The New York Botanical Garden (NYBG) will plan, implement, and evaluate educational programming for its upcoming garden-wide exhibition, "Frida Kahlo's Garden." The programming and interpretation will create an immersive, compelling, interdisciplinary learning experience that merges arts, humanities, and science themes. Programming will celebrate Mexican culture, immersing visitors in the music, dance, food, and fashion that influenced Kahlo and continues to inspire people today. Through the exhibit and programming, visitors will gain insight into the impact of Kahlo's interest in the natural world on her artwork; understand the continuing impact of Mexican nature, nationalism, and intellectual history on arts and culture; and make personal connections between art, nature, and their own lives. The project will also provide a model for other botanical gardens to use to create interdisciplinary exhibitions.
The New England Wild Flower Society will develop an engaging, easily accessible curriculum of introductory online courses in botany, plant ecology, and native plant horticulture, which will be made available to conservation and educational organizations throughout the Northeastern U.S. via a new digital portal. These comprehensive classes in plant science will be available online for diverse lifelong learners and will incorporate classroom, online, and field participation by students; foster connections among students and mentors; and create a rich suite of learning opportunities.
The animated series PEEP and the Big Wide World (PEEP), developed by WGBH Boston, is designed to teach science and math to children aged three to five years old. WGBH recently completed a total redesign of the PEEP website that was intended make the site more accessible to Spanish-speakers, more supportive of extended informal science and math exploration, and more functional for users of tablets and mobile devices. This work included:
• The transformation of PEEP into a fully dual language website via the translation of all games and website text into Spanish and the debut of a new Spanish
The Greensboro Children's Museum, in partnership with the University of North Carolina at Greensboro and Guilford County Schools, will develop and implement the "Grow It, Cook It, Eat It" project to study the impact of food systems literacy education on the knowledge and behavior of K-2 children in an underserved school. The project will bring food education to a local elementary school where museum educators will work alongside classroom teachers to create and deliver weekly lessons to 60 students based on sustainable gardening practices, kitchen efficacy, attitudes toward fresh, seasonal food, and behavior toward garden work and trying new foods. Participating elementary students will build the beginnings of a skills set that will empower them, and their families,to make smart food choices for a lifetime.
The Wild Center will design and implement an innovative learning experience through new installations on Wild Walk, an elevated walkway that runs through the Adirondack forest. The museum will also design and lead interpretive training for staff, interns and volunteers, and draft and test interpretive programs. Exhibits will include a thirty-foot-high rope net "Spiders Web" suspended above the ground; "Squirrel Run," a series of suspended bridges that lead from the main walk; a two-story Tree House which will house multiple exhibits on wildlife and people-nature relationships; and a model Tree Snag that is 40 feet high and 12 feet in diameter. The museum aims to enhance audiences' understanding of STEM (Science, Technology, Engineering and Math) concepts through dynamic learning experiences and interactive exhibits offered through an elevated view of the forest. The learning experiences and resources will foster an appreciation of being active in nature and promote the philosophy that spending time outdoors is a valuable part of our lives.
John J. Tyler Arboretum will develop visitor programming that will provide educational opportunities in its Edible Garden Center focused on the benefits of growing and eating fresh fruits and vegetables. The center will include a food gardening exhibit that addresses urban gardening issues such as raised beds, container gardens, rooftop gardening, holistic sustainable gardening practices and technologies, and traditional vegetable gardening techniques. Cooking demonstrations, healthy eating programs, and dedicated gardening activities will allow for hands-on learning about health and sustainability. The garden will also include a play space for children, art performances and art installations to create a visitor experience that is dynamic, educational and forward-thinking.
The L.C. Bates Museum will provide 1,700 rural fourth grade students and their families museum-based STEAM (Science, Technology, Engineering, Art, and Mathematics) educational programming including integrated naturalist, astronomy, and art activities that explore Maine's environment and its solar and lunar interactions. The project will include a series of eight classroom programs, family field trips, TV programs, family and classroom self-guided educational materials, and exhibitions of project activities including student work. By bringing programs to schools and offering family activities and field trips, the museum will be able to engage an underserved, mostly low-income population that would otherwise not be able to visit the museum. The museum's programming will address teachers' needs for museum objects and interactive explorations that enhance student learning and new Common Core science curriculum objectives, while offering students engaging learning experiences and the opportunity to develop 21st century leadership skills.
The Cyberlearning and Future Learning Technologies Program funds efforts that support envisioning the future of learning technologies and advance what we know about how people learn in technology-rich environments. In this Cyberlearning EAGER project, the project team is developing foundations for using "paper mechatronics" as a learning technology. Paper mechatronics makes possible a craft-oriented approach to engineering and computing education that integrates key concepts from mechanical engineering, electrical engineering, control systems, and computer programming, while using paper as the primary material for learner design, exploration, and inquiry. In this approach, learners will design foldable paper components and assemblies; program motors, sensors and controls; test their ideas iteratively; and share their designs on a website. This paper-based modeling approach to learning concepts in and practices of mechanical engineering, electrical engineering, control systems, and computer programming ultimately aims to make it possible for all learners to have exposure to and the opportunity to participate in creative engineering, design, and computer programming.
The approach to learning through designing and making through paper mechatronics is made possible by a convergence of many different technological factors -- the array of small computers, sensors, and actuators that are becoming available at low cost and a size that children can use; availability of a wide variety of manipulable conductive materials (threads, paints, fabrics); low-cost and precise desktop and laser cutters for paper and similar materials; a wide variety of novel paper-like materials; and new ways of interacting with the computer. The approach has its foundations in Papert's constructionism and in the current maker movement, but it has potential beyond constructionism itself, both in practice and with respect to what can potentially be learned about learning and development in in context of its use.
Wagner Free Institute of Science will develop, prototype, and produce new interpretive tools to enhance visitor learning experiences and deepen visitor engagement with the museum's rich history, unique collections, and Victorian-era exhibit gallery of natural history specimens. Interpretive tools will include a site guide; a map of the natural history installation, which will contextualize the exhibit and provide a bridge to contemporary science; specimen stories to drill deeper into the collection; and interpretation-infused admission protocols. In creating these approaches, the Wagner will directly involve college students and young adult visitors through an iterative process of prototype testing and refinement. The initiative will result in new ways for visitors to experience the museum; make connections between science and history; and foster learning through self-directed discovery.
Armory Center for the Arts will develop, deliver, and evaluate "Artful Connections with Science," an innovative new visual arts-science integrated curriculum for the fourth and fifth grade levels in the Pasadena and Los Angeles Unified School Districts. "Artful Connections with Science" will provide support to the education community at a critical juncture as California adopts the Next Generation Science Standards. It will also enable the center to build organizational capacity for the delivery of arts-integration curriculum in multiple districts, thus increasing sustainability and helping to improve lives through the power of art.
DATE:
-
TEAM MEMBERS:
Doris Hausmann
resourceprojectProfessional Development, Conferences, and Networks
Arkansas State University (ASU) Museum will offer engaging STEM (Science, Technology, Engineering, and Math) learning experiences for children, at-risk youth, and teachers through three years of membership in the Arkansas Discovery Network, a coalition of seven Arkansas museums that develops and shares children's exhibits. Membership in the network will entitle ASU to nine high-quality, hands-on, STEM-based exhibits that promote "learning by doing" and the needed training in their STEM programming for educators. ASU Museum staff will build substantially upon these exhibits by developing many new and engaging tours, gallery activities, and programs that ensure STEM content registers in learners. This project will enable the museum to offer exceptional experiences with the potential to change attitudes about the value of learning in the targeted audiences in Northeast Arkansas.
Perot Museum of Nature and Science will expand its museum-based professional development offerings for Dallas-area teachers by launching, testing, and evaluating a scalable Perot Museum STEM (Science, Technology, Engineering, and Math) Teacher Institute and Mentor Program. Participating K-12 teachers will attend a weeklong, intensive "Summer Academies at the Museum" designed to measurably improve the quality of formal science instruction in public, charter, private, and parochial schools by creating and sustaining a collaborative formal and informal STEM learning community. The museum aims to increase teachers' knowledge of science content as well as their competence, confidence, creativity, and consistency in science instruction through this program, and ultimately increase interest and engagement among their students in STEM subjects.