The impetus behind this effort was to create a platform for initial support to TEE professionals who may have a blind and low-vision (BLV) student in their courses. Specific examples, instructions, and applications for many of the commonly-used tools and techniques are included here as part of this overall effort to teach TEE concepts through socially relevant contexts by adapting older methods to facilitate new opportunities in our school systems for BLV youth.
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TEAM MEMBERS:
Scott Bartholomew Wade GoodridgeNatalie ShaheenAnne Cunningham
resourceevaluationMuseum and Science Center Exhibits
The Kaulele Kapa Exhibit was created to explore the effectiveness of a Hawaiian culture-based framework and approach in increasing learner engagement and depth of knowledge in STEM among Native Hawaiian/Pacific Islander (NHPI) learners. The exhibit utilized hands-on and interactive activities, coupled with scientific and cultural information, to create relevant learning experiences for these communities. To determine the effectiveness, exhibit attendees were invited to complete a survey that asked about how the exhibit influenced their interest and understanding of STEM and Hawaiian culture
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TEAM MEMBERS:
Ciera Pagud Rachelle Chauhan
resourceevaluationMuseum and Science Center Exhibits
Over the course of six years (2016–2022), History Colorado, three Ute Tribes, and archaeology and ethnobotany partners undertook an ambitious, highly collaborative project, called Ute STEM, to explore new ways of looking at the field of Science, Technology, Engineering, and Math (STEM) learning. This final report goes into details about the project and lessons learned.
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TEAM MEMBERS:
Elizabeth CookSheila GoffKate LivingstonShannon Voirol
Snow: Tiny Crystals, Global Impact is a 2,500 ft traveling exhibition about: how snow shapes and sustains life on Earth, the impacts of climate change on snow, and the importance of our collective engagement to take action. The exhibition will be installed at OMSI during winter 2021-2022 for summative evaluation and learning research.
This poster was presented at the 2021 NSF AISL Awardee Meeting.
For thousands of years, Native Hawaiian/Pacific Islander (NHPI) seafarers have successfully utilized systemic observation of their environment to traverse vast expanses of open ocean and thrive on the most remote islands on earth. Developing NHPI trust in the scientific enterprise requires building connections that bridge the values and concepts of 'ike kupuna (traditional knowledge) with scientific knowledge systems and contemporary technology. This project will develop and research a pop-up science exhibit that connects indigenous Hawaiian knowledge with contemporary Western science concepts. The exhibit will show how community knowledge (that is consistent with underlying scientific principles and natural laws) has informed innovation by indigenous peoples. This community-initiated and developed project will begin with a single pop-up exhibit designed to incorporate several hands-on culture-based STEM activities that integrate traditional and modern technologies. For example, the exhibit may cover indigenous systems of star navigation for ocean voyaging, systems of netting for food and water containers, or systems of home design with local and natural materials. This project seeks to develop preliminary evidence of the effectiveness of such an approach for supporting rural Hawaiian youths' STEM engagement, understanding, and personal connections to Native Hawaiian STEM knowledge. Findings from this pilot and feasibility study will inform the development of a larger pop-up science center grounded in indigenous Hawaiian STEM knowledge, and advance intellectual knowledge around culturally sustaining pedagogy by helping informal STEM education practitioners understand community initiated and developed STEM exhibits.
This pop-up science center pilot will be led by a local Hawaiian community organization, INPEACE, in collaboration with several local community members and other community-based organizations. The preliminary research will iteratively explore whether and how an existing Hawaiian culture-based framework can be used to design hands-on STEM exhibits to enhance rural learner engagement, depth of STEM knowledge, and connection to Native Hawaiian STEM knowledge. Research efforts led by Kamehameha Schools, which has a long history of conducting research from an indigenous worldview, will engage 120 learners from various rural communities across Hawaii, from which 40 will be pre-selected middle-school youth, and 80 individuals will be from public audiences of learners ages 12 and up. Through a series of observations, interviews, pre and post surveys with validated instruments, and focus groups, the research will probe: (1) The learners' thoughts on the science practice and its relevance to old and new Hawaii and modern society. (2) The level at which related STEM topics have been understood, and (3) The learners' perceptions about their connection to Native Hawaiian STEM knowledge. Results from this pilot study will inform a future pop-up science center development project, and add to the scarce literature on community-driven, culturally sustaining exhibition development.
This Pilots and Feasibility Studies project is funded by the NSF Advancing Informal STEM Learning program, which seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments. This includes providing multiple pathways for broadening access to and engagement in STEM learning experiences, advancing innovative research on and assessment of STEM learning in informal environments, and developing understandings of deeper learning by participants.
This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
The data collection procedure and process is one of the most critical components in a research study that affects the findings. Problems in data collection may directly influence the findings, and consequently, may lead to questionable inferences. Despite the challenges in data collection, this study provides insights for STEM education researchers and practitioners on effective data collection, in order to ensure that the data is useful for answering questions posed by research. Our engineering education research study was a part of a three-year, NSF funded project implemented in the Midwest
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TEAM MEMBERS:
Ibrahim YeterAnastasia Marie RynearsonHoda EhsanAnnwesa DasguptaBarbara FagundesMuhsin MeneskeMonica Cardella
Integrating science, technology, engineering, and mathematics (STEM) subjects in pre-college settings is seen as critical in providing opportunities for children to develop knowledge, skills, and interests in these subjects and the associated critical thinking skills. More recently computational thinking (CT) has been called out as an equally important topic to emphasize among pre-college students. The authors of this paper began an integrated STEM+CT project three years ago to explore integrating these subjects through a science center exhibit and a curriculum for 5-8 year old students. We
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TEAM MEMBERS:
Morgan HynesMonica CardellaTamara MooreSean BrophySenay PurzerKristina TankMuhsin MeneskeIbrahim YeterHoda Ehsan
Given the growth of technology in the 21st century and the growing demands for computer science skills, computational thinking has been increasingly included in K-12 STEM (Science, Technology, Engineering and Mathematics) education. Computational thinking (CT) is relevant to integrated STEM and has many common practices with other STEM disciplines. Previous studies have shown synergies between CT and engineering learning. In addition, many researchers believe that the more children are exposed to CT learning experiences, the stronger their programming abilities will be. As programming is a
Computational Thinking (CT) is a relatively new educational focus and a clear need for learners as a 21st century skill. This proposal tackles this challenging new area for young learners, an area greatly in need of research and learning materials. The Principal Investigators will develop and implement integrated STEM+C museum exhibits and integrate CT in their existing engineering design based PictureSTEM curriculum for K-2 students. They will also pilot assessments of the CT components of the PictureSTEM curriculum. This work will make a unique contribution to the available STEM+C learning materials and assessments. There are few such materials for the kindergarten to second grade (K-2) population they will work with. They will research the effects of the curriculum and the exhibits with a mixed methods approach. First, they will collect observational data and conduct case studies to discover the important elements of an integrated STEM+C experience in both the formal in-school setting with the curriculum and in the informal out-of-school setting with families interacting with the museum exhibits. This work will provide a novel way to understand the important question of how in- and out-of-school experiences contribute to the development of STEM and CT thinking and learning. Finally, they will collect data from all participants to discover the ways that their activities lead to increases in STEM+C knowledge and interest.
The Principal Investigators will build on an integrated STEM curriculum by integrating CT and develop integrated museum exhibits. They base both activities on engineering design implemented through challenge based programming activities. They will research and/or develop assessments of both STEM+C integrated thinking and CT. Their research strategy combines Design Based Research and quantitative assessment of the effectiveness of the materials for learning CT. In the first two years of their study, they will engage in iterations on the design of the curriculum and the exhibits based on observation and case-study data. There will be 16 cases that draw from each grade level and involve data collection for the case student in both schools and museums. They will also use this work to illuminate what integrated STEM+C thinking and learning looks like across formal and informal learning environments. Based in some part on what they discover in this first phase, they will conduct the quantitative assessments with all (or at least most) students participating in the study
Roots of Wisdom (also known as Generations of Knowledge; NSF-DRL #1010559) is a project funded by the National Science Foundation that aims to engage Native and non-Native youth (ages 11-14) and their families in Traditional Ecological Knowledge (TEK) and western science within culturally relevant contexts that present both worldviews as valuable, complementary ways of knowing, understanding, and caring for the natural world. The Oregon Museum of Science and Industry (OMSI) and its partner organizations, The Indigenous Education Institute (IEI), The National Museum of the American Indian (NMAI