two science games and associated digital apps, and a portable kit that supports game implementation, data collection and analysis. SciGames is an important experiment, combining the informal, engaging aspects of play with more formal science investigation to encourage and sustain the interest, participation, and learning of underrepresented students in STEM. This project has the potential to transform how we think of and structure science learning for middle school students.
"Human +" is a collaboration among the New York Hall of Science (NYSCI), NSF Quality of Life Technology Engineering Research Center (QoLT ERC) of the University of Pittsburgh and Carnegie Mellon University, Oregon Museum of Science and Industry (OMSI), and the Institute for Learning Innovation. The project will engage engineers, educators, designers, and people with disabilities in a process of participatory design to create a 2,500 square foot traveling exhibition entitled "Human +". The STEM content is engineering, specifically the extraordinary technological advances being made to enhance human abilities. The project is making three significant contributions to the Informal Science Education (ISE) field: 1) It is a model of close integration of an NSF-funded engineering research center into an ISE project. (2) It engages people with disabilities, both as participants and audiences. (3) It broadens engagement with engineering as a participatory, creative, and socially important ISE undertaking. Project deliverables are: (1) a model for participatory design of ISE activities to generate innovation among engineers, people with disabilities, ISE professionals, and designers; and 2) a 2,500 square-foot traveling exhibition engaging the public in the science, technology, and social issues of human enhancement. Front-end evaluation will be conducted by OMSI to explore pre-existing knowledge and attitudes, integrating significant numbers of people with disabilities including veterans, young people, and older people. Formative evaluation will likewise be integrated with the participatory design process, with prototypes being tested both by audiences and by the core "Human +" participatory design team. Summative evaluation by Institute for Learning Innovation will address both the effectiveness of the participatory design process and the effectiveness of the exhibition in addressing the National Academy for Engineering goals for public understanding of engineering as a creative and socially engaged field. An estimated 700,000 visitors will experience the "Human +" exhibition at OMSI and NYSCI. In addition, OMSI will tour the exhibition through its extensive and diverse network of science centers, with 24 science centers having expressed interest as potential host sites. The Science Friday webcast/podcast will reach an estimated 1.3 million listeners. Public audiences will engage in the topic of engineering and better understand its importance to human existence through experiencing one compelling research area. The project team will work with the Veterans Administration and DARPA to engage veterans with disabilities both as participants and as audiences. The exhibit with its human-focused content will also stimulate interest among older adults and promote the engineering field to groups underrepresented in engineering such as people with disabilities, girls, and minority youth. The project places cutting-edge technology and engineering practice in a profoundly personal context. "Human +" will contribute to the empowerment of the great majority of people who have, or will have, disabilities during their lifetime and for those of us who care for people with disabilities.
TERC is partnering with the Toxics Action Center to enhance the capacity of environmental organizations to teach mathematical literacy skills to low-income citizens, mostly women of color. Secondary collaborators include four environmental organizations around the country. The project is (1) developing math- and statistics-rich educational materials that help non-scientists interpret environmental test results, (2) developing training materials that help environmental organization personnel provide quantitative literacy training to citizens, (3) helping environmental organizations institutionalize project resources, and (4) evaluating the impact of project activities on environmental organizers, community members, and the general public. Project deliverables include bilingual, print- and web-based instructional materials (including videos) for environmental organizations to use with staff and community members; training sessions to create a cadre of environmental organization leaders who can conduct environment-focused, math training workshops; a communications toolkit for dissemination to journalists who cover environmental issues; and a resource-rich project web site.
The Addressing Gender Barriers in STEM through Theatre of Social Engagement project responds to the need to educate the public about the careers in computer and information science and engineering (CISE) fields by educating high school students, parents, teachers and counselors about the barriers to participation that confront women and other underrepresented groups. In this Communicating Research to Public Audiences (CRPA) project, a dramatic play is used to communicate the findings from the PI's work which resulted in a theory about gender and IT to explain and predict gender (under)representation in IT fields. The play dramatizes constructs of the theory, particularly the ways in which gender, ethnicity, and class affect identity and career and life decisions. Drawing from life history interviews conducted as a part of the research, the storyline of the dramatic play centers on three young women who are graduating from high school and making decisions about their futures and possible careers in IT. Situated squarely in the realm and literature of "theatre of social engagement," this play, and its staged readings and ancillary website, extend access beyond the scientific community to new scientific research on gender barriers in CISE. Learning goals for the project include: 1. Awareness and knowledge about possible computer and information science and engineering careers; barriers and stereotypes that affect CISE career choice among women; and "significant others" such as partners, family members, mentors and teachers who can make a difference at key inflection points in career decision making. 2. Attitude change about the CISE fields being open to everyone regardless of gender, ethnicity, race or class; how one's individual characteristics can be used to resist barriers to inclusion in CISE careers. 3. Intended behavior about learning more about CISE careers and educational opportunities; and responding to negative stereotypes related to CISE. Evaluation of the proposed project will include observations, talk-back sessions (focus groups) after readings of the play, pre-post surveys administered at the showings, and a second post-performance survey to be administered a certain amount of time after the showing. Dissemination will be through readings of the play for audiences in New Jersey and Pennsylvania, with partnering informal learning venues, and through an associated website which will allow visitors to download and stage the play themselves. Advertisement for the play and the website will take place through websites such as Facebook, Twitter, and websites that promote diversity in computing. In addition, the PI intends to contribute to the scholarly literature on theatre as an informal learning approach and on the findings of how audiences respond to the play itself.
Girl Scouts of Western Washington and Seattle University have collaborated to develop an innovative model for science learning in youth programs. By embedding training and support on science inquiry facilitation directly into existing Girl Scout systems, the project is empowering volunteers to effectively facilitate inquiry science explorations with youth. We are engaging a new audience in the delivery of informal science education: volunteers, predominantly adult women and mothers, in community settings beyond typical science environments. New volunteers participate in science inquiry at Girl Scout recruiting events and in their ongoing support meetings, and also receive training through a project-developed curriculum adapted from the NSF-funded Fundamentals of Inquiry. These classes engage volunteers (who may not be science content specialists) in direct experiences with inquiry, and teach them specific skills to help youth plan, carry out, and synthesize learning from inquiry investigations. Science inquiry processes are seamlessly integrated into broader lessons about implementing Girl Scout programming, thus positioning scientific inquiry as a normal, expected part of Girl Scouting. This sustainable, replicable model enables community youth programs to build volunteers' skills to support inquiry, while at the same time increasing the organizational capacity to sustain quality science programming. Three Girl Scout councils are currently replicating the project, and their experiences will inform the final designs of the curriculum and supporting documentation. The project's mixed-methods evaluation is being conducted by Evaluation & Research Associates.
SciGirls TV Series, Website and Outreach is a transmedia project to encourage and empower girls to pursue careers in STEM. It is the first television series on PBS designed specifically for middle school girls, ages 8 - 12. The approach is based on gender research and best practices for STEM education for girls. Each episode features different real girls in active science investigations and engineering projects, while the series is unified by two appealing animated characters. The innovative format of the show forges a unique link to the Website, which is an integral part of the TV show itself. This request will support: * The production of ten new television episodes; * Enhancement of the SciGirls website on pbs.org; * Use of new technologies to create a SciGirls Smartphone app and interactive games; * Expansion of the SciGirls Museum Affiliates collaborative; a new SciGirls Mentorship Program with the AAUW and other professional organizations of scientists and engineers; and development of a new partnership with the Girl Scouts of the USA. The project's strategic partners are the National Girls Collaborative Project (NGCP) in Seattle and The Franklin Institute in Philadelphia. The NGCP links SciGirls with its network of 500 community-based science programs for girls, and The Franklin Institute helps coordinate the Museum Affiliates, a network of science museums that implements SciGirls outreach activities. The project will also work with the Girl Scouts of America's new "Girl Scout Leadership Experience" program which emphasizes STEM learning. The most significant web component is a social networking feature that allows girls who are interested in science to connect with peers across the nation. To date, there have been over 800,000 unique visitors and 50,000 registered "SciGirls." SciGirls TV is produced by Twin Cities Public Television and distributed by PBS Plus. Launched in February 2010, SciGirls Season One broadcasts reached over 86% of U.S. households. In addition, all programs are streamed on pbskids.org and available on iTunes free of charge. The Spanish version will be distributed on V-me. Two separate project evaluations will be conducted. Dr. Barbara Flagg will evaluate how SciGirls improves girls' knowledge and understanding of science and engineering and gives them greater confidence in their abilities in STEM. Valerie Knight-Williams will investigate the use of SciGirls outreach materials with a national network of after-school educators.
FETCH with Ruff Ruffman, produced by WGBH, is a daily half-hour PBS television series with accompanying Web and outreach activities targeted to 6- to 10-year olds. The program brings science learning to young children by uniquely blending live-action with animation, game show convention with reality programming, and humor with academics. The intended impacts of this new season are to 1) help the target audience, especially girls and minorities, develop an interest, knowledge and skills necessary to do science; 2) help kids develop the math skills and knowledge necessary to solve science and engineering problems; and 3) bring FETCH's unique brand of informal science learning to camps across the country. The requested funds will allow the project to expand the science curriculum with 20 new half-hour episodes and expand the Web site, focusing on three new science themes that highlight topics of interest to this age group: "Animal Universe," "Science of Art," and "Adventure Science." The Web site will include four new science-based Web games that will allow kids to create and post content of their own design and interact with other FETCH fans online. In addition, funds will support new educational resources for camps, including a Camp FETCH Guide. The project will continue to work with the project's established collaborators like the Boys and Girls Clubs, Girl Scouts of America, and YMCA, as well expand the outreach via new partnerships with the Center for Summer Learning at Johns Hopkins University and the American Camp Association. Christine Andrews Paulsen & Associates (CAPA) will conduct summative evaluation of both the television show and the Camp FETCH Guide.
This project will be conducted by a team of investigators from North Carolina State University. The principal investigator proposes to examine the characteristics, motivations, in and out-of-school experiences, informal science activities, and career trajectories of 1000 science hobbyists and "master hobbyists." Master hobbyists are individuals who have developed science expertise and spend considerable free time engaging in science as a leisure activity. Master science hobbyists are found across most areas of science (e.g. birdwatchers, amateur astronomers). This research will determine who these individuals are, their career pathways, how they engage in science activities and what motivates, sustains, and defines their science interests. One of the particular goals of this research is to develop new understandings of how science hobby interests develop for women and underserved minorities. In the proposed research investigators will use the results of interviews and surveys to identify contextual factors that influence the motivational processes that, in turn, influenced choices of careers and contribute to ongoing choices in hobby and citizen science activities. Of interest in this study is how citizen scientists who are also serious hobbyists differ from master science hobbyists. Research on citizen scientists has shown that this group is highly motivated by collective motives (such as a desire to help others and further science), whereas this may not be the case with the master science hobbyist. Two groups will be sampled: a) birdwatchers and b) amateur astronomers. This sampling model will allow investigators to contrast their findings by: 1) those who have selected a science career versus those that did not select a science career, 2) those who participate in citizen science activities and those that do not, and 3) those who are birdwatchers (greater mathematical components) and those who are amateur astronomers (lesser mathematical components). Additional coding and analyses will examine any differences in the evolution of bird watching and astronomy hobbies. The results of this research will be examined in light of existing motivational and sociocultural models of career selection. This research will document differences in the perceived motivational elements that influenced master science hobbyists/citizen scientists to choose a science career or not. The results can inform federal, state, and local policies for supporting youth and adults engaged in free choice learning. Results of this research will inform the design of intervention/recruitment programs and ISE outreach initiatives. Potential audiences include ISE institutions (e.g. museums and science centers), organizations with links to STEM (e.g. scouts, boys/girls clubs) and pre- and college initiatives that seek to influence career choices and life-long science interests. The proposed cross-disciplinary approach will promote new understandings of complex issues related to motivation, retention, career selection, leisure activities, engagement with formal and informal educational environments, gender and ethnicity, communities of practice and changes in interests over time. Members of the advisory board have expertise in assessment and measurement and will work closely with the project team to conduct a detailed examination of methodologies and analyses at all phases of the project.
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TEAM MEMBERS:
Melissa JonesThomas Andre
resourceprojectProfessional Development, Conferences, and Networks
Based on nearly two decades of museum programming for low-income Hispanic and African American girls at the Miami Science Museum, this extension service project employs a train-the-trainers approach to build a network of museum-based Extension Agents dedicated to helping informal science educators attract the interest and support the persistence of minority girls, grades 6-12, currently underrepresented in STEM studies. Led by the Miami Science Museum, the collaboration brings together an experienced group of institutions with representation from the informal science, gender research, and engineering communities. In addition to the Museum, the Expert Project Team consists of key staff from the Association of Science-Technology Centers (ASTC), and SECME Inc. (formerly the Southeastern Consortium of Minorities in Engineering), who serve as the conduit for the participation of minority engineering professional organizations. An advisory/research panel of researchers in gender in STEM, whose work complements those of the project investigators, works closely with the Expert Project Team to prepare Extension Agents from ten geographically dispersed museums, who in turn provide a range of training and peer mentoring services to the practitioner community of informal science educators in science-rich institutions nationwide. Participating museums include: Connecticut Science Center (Hartford, CT), New York Hall of Science (New York, NY), Maryland Science Center (Baltimore, MD), Miami Science Museum (Miami, FL), COSI (Columbus, OH), St. Louis Science Center (St. Louis, MO), Louisville Science Center (Louisville, KY), Sci-Port (Shreveport, LA), Explora (Albuquerque, NM), and California Academy of Sciences (San Francisco, CA).
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TEAM MEMBERS:
Judy BrownLaura Huerta MigasMichele Williams
Investigators from the MIT Media Lab will develop and study a new generation of the Scratch programming platform, designed to help young people learn to think creatively, reason systematically, and work collaboratively -- essential skills for success in the 21st century. With Scratch, young people (ages 8 and up) can program their own interactive stories, games, animations, and simulations, then share their creations with others online. Young people around the world have already shared more than 1 million projects on the Scratch community website (http://scratch.mit.edu). The new generation, called Scratch 2.0, will be fully integrated into the Internet, so that young people can more seamlessly share and collaborate on projects, access online data, and program interactions with social media. The research is divided into two strands: (1) Technological infrastructure for creative collaboration. With Scratch 2.0, people will be able to design and program new types of web-based interactions and services. For example, they will be able to program interactions with social-media websites (such as Facebook), create visualizations with online data, and program their own collaborative applications. (2) Design experiments for creative collaboration. As the team develops Scratch 2.0, they will run online experiments to study how their design decisions influence the ways in which people collaborate on creative projects, as well as their attitudes towards collaboration. This work builds on a previous NSF grant (ITR-0325828) that supported the development of Scratch. Since its public launch in 2007, Scratch has become a vibrant online community, in which young people program and share interactive stories, games, animations, and simulations - and, in the process, learn important computational concepts and strategies for designing, problem solving, and collaborating. Each day, members of the Scratch community upload nearly 1500 new Scratch projects to the website - on average, a new project almost every minute. In developing Scratch 2.0, the team will focus on two questions from the NSF Program Solicitation: (1) Will the research lead to the development of new technologies to support human creativity? (2) Will the research lead to innovative educational approaches in computer science, science, or engineering that reward creativity?
Intellectual Merit: The intellectual merit of the project is based on its study of how new technologies can foster creativity and collaboration. The investigators will conduct design experiments to examine how new features of Scratch 2.0 engage young people in new forms of creative expression, collaboration, learning, and metadesign. Young people are already interacting with many cloud-based services (such as YouTube and Facebook). But Scratch 2.0 is fundamentally different in that it aims to engage people in programming their own projects and activities in the cloud. With Scratch 2.0, young people won't just interact with the cloud, they will create in the cloud. The goal is to democratize the development of cloud-based activities, so that everyone can become an active contributor to the cloud, not just a consumer of cloud-based services. This development and study of Scratch 2.0 will lead to new insights into strategies for engaging young people in activities that cultivate collaboration and creativity. Broader Impacts: The broader impact of the project is based on its ability to broaden participation in programming and computer science. The current version of Scratch has already helped attract a broader diversity of students to computer science compared to other programming platforms. The investigators expect that the collaboration and social-media features of Scratch 2.0 will resonate with the interests of today's youth and further broaden participation. Integration of Scratch into the introductory computer science course at Harvard led to a sharp reduction in the number of students dropping the course, and an increase in the retention of female students. There have been similar results in pre-college courses. The National Center for Women & Information Technology (NCWIT) calls Scratch a promising practice for increasing gender diversity in IT.