The State University of New York (SUNY) and the New York Academy of Sciences (NYAS) are collaborating to implement the SUNY/NYAS STEM Mentoring Program, a full scale development project designed to improve the science and math literacy of middle school youth. Building upon lessons learned through the implementation of national initiatives such as NSF's Graduate STEM Fellows in K-12 Education (GK-12) Program, university initiatives such as the UTeach model, and locally-run programs, this project's goals are to: 1) increase access to high quality, hands-on STEM programs in informal environments, 2) improve teaching and outreach skills of scientists in training (graduate and postdoctoral fellows), and 3) test hypotheses around scalable program elements. Together, SUNY and NYAS propose to carry out a comprehensive, systemic science education initiative to recruit graduate students and postdoctoral fellows studying science, technology, engineering, and mathematics (STEM) disciplines at colleges and universities statewide to serve as mentors in afterschool programs. SUNY campuses will partner with a community-based organization (CBO) to place mentors in afterschool programs serving middle school students in high-need, low-resource urban and rural communities. Project deliverables include a three-credit online graduate course for mentor training, six pilot sites, a best practices guide, and a model for national dissemination. The online course will prepare graduate and postdoctoral fellows to spend 12-15 weeks in afterschool programs, introducing students to life science, earth science, mathematics and engineering using curriculum modules that are aligned with the New York State standards. The project design includes three pre-selected sites (College of Nanoscale Science & Engineering at the University of Albany, SUNY Institute of Technology, and SUNY Downstate Medical Center) and three future sites to be selected through a competitive process, each of which will be paired with a CBO to create a locally designed STEM mentoring program. As a result, a minimum of 192 mentors will provide informal STEM education to 2,880 middle school students throughout New York State. The comprehensive, mixed-methods evaluation will address the following questions: 1) Does student participation in an afterschool model of informal education lead to an increase in STEM content knowledge, attitudes, self-efficacy, and interest in pursuing further STEM education and career pathways? 2) Do young scientists who participate in the program develop effective teaching and mentoring skills, and develop interest in teaching or mentoring career options that result in STEM retention? 3) What are the attributes of an effective STEM afterschool program and the elements of local adaptation and innovation that are necessary to achieve a successful scale-up to geographically diverse locations? 4) What is the role of the afterschool model in delivering informal STEM education? This innovative model includes a commitment to scale across the 64 SUNY campuses and 122 Councils of the Girl Scouts of the USA, use an online platform to deliver training, and place scientists-in-training in informal learning environments. It is hypothesized that as a result of greater access to STEM education in an informal setting, participating middle school youth will develop increased levels of STEM content knowledge, self-efficacy, confidence in STEM learning, and interest in STEM careers. Scientist mentors will: 1) gain an understanding of the context and characteristics of informal science education, 2) develop skills in mentoring and interpersonal communication, 3) learn and apply best practices of inquiry instruction, and 4) potentially develop interest in teaching as a viable career option. It is anticipated that the project will add to the research literature in several areas such as the effectiveness of incentives for graduate students; the design of mentor support systems; and the structure of pilot site programs in local communities. Findings and materials from this project will be disseminated through presentations at local, regional, and national conferences, publications in peer-reviewed journals focused on informal science education, and briefings sent to more than 25,000 NYAS members around the world.
ISE Research: Contextualizing Science Learning and Motivation in Rural and Indigenous Adolescents through Mapping Sustainable Practices is a three-year interdisciplinary research project. Researchers from the University of New Hampshire will investigate impacts of contextualization on science learning, motivation, and positive attitudes toward science of early adolescents from rural and Indigenous populations. The project will yield research findings that can help identify contextualization as a means to engage rural and Indigenous adolescents. The project team uses a systematic approach that incorporates mixed methods of data collection and analysis to learn more about how culture and community (contextualization) impact STEM learning. They hypothesize that contextualizing science learning to culture and community will enhance rural majority and Indigenous early adolescents' science knowledge and positively strengthen motivation and attitudes toward science. Local community and Indigenous group members provide expertise that contributes to the design of the research and the related curriculum as well as the interpretation of the findings. This project will contribute to what we know about how underserved and underrepresented youth engage in STEM learning in relation to their world views. This work will help advance the informal science education field in terms of providing rigorous evidence that can inform theory on learning and motivation among disadvantaged STEM learners as well as address practical issues around the design of STEM programs for rural and Indigenous groups.
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TEAM MEMBERS:
Eleanor AbramsThomas KellyLisa TownsonRuth VarnerMichael Middleton
Water for Life (WfL) is a full scale development youth and community based program; centered on freshwater literacy, water conservation and rainwater harvesting led by the Pacific Resources for Education Learning (PREL) in Hawaii. The goals of the project are to: (a) promote an understanding of water conservation and stewardship in areas lacking adequate quality water supplies and (b) build local capacity among rural communities to develop and employ site specific freshwater harvesting strategies proven to improve water quality. Rural communities within four Pacific Island entities in the U.S. affiliated Freely Associated States (FAS) will participate in WfL activities. PREL is collaborating with a host of organizations (such as the Federated States of Micronesia National Department of Education, Marshall Islands Conservation Society, and the Micronesian Conservation Trust, etc.) to develop and implement all phases of the initiative. This work is already improving the quality of life for hundreds of people in the FAS through water conversation education and improved water quality in local areas. Working closely with site-embedded PREL staff, Core Teams at each site - consisting of 4-6 local leaders from environmental agencies, water/sanitation systems, and education institutions - participated in a 5-day professional learning immersion in May, 2013, to buld capacities to develop and facilitate water conservation and catchment activities at the four target sites in the FAS. The Core Team members at each site now are recruiting and collaborating with local community members to implement site-specific projects that both educate and provide enhanced access to high quality drinking water. Both adults and youth are now engaging in a spectrum of proejcts that address loca needs and priorities through site-specific service learning activities. The site-specific focus in each locale, determined by the local Core Team, is distinct. In Palau, the Core Team has built broader community awareness of water conservation issues, raised the issue of water security in national conversations, engaged remote communities in improving natural rainwater drainage collection systems, and produced youth-oriented educational materials focused on local sites. In Yap, the Core Team members have collaborated with public utilities to install first-flush diverters into community rainwater catchment systems on Yap proper, and now are installing these devices in rainwater catchment systems on Yap's neighbor islands. In Chuuk, groundwater springs in remote communities are being upgraded for improved storage capacity, protection against contamination, and better public access. In Majuro (RMI), public school rainwater catchment systems are being repaired, repainted, cleaned, and upgraded so that schools can and will provide adequate drinking water to students (and to broader segments of the community during droughts). Broad segments of communities, including school classes and clubs, church and civic groups, etc. are becoming increasingly involved in building better water security and resilience for their communities, in preparation for a predicted drought, predicted to hit in the winter of 2014-2015, brought on by an El Nino event now edevelopig in the eastern Pacific. Water for Life has produced a range of locally relevant educational materials, including books, pamphlets, flyers, etc., some in English and others in local languages. Posters and billboards are being produced to enhance and maintain public awareness. Infrastructure projects are enabling better collection of more, higher quality water for drinking. A full-scale water handbook is under development, and this will serve as a basis for a self-contained water 'course' that will be offered through local community colleges. The experiences of project participants are being captured, analyzed, and reported in front-end, formative, and sumative evaluations conducted by David Heil & Associates. Thousands of individuals, comprising large segments of the participating countries' populations, will be directly impacted by the project. The results will be applicable to other remote and rural communities outside of the Pacific distressed by poor water quality and ineffective freshwater harvesting systems.
This project is intended to develop a model for STEM education through local libraries. There are several unique features in this endeavor. The model is being aimed at rural libraries and adult residents that are geographically remote from typical venues such as museums, zoos, and science centers. According to the 2000 census, there are 50 million individuals in this designation and the size of the group is increasing and becoming more diverse. Efforts to impact diverse audiences who are economically disadvantaged will be part of the plan. In many rural locations there are few community venues, but libraries are often present. The American Library Association and the Association Rural and Small Libraries have begun the reinvention of these libraries so they can become more attuned to the communities in which they are apart. Thus, this project is an effort to find new ways of communicating STEM concepts to a reasonably large underserved group. The design is to derive a "unit of knowledge enhancement" (some portion of Climate Change, for example) through a hybrid combination of book-club and scientific cafe further augmented with videos and web materials. Another part of the design is to enhance the base STEM knowledge of library staff and to associate the knowledge unit with an individual who has the specific STEM topic knowledge for a specific unit. Considerable effort shall be expended in developing the models for staff knowledge enhancement with a progressive number of librarians in training from 8 to 20 to 135. To build the content library model, five units of knowledge will be devised and circulated to participating libraries. Evaluation of the project includes front end, formative and summative by the Goodman Research Group. In addition to the "units of knowledge enhancement," the major results will be the model on how best to relate and educate citizens in rural environments and how to educate the library staff.
Journey into Space (JIS) is designed to improve student, educator, and general public understanding of earth/space science and its relationship to NASA goals and objectives through the use of a traveling GeoDome (inflatable planetarium) and engaging supporting programming at The Journey Museum. The Museum collaborates with area colleges, school districts, K-12 educators, youth serving organizations, astronomical affiliations, and others. The overall goal of JIS is to improve student, educator, and general public understanding of STEM and its relationship to NASA goals and objectives. JIS objectives are: 1) To increase student and public interest and awareness in STEM areas; 2) To increase student interest in pursuing STEM careers; 3) To improve teacher knowledge of NASA related science; 4) To increase teacher comfort level and confidence in teaching NASA related science in their classrooms; 5) To increase collaboration between informal and formal science educators; 6) To increase student and public understanding of Plains Indians ethno astronomy; and 7) To increase museum visitors’ interest and understanding of NASA related science. The Museum produced 2 films (“Cradle of Life”, “Looney Moons”) that are offered daily, 4 recurring monthly programs (Final Frontier Friday, Amazing Science, SciGirls that became Science Explorer’s Club, and Black Hills Astronomical Society meetings), summer robotics classes and teachers’ workshops, annual Earth Science Day, in addition to the GeoDome programming that has toured the region including presentations in the three poorest counties in the United States. The ethno-astronomy is underway in partnership with Oglala Lakota College and South Dakota Space Grant Consortium.
Informal Education at NASA Centers: Extending the Reach is a highly leveraged, modular, project-based approach to improving education opportunities for students, formal and informal educators, and life-long learners in NASA Ames Research Center’s local community and beyond. In partnership with the Aerospace Education, Research and Operations (AERO) Institute, NASA Ames has been developing two projects: Exploration Center Field Trips and Field Trip in a Box. California Teaching Fellows Foundation, as a sub awardee, has been expanding their After School University (ASU) program. The division has the goal of supporting NASA’s Education Outcome 2 with improved educational opportunities for all in the NASA Ames Visitor Center and opportunities to bring NASA content into the classroom to improve students understanding of STEM as well as improve teachers understanding and ability to teach NASA-related STEM topics. The division also has the goal of supporting NASA’s Education Outcome 3 by expanding ASU to include NASA-based STEM learning opportunities to 360 additional students in six rural schools as well as train 12 additional Teaching Fellows (Fresno State University future teachers). Through these objectives, NASA Ames has produced 10 Field Trip in a Box kits as well as new and expanded learning opportunities for all, especially 3rd – 8th grade classes, in the NASA Ames Visitor Center. ASU has reached 500 students in 10 schools and hosted 12-14 year old learners in a five-week computer-based flight simulation class, called Flying for Future Pilots.
This full-scale development project will address the need for creative models to support STEM learning in underserved rural communities that lack traditional infrastructure such as science centers. The project will create and study an innovative model of capacity-building: viz., small networks of community-embedded “STEM Guides” will be trained to identify a range of existing STEM resources available in their local regions, and to connect STEM-interested youth with them in creative and personal ways. Anticipated learning outcomes for youth and families include greater awareness of and interest in STEM experiences and pathways. At the regional level, the project will build capacity through increasing the STEM Guides’ knowledge of local STEM opportunities, and by enhancing connections among STEM-related resources, programs, and industries. The project will implement and study STEM Guide networks in a staggered series of five low-income, rural regions, providing startup resources and professional development. The project will increase the frequency and depth of out-of-school STEM experiences for approximately 3,000 youth aged 10-18 at a relatively low cost, creating a national model for STEM capacity-building in rural settings. It is led by the Maine Mathematics and Science Alliance, with 4-H, Cornerstones of Science (library-based STEM) and Maine’s university system as collaborators. EDC is the primary external evaluator.
The Science Source Pathways Project will conduct initial work designing and testing a new model for providing news on STEM related topics to the rural and Native American communities in Montana. This project will enhance understanding of how the communication of scientific research reaches and impacts underrepresented audiences. A collaborative model will be developed between the environmental journalism program at the University of Montana and various local television, radio, and online media outlets that are either operated by or reach Native Americans on reservations and throughout the state. Project deliverables include a survey and analysis of current science reporting reaching this audience; and production and testing of prototype science news stories for dissemination on various platforms (print, radio, TV, web). The development of science news pieces will be led by graduate students in the School of Journalism under the careful guidance and mentorship of experienced professors. This project will enhance the communication and amount of STEM content delivered to underserved groups, and provide diverse opportunities for them to engage in STEM related environmental issues that affect their local communities.