The Wild Center will partner with Adirondack Museum, Cornell’s Maple Program, and New York State/Northeastern New York Maple Producers Associations to build regional identity, revitalize a heritage industry, and connect people to nature through the art, story, history, and science of maple sugaring. The Northern New York Maple Project will create interpretative exhibits with ecological, historical, and economic information. The museum will develop an instructional maple sugaring video; a touch-screen story kiosk that lets visitors share stories through the exhibit and social media; a storytelling workshop for staff, project partners, and maple producers; community events and conferences; a school education program; community sugaring workshops; and educational materials, website, social media, and outreach to industry, food enthusiasts, and the business community. Regular planning meetings on goals and deliverables will track results and an outside consultant will evaluate the overall success of the project.
With support from the Institute of Museum and Library Services, The Wild Center (TWC) engaged Insight Evaluation Services (IES) to assess the impact of specific outreach activities of the Northern New York Maple Project between September 2013 and September 2015. Data for this two-year evaluation study were collected via in-depth telephone interviews conducted with a total of 25 participants, including 16 Tupper Tappers (Tupper Lake area residents who engaged in backyard tapping to provide sap for syrup production at the museum through the Community Maple Project), four local school teachers
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.
This briefing paper reports findings from the Youth Access & Equity in Informal Science Learning (ISL) project,
a UK-US researcher-practitioner partnership funded by the Science Learning+ scheme. Our project focuses on young people aged 11-14 primarily from under-served and non-dominant communities and includes researchers and practitioners from a range of ISL settings: designed spaces (e.g. museums, zoos), community-based (e.g. after school clubs) and everyday science spaces (e.g. science media).
Currently, many museums present histories of science and technology, but very few are integrating scientific activity--observation, measurement, experimentation-with the time- and place-specific narratives that characterize history-learning experiences. For the Prairie Science project, Conner Prairie is combining proven science center-style activities, developed by the Science Museum of Minnesota, with family-engagement strategies developed through extensive research and testing with audiences in historical settings. The goal of this integration is to create guest experiences that are rich in both STEM and historical content and encourage family learning. One key deliverable of this project is the Create.Connect gallery, which is currently installed at Conner Prairie. Create.Connect allows the project team to evaluate and research hands-on activities, facilitation strategies and historic settings to understand how these elements combine to encourage family conversations and learning around historical narratives and STEM content. For example, in one exhibit area families can experiment with creating their own efficient wind turbine designs while learning about the innovations of the Flint & Walling windmill manufacturing company from Indiana. The activity is facilitated by a historic interpreter portraying a windmill salesman from 1900. The interpreter not only guides the family though the process of scientific inquiry, but shares his historic perspective on wind power as well. Two other exhibit areas invite hands-on exploration of electrical circuits and forces in motion as they connect to stories from Indiana history. Evaluation and research findings from the Create.Connect exhibit will be used to develop a model that can guide other history institutions that want to incorporate STEM content and thinking into their exhibits and interpretation. By partnering with the Science Museum of Minnesota, we will combine the experience of science center professionals and history museum professionals to find the best practices for incorporating science activities into historic settings. To ensure that this dissemination model is informed from many perspectives, Conner Prairie has invited the participation of four history museums: The Museum of America and the Sea, Mystic, Connecticut; the California State Railroad Museum, Sacramento, California; the Wabash County Historical Society, Wabash, Indiana; and the Oliver H. Kelley Farm, Elk River, Minnesota. Each of the four participants will install history-STEM exhibit components which will be connected to location-specific historic narratives. Drawing on the staff experience and talents of participant museums, this project will develop realistic solutions to an array of anticipated barriers. These issues and the resulting approaches will become part of a stronger, more adaptable dissemination model that will support history museums in creating STEM-based guest experiences.
Our Instrumented Earth: Understanding Global Systems and Local Impacts through the El Nino Story centers on a new production displayed on Science on a Sphere® (SOS), and informal educational program elements to engage learners in the power and purpose of NASA data-gathering tools. Audiences include over two million visitors to partner institutions, serving both urban and rural constituencies that rank among the most diverse in the nation. The Aquarium has partnered with the Oregon Museum of Science and Industry (OMSI) and NASA Goddard Space Center to implement elements of the program, as well as NASA scientists and experts to develop content. There are two main project goals for Our Instrumented Earth: to create a NASA-informed public by creating an SOS production which highlights space technologies and other instruments monitoring Earth; and to enhance the STEM capacity of underserved teachers, parents, and students through teacher professional development and outreach events. Major project deliverables for Our Instrumented Earth include: a brand new SOS film production, an adapted program for the Magic Planet spherical display platform to serve rural communities, professional development workshop for formal teachers, and NASA Night outreach events at the Aquarium.
Mission to Mars engages 6th-8th grade students in the science, engineering and careers related to Mars exploration. The program is led by the Museum of Science and Industry, Chicago, and includes as partners Challenger Learning Centers in Woodstock, IL, Normal IL and three NASA Centers (Jet Propulsion Laboratory, Marshall Space Flight Center, and Johnson Space Center). The project aims to:
Link, via videoconference, urban and rural middle school students from low income communities in an exploration of space science
Develop and launch programs that showcase NASA Center research
Enrich middle school curricula and promote learning about NASA’s space missions with experiences that inspire youth to pursue in NASA-related STEM careers.
Programs and products produced include:
3 videoconference program scenarios that highlight research being conducted at NASA Centers
Pre- and post-event curriculum materials designed for middle school classrooms
Teacher professional development workshops
Communication support for NASA professionals
iPad apps utilized during the program
Since the program launched five years ago, Mission to Mars has served 7,676 students. MSI seeks to provide opportunities for all learners, and works to remove barriers to participation in high-quality science learning experiences. Mission to Mars allows MSI to engage more Chicago Public Schools (where 86% of students are economically disadvantaged) in real and relevant science experiences that may lead to STEM careers.
As MSI’s CP4SMP grant comes to an end, the Museum has committed to continued delivery of the program through 2 Mission to Mars Learning Labs, offered to 6-8th grade school groups visiting on field trips. Live videoconferencing with JPL and Johnson will occur during roughly half of the sessions. Our Challenger Learning Center partners will integrate Mission to Mars activities, materials and iPad apps into their own Mars-themed programs. Together these efforts extend the transformative hands-on science experiences developed under the Mission to Mars grant to a whole new audience of middle school students and teachers.
This Pathways Project connects rural, underserved youth and families in Eastern Washington and Northern Idaho to STEM concepts important in sustainable building design. The project is a collaboration of the Palouse Discovery Science Center (Pullman, WA), Washington State University and University of Idaho, working in partnership with rural community organizations and businesses. The deliverables include: 1) interactive exhibit prototype activities, 2) a team cooperative learning problem-solving challenge, and (3) take-home materials to encourage participants to use what they have learned to investigate ways to make their homes more energy-efficient and sustainable. The project introduces youth and families to the traditionally difficult physics concept of thermal energy, particularly as it relates to sustainable building design. Participants explore how building materials and their properties can be used to control all three types of heat transfer: conduction, convection, and radiation. The interactive exhibit prototypes are coupled with an Energy Efficient Engineering Challenge in which participants, working in cooperative learning teams, use information learned from the exhibit prototype activities to retrofit a model house, improving its energy efficiency. The project components are piloted at the Palouse Discovery Science Center, and then travel to three underserved rural/tribal communities in Northern Idaho and Eastern Washington. Front-end and formative evaluation studies will demonstrate whether this model advances participant understanding of and interest in STEM topics and careers. The project will yield information about ways that other ISE practitioners can effectively incorporate cooperative learning strategies in informal settings to improve the transferability of knowledge gained from exhibits to real-world problem-solving challenges, especially for rural and underserved audiences. This project will also provide the ISE field with: 1) a model for increasing the capacity of small, rural science centers to form collaborative regional networks that draw on previously unused resources in their communities and provide more effective outreach to the underrepresented populations they serve, and 2) a model for coupling cooperative learning with outreach exhibits, providing richer experiences of active engagement.