Mathematizing, Visualizing, and Power (MVP): Appalachian Youth Becoming Data Artists for Community Learning is a three-year Advancing Informal STEM Learning, Innovations and Development, project that focuses on community-centered data exploration catalyzed by youth. The project develops statistical artistry among young people in East Tennessee Appalachian communities and enables these youth to share their data visualizations with their communities to foster collective reflection and understanding. The creative work generated by the MVP project will be compelling in two ways, both as statistical art and as powerful statements giving voice to the experience of communities. Critical aspects of the MVP model include (1) youth learning sessions that position youth as owners of data and producers of knowledge and (2) Community Learning Events that support community learning as youth learning occurs. The MVP project has a primary focus on broadening the STEM participation of underrepresented communities of Appalachia. The project’s mission is to increase the learning and life outcomes of young people and communities of Appalachia by creating a meaningful foundation of data science and collective data exploration. The University of Tennessee partners with Pellissippi State Community College, Drexel University, and the Boys & Girls Club of the Tennessee Valley to bring together a convergent team of community members, practitioners, and professionals, with the expertise to carry out the project. The project will impact approximately 120 youth and 3800 of their East Tennessee community members. The research generated will inform how to engage community members in learning about community issues through the exploration of datasets relevant to participants.
The field of STEM education is in urgent need of knowledge about effective models to inspire community-based data exploration with young people as leaders in these efforts. The MVP project includes engaging youth with meaningful problems, building a discourse community with possibilities for action, re-positioning youth as knowledge producers within their own communities, leveraging linguistic and cultural resources of the youth participants and their communities, and implementing critical events that support substantial interaction between youth, community members, and the data visualizations. MVP builds on the idea that the design of data visualizations requires an understanding of both data science and artistic design. Research will inform the model of community engagement, examine data artists’ identities, and document community learning. The MVP model will be designed, developed, tested, and refined through three cycles of design-based research. The overarching research question guiding these cycles is: What affordances (and delimitations) related to identity and learning does the model provide for MVP Youth and community members? Data sources for the project include: fieldnotes, portfolios created by MVP Youth, youth pre/post interviews, observations of the learning sessions, a project documentary, surveys for youth and community members, interviews with community members, and audience feedback. The National Institute for STEM Evaluation and Research (NISER) will provide formative and summative evaluation about project activities. Formative feedback will be integrated into the ongoing research cycles. The research conducted will inform (1) the community learning model; (2) the integrated pedagogy and curriculum of the MVP Youth learning sessions that emphasize data science through design arts; and, (3) research on community learning and youth identity. Findings will be shared through conferences, academic and practitioner-focused journals, a video documentary, a Summit on Engaging Youth and Communities in Data, and a project website.
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TEAM MEMBERS:
Lynn HodgeElizabeth DyerJoy BertlingCarlye Clark
resourceprojectProfessional Development, Conferences, and Networks
Vassar College is conducting a 2.5-day conference, as well as pre- and post-conference activities, that convenes a multi-disciplinary, multi-institutional (USA and international) team to conceptualize and plan various research, education and outreach activities in informal learning, focusing on the seminal concept of tensegrity and its applications in many fields of science and mathematics. Tensegrity is the characteristic property of a stable three-dimensional structure consisting of members under tension that are contiguous and members under compression that are not.
The conference will bring together researchers and practitioners in informal learning and researchers in the various disciplines that embrace tensegrity (mathematics, engineering, biology, architecture, and art) to explore the potential that tensegrity has to engage the public in informal settings, especially through direct engagement in creating such structures. This project is funded by the Advancing Informal STEM Learning (AISL) 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.
To date there have been no sustained informal educational projects and research around the topic of tensegrity. However, there is considerable related work on learning through "making and tinkering" upon which the participants will adapt and expand. The intended conference outcomes are to produce prototypes of activities, a research agenda, and lines of development with the potential to engage the wider public. A key priority of the gathering is the development of new partnerships between researchers and creators of tensegrity systems and the informal learning professionals. The long-term project hypothesis is that children and adults can engage with tensegrity through tinkering with materials and becoming familiar with a growing set of basic structures and their applications. The activities will include evaluation of the conference and a social network analysis of the collaborations that result.
This project is funded by the National Science Foundation's (NSF's) Advancing Informal STEM Learning (AISL) program, which supports innovative research, approaches, and resources for use in a variety of learning settings.
The Art of Science Learning, Phase 2 was an NSF-funded research and development project to investigate the value of incorporating arts-based learning techniques in STEM-related group innovation processes. The project team created a new, arts-infused innovation curriculum in consultation with leading national practitioners in the arts, creativity, and innovation, then deployed that curriculum in “innovation incubators” in San Diego, Chicago, and Worcester (Mass.) in partnership with informal STEM institutions in those cities. At each incubator, diverse members of the public (from high school
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TEAM MEMBERS:
Peter LinettSteve ShewfeltNicole BaltazarNnenna OkekeDreolin FleisherEric LaPlantMadeline SmithChloe Chittick PattonSarah LeeHarvey Seifter
Assuming that scientific development and artistic research are genetically similar, this article shows the common need of knowledge of art and science, their dialectical and multidirectional relations and the unstable boundaries between them. The fractal art has assimilated the cognitive and perceptive changes in the realm of non-euclidean geometries and has become a precise instrument of "epistemological observation". Artistic practices materialize and communicate the laws of science, while scientific revolutions are in actual facts metaphorical revolutions.
Dialogical models in science communication produce effective and satisfactory experiences, also when hard sciences (like astrophysics or cosmology) are concerned. But those efforts to reach the public can be of modest impact since the public is no longer (or not sufficiently) interested in science. The reason of this lack of interest is not that science is an alien topic, but that contemporary science and technology have ceased to offer a convincing model for the human progress.
"I consider Leopardi's poetry and pessimism to be the best expression of what a scientist's credo should be". This quotation is from Bertrand Russell, no less. With these very emblematic words, the greatest man of letters, the supreme icon of the Italian Parnasse, the author of such collections of poems as Canti (Poems) and Operette Morali (The Moral Essays) and philosophical thoughts as Zibaldone (Miscellany) has been associated to the world of science. This relationship, very intense and to a certain extent new, was greatly emphasised on the occasion of the poet's birth bicentenary. During
The Balboa Park Cultural Partnership, in collaboration with several informal science education and other cultural and business organizations in San Diego, Chicago, and Worcester, MA are implementing a research and development project that investigates a range of possible approaches for stimulating the development of 21st Century creativity skills and innovative processes at the interface between informal STEM learning and methods for creative thinking. The goal of the research is to advance understanding of the potential impacts of creative thinking methods on the public's understanding of and engagement with STEM, with a focus on 21st Century workforce skills of teens and adults. The goal of the project's development activities is to experiment with a variety of "innovation incubator" models in cities around the country. Modeled on business "incubators" or "accelerators" that are designed to foster and accelerate innovation and creativity, these STEM incubators generate collaborations of different professionals and the public around STEM education and other STEM-related topics of local interest that can be explored with the help of creative learning methodologies such as innovative methods to generate creative ideas, ideas for transforming one STEM idea to others, drawing on visual and graphical ideas, improvisation, narrative writing, and the process of using innovative visual displays of information for creating visual roadmaps. Hosting the project's incubators are the Balboa Park Cultural Partnership (San Diego), the Museum of Science and Industry (Chicago) and the EcoTarium (Worcester, MA). National partners are the Association of Science-Technology Centers, the American Association for the Advancement of Science, and the Americans for the Arts. Activities will include: the formation and collaborative processes of three incubator sites, a research study, the development of a creative thinking curriculum infused into science education, professional development based on the curriculum, public engagement events and exhibits, a project website and tools for social networking, and project evaluation. A national advisory council includes professionals in education, science, creativity, and business.
This poster was presented at the 2014 AISL PI Meeting in Washington, DC. Through sustained collaborations that unite research, design, and professional development, members of the InforMath Collaborative are conducting design-based research on exhibits and programs that integrate art and science content from participating museums with the mathematics of topology and projective geometry.
There is a movement afoot to turn the acronym STEM—which stands for science, technology, engineering, and mathematics—into STEAM by adding the arts. Science educators have finally begun to realize that the skills required by innovative STEM professionals include arts and crafts thinking. Visual thinking; recognizing and forming patterns; modeling; getting a "feel" for systems; and the manipulative skills learned by using tools, pens, and brushes are all demonstrably valuable for developing STEM abilities. And the National Science Foundation and the National Endowment for the Arts have gotten
The article provides information and suggestions for coordinating a Family Science Day, an informal science event for science, technology, engineering, and mathematics (STEM) education. Suggestions include integrating art into STEM experiments to create STEAM projects, securing content experts for the event, and creating a manageable timeline.
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Sara McCubbinsBethany ThomasMichael Vetere
This research project establishes a new research center, the InforMath Collaborative, that brings together university educational researchers and professionals at art and science museums in San Diego's Balboa Park. The InforMath Collaborative is investigating and building the capacity of informal learning institutions to support content and identity learning in mathematics. Through sustained collaborations that unite research, design, and professional development, members of the InforMath Collaborative are conducting design-based research on exhibits and programs that integrate art and science content from participating museums with the mathematics of topology and projective geometry.
The broader goal of the InforMath Collaborative is to transform cultural perceptions of mathematics in ways that broaden learners' access to the discipline. The project aims to develop informal mathematical learning experiences that make mathematics feel accessible, body-based, creative, and deeply relevant to a wide array of other knowledge domains, including both art and science. The project will build and strengthen regional and national networks of educational professionals who work in informal mathematics learning and expand the capacity of informal institutions to support engaging, innovative, content-rich, and culturally transformative mathematical learning experiences.
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TEAM MEMBERS:
Ricardo NemirovskyPaul SiboroskiMolly Kelton
This project was an early example of STEAM (Science, Technology, Engineering, Art, Math) and was produced for the 2004 BLD Studios art exhibition, Time Machines, in Columbus, OH. This project included a chair and a desk made of drawers, on top of which was a audio/video work station where visitors sat and interacted with the technology by using the headphones and listening to one tape deck for instructions and then listening to music on the other while watching the TV screen with special HyperSpeks(tm). There was also a panel of photos above the TV designed to simulate time travel. The instructions explained the purpose of the exhibit and how to use the TV to tune into various channels to pick-up a variety of video static on empty UHF frequencies. The music was designed to put the visitor into a certain frame of mind. It was futuristic sounding and created using DEMI sampling, a proprietary sampling technique also created by Marshall Barnes. The intent was to set the mood. Training Session was supposed to simulate training prospective transdimensional travelers in the cognitive exercises required to deal with the psychological rigors of time/parallel universe travel. The HyperSpeks(tm) allowed the visitors to search for various shapes in the TV static on a number of selcted channels which would resemble such cosmological constructs as black holes and wormholes. The static was live and not prerecorded and so the interaction on all levels was live and in real time. Visitors were to write their observations down on paper which was provided via a note pad and pen at the exhibit. In this way, a record of their experiences existed for subsequent visitors to review. The visitors were also told to view the photo panel, which consisted of pictures taken in 1977, but not developed until 2004. As a result, the pictures were somewhat faded and all tinted pink, however, when the visitors viewed them with the HyperSpeks(tm) they appeared not only normal color, but almost as if the scenes they depicted were views outside a window. Thus, the visitor was able to travel optically back in time and see the images the way they looked when they were originally photographed.