This article discusses how camp professionals are taking a greater interest in the concept of allyship, a process of unlearning and re-evaluating whereby those in positions of privilege attempt to adopt a stance of solidarity with marginalized groups of people. It includes an annotated list of Indigenous Instructional Programming, which aims to build awareness of programs that can aid camp professionals seeking to build intercultural competency among staff groups and, by extension, work toward a larger goal of determining whether or not indigenous traditions still merit a place at camp.
The University of Guam (UOG) NSF INCLUDES Launch Pilot project, GROWING STEM, addresses the grand challenge of increasing Native Pacific Islander representation in the nation's STEM enterprise, particularly in environmental sciences. The project addresses culturally-relevant and place-based research as the framework to attract, engage, and retain Native Pacific Islander students in STEM disciplines. The full science, technology, engineering and mathematics (STEM) pathway will be addressed from K-12 to graduate studies with partnerships that include the Guam Department of Education, Humatak Community Foundation, Pacific Post-Secondary Education Council, the Guam Science and Discovery Society, the Society for the Advancement of Chicanos/Hispanics and Native Americans in Science (SACNAS) and the University of Alaska-Fairbaanks. As the project progresses, the project anticipates further partnerships with the current NSF INCLUDES Launch Pilot project at the University of the Virgin Islands.
Pilot activities include summer internships for high school students, undergraduate and graduate research opportunities through UOG's Plant Nursery and the Humatak Community Foundation Heritage House. STEM professional development activities will be offered through conference participation and student research presentations in venues such as the Guam Science and Discovery Society's Guam Island-wide Science Fair and SACNAS. Faculty will be recruited to develop a mentoring protocol for the project participants. Community outreach and extension services will expand public understanding in environmental sciences from the GROW STEM project. Project metrics will include monitoring the diversity of partners, increases in community engagement, Native Pacific Islander participation in STEM activities, the number of students who desire to attain terminal STEM degrees and the number of community members reached by pilot STEM extension and outreach activities. Dissemination of the GROWING STEM pilot project results will occur through the NSF INCLUDES National Network, partner annual conferences, and local, regional and national STEM conferences.
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TEAM MEMBERS:
John PetersonCheryl SanguezaElse DemeulenaereAustin Shelton
This article discusses the Youth in Science Action Club (SAC), which uses citizen science to investigate nature, document their discoveries, share data with the scientific community, and design strategies to protect the planet. Through collaborations with regional and national partners, SAC expands access to environmental science curriculum and training resources.
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TEAM MEMBERS:
Laura HerszenhornKatie LevedahlSuzi Taylor
As part of a grant from the National Science Foundation, the National Federation of the Blind (NFB) developed, implemented, and evaluated the National Center for Blind Youth in Science (NCBYS), a three-year full-scale development project to increase informal learning opportunities for blind youth in STEM. Through this grant, the NCBYS extended opportunities for informal science learning for the direct benefit of blind students by conducting six NFB STEM2U regional programs included programs for blind youth, their parents/caregivers, blind teen mentors (apprentices), and museum educators.
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds innovative research, approaches and resources for use in a variety of settings. The project will conduct research designed to deepen our fundamental knowledge about culture, experience, and ecosystems cognition and to develop innovative practices and approaches to support learning about changing ecological systems and environmental decision making. Work on cultural differences in the production of complex systems knowledge is severely lacking. This gap in knowledge may contribute to the continued reproduction of inequities in science education. More broadly findings from this project will have clear implications for theories of cognitive development, especially those pertaining to how knowledge is shaped by culture and experience. Focusing on ecosystems may represent an opportunity to not only increase engagement and achievement in science among non-dominant communities and Native youth specifically, but also advance effective learning for all communities. The primary deliverables for the project are conference presentations and research publications. However, the project will also develop additional resources freely available to researchers, educators, and the general public. These will include summer curricular materials and teaching tools, professional development workshops, practitioner briefs about research findings that can be used in professional development workshops and shared share more broadly, and evaluation reports.
A deeper understanding of cultural influences on conceptions of the natural world can serve to advance the educational needs of children, including children from diverse linguistic and cultural backgrounds. Project research will include two interrelated series of studies designed to expand knowledge about human cognition of complex ecosystems and the affordances of informal STEM learning environments in developing and supporting the critical 21st century skill of ecological systems level reasoning. The first consists of a series of experiments focused on ecological cognition and the role of humans in nature. The second consists of design-based research interventions in informal settings, summer workshops for youth and the communities, focused on ecological systems level thinking and socio-environmental decision making. The project will recruit and engage both child and adult participants from two broad cultural communities, Native Americans and European Americans living in urban and suburban communities, in part because it affords a sharp test of human-nature relations. Sampling from two different urban communities will avoid simple Native-non-Native comparative binaries and to conduct Native-to-Native comparative analysis. Based on results from this, the project will result in: 1) foundational knowledge about human learning and reasoning and ecosystems and environmental decision making, 2) culturally responsive models of learning and practice about complex ecosystems for indoors and outdoors informal learning environments, and 3) insights about research-practice-community partnerships. One important objective of the research is to broaden participation and close opportunity gaps for under-represented groups in STEM fields broadly and more specifically for Indigenous people. Members of Indigenous communities, who provide strong role models for other aspiring scholars, will be involved as postdoctoral fellows, research assistants and graduate fellows.
The development of character is a valued objective for many kinds of educational programs that take place both in and outside of school. Educators and administrators who develop and run programs that seek to develop character recognize that the established approaches for doing so have much in common, and they are eager to learn about promising practices used in other settings, evidence of effectiveness, and ways to measure the effectiveness of their own approaches.
In July 2016, the National Academies of Sciences, Engineering, and Medicine held a workshop to review research and practice
A skilled workforce is critical in high-quality out-of-school time (OST) programs (Smith, Devaney, Akiva & Sugar, 2009). However, the workshops commonly used to train OST staff are not adequately preparing practitioners to deliver quality programs that can benefit youth(Durlak & Weissberg, 2007; Smith et al, 2009).
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TEAM MEMBERS:
Femi VanceEmily SalvaterraJocelyn Atkins MichelsenCorey Newhouse
As part of an overall strategy to enhance learning within maker contexts in formal and informal environments, the Innovative Technology Experiences for Students and Teachers (ITEST) and Advancing Informal STEM Learning (AISL) programs partnered to support innovative models for making in a variety of settings through the Enabling the Future of Making to Catalyze New Approaches in STEM Learning and Innovation Dear Colleague Letter. This Early Concept Grant for Exploratory Research (EAGER) will test an innovative approach to bringing making from primarily informal out-of-school contexts into formal science classrooms. While the literature base to support the positive outcomes and impacts of design-based making in informal settings at the K-12 level is emerging, to date, minimal studies have investigated the impacts of making design principles within formal contexts. If successful, this project would not only add to this gap in the literature base but would also present a novel model for bridging the successful engineering design practices of making and tinkering primarily found in informal science education into formal science education classrooms. The model would also demonstrate an innovative, highly interactive way to engage high school students and their teachers in engineering based design principles with immediate real-world applications, as the scientific instruments developed in this project could be integrated directly into science classrooms at relatively minimal costs.
Through a multi-phased design and implementation model, high school students and their teachers will engage deeply in making design principles through the design and development of their own scientific instruments using Arduino-compatible hardware and software. The first phase of the project will reflect a more traditional making experience with up to twenty high school students and their teachers participating in an after-school design making club, in this case, focused on the development and testing of scientific instrument prototypes. During the second phase of the project, the first effort to transpose the after school making experience to a more formalized experience will be tested with up to eight students selected to participate in two week summer research internships focused on scientific instrument design and development through making at Northwestern University. A two-day summer teacher workshop will also be held for high school teachers participating in the subsequent pilot study. The collective insights gleaned from the after school program, student internships, and teacher workshop will culminate to inform the full implementation of the formal classroom pilot study. The third and final phase will coalesce months of iterative, formative research, design and development, resulting in a comprehensive pilot investigation in up to seven high school physics classrooms.
Using a multi-phased, mixed methods exploratory design-based research approach, this 18-month EAGER will explore several salient research questions: (a) How and to what extent does the design & making of scientific instrumentation serve as useful tasks for learning important science and engineering knowledge, practices, and epistemologies? (b) How engaging is this making activity to learners of diverse abilities and prior interests? What can be generalized to other types of making activities? (c) How accessible is the Arduino hardware and coding environment to learners? What combination of hardware and software materials and tools best support accessibility and learning in this type of digital making activity? and (d) What types of scaffolding (for students and teachers) are required to support the effective use of maker materials and activities in a classroom setting? Structured interviews, artifacts, video recordings from visor cameras, student design logs, logfiles, and ethnographic field notes will be employed to garner data and address the research questions. Given the early stage of the proposed research, the dissemination of the findings will be limited to a few select journals, teacher forums and workshops, and professional conferences.
This EAGER is well-poised to directly impact up to 125 high school physics students (average= 25 students/class), approximately 7 high school physics teachers, 6-8 high school summer interns, nearly 20 high school students participating in the after-school design making club, and indirectly many more. The results of this EAGER could provide the basis and evidence needed to support a more robust, expanded future investigation to further substantiate the findings and build the case for similar efforts to bring making into formal science education contexts.
Wallace and Brooks examined the culture of an elementary science education methods course conducted in a summer science camp, along with the professional identity development of the preservice teachers during their participation in the course.
The University of Alaska Fairbanks will partner with the National Optical and Astronomy Observatory, the University of Alaska Museum of the North, and the University of Washington-Bothell to bring biomaterials, optics, photonics, and nanotechnology content, art infused experiences, and career awareness to art-interested girls. This full scale development project, Project STEAM, will explore the intersections between biology, physics, and art using advanced technologies at the nano to macro scale levels. Middle school girls from predominately underrepresented Alaskan Native, Native American (Tohono O'odham, Pascula Yaqui) and Hispanic groups, their families, teachers, and Girl Scout Troop Leaders in two site locations- Anchorage, Alaska and Tucson, Arizona will participate in the project. Centered on the theme "Colors of Nature," Project STEAM will engage girls in science activities designed to enhance STEM learning and visual-spatial skills. Using advanced technologies, approximately 240 girls enrolled in the Summer Academy over the project duration will work with women scientist mentors, teachers, and Girl Scout Troop Leaders to create artistic representations of natural objects observed at the nano and macro scale levels. Forty girls will participate in the Summer Academy in year one (20 girls per site- Alaska and Arizona). In consequent years, approximately180 girls will participate in the Academy (30 girls per site). Another 1,500 girls are expected to be reached through their Girl Scout Troop Leaders (n=15) who will be trained to deliver a modified version of the program using specialized curriculum kits. In addition, over 6,000 girls and their families are expected to attend Project STEAM Science Cafe events held at local informal science education institutions at each site during the academic year. In conjunction with the programmatic activities, a research investigation will be conducted to study the impact of the program on girls' science identity. Participant discourse, pre and post assessments, and observed engagement with the scientific and artistic ideas and tools presented will be examined and analyzed. A mixed methods approach will also be employed for the formative and summative evaluations, which will be conducted by The Goldstream Group. Ultimately, the project endeavors to increase STEM learning and interest through art, build capacity through professional development, advance the research base on girls' science identity and inspire and interest girls in STEM careers.
This evaluation reports on the Mission: Solar System project, a 2-year project funded by NASA. The goal of the Mission: Solar System was to create a collection of resources that integrates digital media with hands-on science and engineering activities to support kids’ exploration in formal and informal education settings. Our goal in creating the resources were: For youth: (1) Provide opportunities to use science, technology, engineering, and math to solve challenges related to exploring our solar system, (2) Build and hone critical thinking, problem-solving, and design process skills, (3)
This poster was presented at the 2014 AISL PI Meeting. Led by Washington University, Making Natural Connections: An Authentic Field Research Collaboration (DRL-0739874), is a series of two field-based informal science education programs in environmental biology targeting St. Louis area teenagers. The project aims for engagement of science research institutions and career scientists in the execution of informal science education programming, bringing real and dynamic context to the science content and allowing for deep and transparent career exploration by teenage participants. Project goals
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TEAM MEMBERS:
Washington University in St. LouisSusan FlowersKim MedleyKatherine Beyer