RISES (Re-energize and Invigorate Student Engagement through Science) is a coordinated suite of resources including 42 interactive English and Spanish STEM videos produced by Children's Museum Houston in coordination with the science curriculum department at Houston ISD. The videos are aligned to the Texas Essential Knowledge and Skills standards, and each come with a bilingual Activity Guide and Parent Prompt sheet, which includes guiding questions and other extension activities.
Structural inequities contribute to the disproportionate incarceration of Black and African American women, as well as women from the working class. This project will work toward redressing these inequities through developing and researching an ecosystem designed to support formerly incarcerated women's transition into careers that require technology-based skills or computational thinking.
Making as a term has gained attention in the educational field. It signals many different meanings to many different groups, yet is not clearly defined. This project’s researchers refer to making as a term that bears social and cultural impact but with a broader more sociocultural association than definitions that center making in STEM learning. Using the theoretical lenses of critical relationality and embodiment, our research team position curriculum as a set of locally situated activities that are culturally, linguistically, socially, and politically influenced. We argue that curriculum
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TEAM MEMBERS:
Veronica OguilveWen WenEm BowenYousra AbourehabAmanda BermudezElizabeth GaxiolaJill Castek
The University of California, Irvine will lead this Design and Development Launch Pilot to engage with collaborators from the Orange County CA STEM Initiative, the Orange County CA Department of Education, the Orange County CA Workforce Investment Board, the Jamboree Affordable Housing Communities, the Orangewood Foundation for Foster and Community Youth Services, OCTANE-Technology Incubator, Project Tomorrow and Growth Section. This project was created in response to the Inclusion across the Nation of Communities of Learners of Underrepresented Discoverers in Engineering and Science (NSF INCLUDES) program solicitation (NSF 16-544). The INCLUDES program is a comprehensive national initiative designed to enhance U.S. leadership in science, technology, engineering and mathematics (STEM) discoveries and innovations focused on NSF's commitment to diversity, inclusion, and broadening participation in these fields. The INCLUDES Design and Development Launch Pilots represent bold, innovative ways for solving a broadening participation challenge in STEM.
The full participation of all of America's STEM talent is critical to the advancement of science and engineering for national security, health and prosperity. Our nation is advancing knowledge and practices to address the computing technology education practices for recruiting, better educating, retaining and graduating a productive STEM workforce. However women who are members of underrepresented minority groups, with low socioeconomic status, historically underperform in STEM and specifically in computing technology. This project, NSF INCLUDES: Supporting Women Advancing Through Technology, has the potential to significantly advance a collaborative approach by a group of organizations to improve the success of poor, underrepresented minority women who are learning computing technology and transitioning to the STEM workforce.
The project will demonstrate the outcomes of computer science training for women, particular disenfranchised and underrepresented minority women that may be exiting foster youth services, living in low income housing, and/or having been denied access to programs particularly in technology due to their socioeconomic status. Partnering organizations will design, develop and launch a short-term, intensive training opportunity in computer science for women ages 16 to 34 who are unemployed or underemployed, and who desire to engage in upward career mobility. The program will include a replicable, custom curriculum and an educational approach that will be scalable. A boot camp will teach the fundamentals of Ruby on Rails, HTML, CSS, SQL, JavaScript, and AngularJS, and prepare participants for a career in web development while enabling them to keep their day jobs and have childcare provided. Educating a randomized sample treatment group of up to 150 women in this launch pilot, the partners will also offer internships and/or job shadows, where participants gain client experience, learn from more experienced developers, and continue to build their portfolios. All of the women in the program will receive information, coaching and exposure to college and career opportunities. Job placement in STEM careers is the outcome goal of this design and development launch pilot.
Young adulthood, typically defined as between the ages of 18 and 25, is a critical period of growth during which young people acquire the education and training that serve as the basis for their later occupations and income (Arnett, 2000). The successful transition from adolescence to early adulthood requires youth to have the skills and resources to graduate high school and then go to college or enter the workforce (Fuligni & Hardway, 2004; Lippman, Atienza, Rivers, & Keith, 2008). To accomplish these tasks in advanced urban societies, young adults need a wide range of social, cognitive
The MyBEST (Mentoring Youth Building Employable Skills in Technology) project, funded by a grant from the National Science Foundation's Informal Science Education program, concluded its three years of operation in 2006. This youth-based program was intended to provide participants with in-depth learning experiences involving information and design technologies. These experiences had a dual focus: enabling youth participants to gain fluency in using these technologies while showing them how adults apply them in work and academic endeavors. Appendix includes survey.
The Cyberlearning and Future Learning Technologies Program funds efforts that will help in envisioning the next generation of learning technologies and advancing what we know about how people learn in technology-rich environments. Development and Implementation (DIP) Projects build on proof-of-concept work that showed the possibilities of the proposed new type of learning technology, and project teams build and refine a minimally-viable example of their proposed innovation that allows them to understand how such technology should be designed and used in the future and answer questions about how people learn with technology. Although for years researchers have believed technology could afford anytime-anywhere learning, we still don't understand how learners behave differently across contexts, such as home, school, and in the community, and how to get youth to identify as learners across those contexts. This proposal aims to use mobile devices and strategically placed shared kiosks to 'scientize' youth in two low-income communities. Through strategic partnerships with community organizations, educators, and families, the innovation is to get primary and middle-school students engaging in scientific inquiry in the context of their neighborhoods. Research will help determine how the technology can best be deployed, but also answer important questions about how communities can provide support to help kids think like scientists and identify with science. This project will design and implement ubiquitous technology tools that include mobile social media and tangible, community displays (collectively called ScienceKit) that are deeply embedded into two urban neighborhoods, and demonstrate how such ubiquitous technologies and related cyberlearning strategies are vital to improve information flow and coordination across a neighborhood ecosystem, in order to create environments where children can connect their science learning across contexts and time (e.g. scientizing). A program called ScienceEverywhere comprised of partnerships between tightly connected neighborhood organizations with mentors, teachers, parents, and researchers will help learners develop scientifically literate practices both in and out of school, and will demonstrate students' learning to their communities. Research will consist of mixed methods studies of use of the tools, including iterative design-based research, ethnography, and the use of participant observers from the community; these will be triangulated with usage logs of the technologies and content analysis of microblogs by the learners on their identities and interests. Discourse analysis of interviews with focal learners will orient the qualitative work on identity development, and analysis using activity theory will inform the influences of the social practices and sociotechnical systems on learner trajectories. Formative evaluation will help shed light on if and how the sociotechnical system promotes STEM literacy and STEM identity development.
Community technology centers (CTCs) help bridge the digital divide for immigrant youth in disadvantaged neighborhoods. A study of six CTCs in California shows that these centers also promote positive youth development for young people who are challenged to straddle two cultures.
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TEAM MEMBERS:
Rebecca LondonManuel PastorRachel Rosner
The goal of the SISCOM program is to improve science achievement of economically disadvantaged middle school students in science, through the development, implementation, and dissemination of a replicable, model program for use with underserved youth, especially girls, in informal educational settings. A number of programs and interventions geared toward bolstering the STEM interest and achievement of urban youth have been implemented across the country. Key elements that have proven to be successful have been incorporated into the SISCOM program include the longevity of intervention
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TEAM MEMBERS:
Penny L. Hammrich, Ph.D.Kathy Fadigan, Ed.D.Judy Stull, Ph.D.
This proposal calls for development, over five years, of a national, interactive, telecommunications-supported Network of 85 or more affiliated neighborhood technology learning centers in inner cities and other impoverished areas, for the purpose of attracting, and then nurturing underserved peoples' active involvement with math, science, and technology. Network affiliates will provide informal opportunities for disadvantaged minority young people and their families and friends to get access to, and learn to use, the most powerful tool for personal empowerment yet known, to engage in explorations designed to increase awareness of their ability to do math and science and of the potential for careers in these areas, and, through telecommunications, to involve themselves with distant peer groups in collaborative investigations. Such opportunities present attractive and cost-effective alternatives to the dead ends that street life, drugs, incarceration, and/or welfare offer. Success in achieving these goals depends, however, on the availability of continuing programmatic and staff development assistance, and on the ability of Network members to engage, not as disparate entities, but as a mutually supportive community, in this momentous task. Proposed Network services include (in addition to telecommunications linkages) the identification, development, and dissemination of technology-mediated math and science activities appropriate to community education, consultative planning and technical assistance, staff development workshops, the development of a resource database, and an annual all-affiliates meeting -- all these to be accompanied by systematized self-assessment procedures. Also included is the development of a Network infrastructure to support continued existence of the Network beyond the grant period.
The Louisville Science Center and the National Center for Family Literacy will engage in a year's planning to introduce the Parent- Child Interaction Project to teams of educators in six target cities. The goal is to explore the feasibility of a future national implementation of the model. The Parent-Child Interaction Project aims to empower underserved parents to become their child's most important teacher and provide these parents and their children the opportunity to gain science, mathematics, and technology education together. The participants are the parents and pre-school children enrolled in family literacy programs. During the Project, parents and children will make at least four trips to the participating science-technology center and evaluate their trips during follow-up class sessions. The joint efforts of the family literacy programs and science- technology centers can achieve the following goals: * Improve the involvement of low-income and low-literacy parents in the education of their children, specifically in the areas of science, mathematics and technology. * Increase the awareness of local science and technology centers as available community resources, particularly for underserved audiences. * Use science center visits and related projects to extend NCFL classroom learning for adult education students, their children and their teachers.