Visitors to the Science Museum of Minnesota provided feedback on the books, How Small Is Nano? and Is That Robot Real? in order to assess the books and their ability to impart knowledge of nanoscience. The visitors, 63 adults in all, read one of the books to the child or children accompanying them, then answered a series of questions about their experience including their interest in and enjoyment of the book they read, as well as the age appropriateness of the book. The report compares and contrasts the two books throughout.
The Independence Seaport Museum will create "Boat Building: Art and Science," a 3,000-square foot permanent exhibit that is designed to educate visitors about the science of boat building and design. Concepts such as buoyancy, water displacement, turbulence and drag will be explored through interactives, maritime artifacts, models and oral histories of tradesmen. By using the principles identified by the Family Science Learning Research Project of the Philadelphia/Camden Informal Science Education Collaborative (PISEC), the exhibit will be user-friendly for families with young children. Visitor workstation topics may include boat building, floating, buoyancy, sails, wind and boat shape. Visitors will use science processes while learning through open-ended play and exploration. Creative programs for families and school groups, as well as curriculum materials will support the exhibit. A website and technical training manual will also be produced. Four phases of evaluation are planned, and include front-end analysis which will incorporate focus groups with children ages 7-12, and formative evaluation using prototypes of interactives. Remedial evaluation will be carried out once the exhibit opens, and summative evaluation will use tracking and exit interviews to assess learning and understanding. The estimated annual audience of over 130,000 visitors will be expanded by replicating and traveling various components to other maritime museums in partnership with the Association of Science and Technology Centers. Evaluation of traveling components will also be undertaken to determine if they present an appropriate model for maritime-based exhibits.
Scholastic Productions is producing thirteen additional episodes for the third season of the fully animated, half-hour television series, "The Magic School Bus." The series, which is targeted at 6-9 year olds, is designed to motivate children's interest in science, to introduce science concepts and ideas, and to inspire positive attitudes towards science and education in students and teachers. The series is unique to science educational television because it breaks the science gender barrier, showcases both education and science, and, through the use of animation which enables the series to transport children to places they literally could not go, presents content in a unique way. Season III topics include: spiders, the Arctic, light, color, the moon, structures, and sound. Outreach activities will include and expand upon those offered for Seasons I and II. During Season III, special emphasis will be placed on reaching families. The project also will use America On-line to promote the series and to communicate the value in and the methods for encouraging children's interest in science. The same basic administrative, content, and production staff will continue with the project. Management and editorial control will be the responsibility of Jane Startz, Executive Vice President of Scholastic Productions. Cheryl Gotthelf, Executive Director of Special Projects for Scholastic Productions will oversee series distribution and utilization, print, research, public relations, promotion, and community and museum outreach. Science content will continue to be supervised by Michael Templeton with the assistance of an Associate Science Content Director, Fran Nankin. Kristin Martin will remain in charge of series production.
Making Connections, a three-year design-based research study conducted by the Science Museum of Minnesota in partnership with Twin Cities' communities, is developing and studying new ways to engage a broader audience in meaningful Maker experiences. This study draws and builds on existing theoretical frameworks to examine how community engagement techniques can be used to co-design and implement culturally-relevant marketing, activities, and events focused on Making that attract families from underrepresented audiences and ultimately engage them in meaningful informal STEM learning. The research is being done in three phases: Sharing and Listening - co-design with targeted communities; Making Activities Design and Implementation; Final Analysis, Synthesis and Dissemination. The project is also exploring new approaches in museums' cross-institutional practices that can strengthen the quality of their community-engagement. In recent years, Making - a do-it-yourself, grassroots approach to designing and constructing real things through creativity, problem-solving, and tool use - has received increasing attention as a fruitful vehicle for introducing young people to the excitement of science and engineering and to career skills in these fields. Maker Faires attract hundreds and thousands of people to engage in Making activities every year, and the popularity of these events, as well as the number of museums and libraries that are beginning to provide opportunities for the public to regularly engage in these types of activities, are skyrocketing. However, Maker programs tend to draw audiences that are predominantly white, middle class, male, well educated, and strongly interested in science, despite the fact that the practices of Making are as common in more diverse communities. Making Connections has the potential to transform how children begin to cultivate a lifelong interest in engineering at a young age, which may ultimately encourage more young people of color to pursue engineering careers in the future.
Nationally, there is tremendous interest in enhancing participation in science, technology, engineering, and mathematics (STEM). Providing rich opportunities for engagement in science and engineering practices may be key to developing a much larger cadre of young people who grow up interested in and pursue future STEM education and career options. One particularly powerful way to engage children in such exploration and playful experimentation may be through learning experiences that call for tinkering with real objects and tools to make and remake things. Tinkering is an important target for research and educational practice for at least two reasons: (1) tinkering experiences are frequently social, involving children interacting with educators and family members who can support STEM-relevant tinkering in various ways and (2) tinkering is more open-ended than many other kinds of building experiences (e.g., puzzles, making a model airplane), because it is the participants' own unique questions and objectives that guide the activity. Thus, tinkering provides a highly accessible point of entry into early STEM learning for children and families who do not all share the same backgrounds, circumstances, interests, and expertise. This Research-in-Service to Practice 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. The project will take place in the Tinkering Lab exhibit at Chicago Children's Museum. The research will investigate how reflective interactions between parents and children (ages 6-8) during tinkering activities ultimately impact child engagement in STEM. Design-based research (DBR) is well-suited to the iterative and contextually-rich process of tinkering. Using a DBR approach, researchers and museum facilitators will be trained to prompt variations of simple reflection strategies at different time points between family members as a way to strengthen children's engagement with, and memory of these shared tinkering events. Through progressive refinement, each cycle of testing will lead to new hypotheses that can be tested in the subsequent round of observations. The operationalization of study constructs and their measurement will come organically from families' activities in the Tinkering Lab and will be developed in consultation with members of the advisory board. Data collection strategies will include observation and interviews; a series of coding schemes will be used to make sense of the data. The research will result in theoretical and practical understanding of ways to enhance STEM engagement and learning by young children and their families through tinkering. A diverse group of at least 350 children and their families will be involved. The project will provide much needed empirical results on how to promote STEM engagement and learning in informal science education settings. It will yield useful information and resources for informal science learning practitioners, parents, and other educators who look to advance STEM learning opportunities for children. This research is being conducted through a partnership between researchers at Loyola University of Chicago and Northwestern University and museum staff and educators at the Chicago Children's Museum.
Disparities in engineering participation and achievement by women and individuals from traditionally underserved racial and ethnic groups have been persistent. Approaches outside the context of university and school reform, including approaches to supporting interest development in early childhood, have not been fully considered by educators and policymakers. This AISL Pathways project will focus on engineering, which has emerged as a critical topic in the STEM education field and a prominent aspect of educational standards and policies. Building on a strong empirical and theoretical base, it will lay the foundation for future research efforts to advance the field's limited understanding of early childhood engineering-related interest development, especially through parent-child interactions; create research tools for studying engineering-related interest in young children; and identify effective strategies for supporting long-term engineering interest pathways. "Head Start on Engineering" 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. Through an asset-based approach and authentic engagement with families and community organizations, Head Start on Engineering will pilot research and program activities that are sensitive to the constraints of low-income families and build on the resources and funds of knowledge within these communities. It will test and refine an innovative, theoretical model of early childhood interest development. The overall design of the pilot study will be mixed-method and short-term longitudinal, with data collected before, during, and after program implementation from participating families. Quantitative measures will allow for consistent comparisons across groups and within families, while qualitative data will help explore complex factors and processes hypothesized in the theoretical framework and related to program implementation. This work will allow the team time to address unanswered questions and issues around how to feasibly operationalize key aspects of the revised theoretical model in preparation for more extensive, longitudinal and experimental investigations as part of the next phase of the project. Understanding and honoring parents' beliefs, knowledge, and experiences is central to this project. In developing and implementing both the programs and research activities, the team will adopt culturally responsive and asset-based perspectives. The Pathways project is a collaboration between the Institute for Learning Innovation (ILI), a nonprofit organization dedicated to the advancement of lifelong, free-choice learning for all communities through research, practice, and policy initiatives; Mt. Hood Community College Head Start program; the Oregon Museum of Science and Industry (OMSI), a nationally renowned science museum; and the Center for STEM Education at the University of Notre Dame. The project involves families with four-year-old children who attend the Head Start program. The collaboration between educators, community organizations, and researchers and the integrated approach to research and program development will ensure that study findings translate to practical and effective education strategies and that future research efforts are well-grounded in the realities of practitioners and learners.
The fifth annual Invent It. Build It. event, sponsored by the Society of Women Engineers (SWE), Girl Scouts of the USA, WGBH’s Design Squad Global, the ExxonMobil Foundation, and Techbridge was held at the SWE annual conference in Los Angeles, CA. Participants included a record-breaking 619 middle school girls, plus 300 of their parents/guardians and middle school educators. More than 200 SWE members volunteered at the event to facilitate the activities, act as role models, and work closely with the middle school girls throughout the day. Thirty-two exhibitors provided information about camps
The Great Lakes Science Center, in collaboration with Case Western Reserve University (CASE), proposes to develop a permanent exhibition and related programs on biomedical engineering. The successful implementation of this project would allow CASE and GLSC to inform a broad constituency about select biomedical research advancements, applied technologies, and their relevance to society. When the project is completed, we will be able to expose many thousands of visitors each year to the updated exhibition - increasing their interest in and understanding of important science concepts underlying advancements in biomedical technology. The exhibition would encompass approximately 2000 square feet and feature approximately 20 exhibits, most of which would be interactive. The major audiences for the exhibition include families, school groups, and general museum visitors. The BioMedTech exhibition is located on the Science Center's main floor, which places an emphasis on the science and technology of particular importance to Northeast Ohio. The exhibition will be accompanied by educational programming, public programs, and wide dissemination around the region and within the Science Center world. When fully implemented, the project could reach many hundreds of thousands of visitors and garner national attention through dissemination efforts. Visitors to the exhibition and participants in related programs will come to a better understanding of the connections between biology and technology while learning of science and engineering's role in improving the quality of life in our society.
The Massachusetts Linking Experiences and Pathways Follow-on (M-LEAP2) is a three-year longitudinal empirical research study that is examining prospectively how early formal and informal STEM education experiences are related to gender-based differences in STEM achievement-related choices in middle and high school. M-LEAP2 serves as a complement to - and extension of - a prior NSF-funded study, M-LEAP, which was a largely quantitative research study that followed overlapping cohorts of 3rd - 6th grade female and male students for three years. M-LEAP surveyed over 1,600 students, 627 student-parent pairs, and 134 second parents in 8 diverse public schools across Massachusetts. In contrast, M-LEAP2 is a heavily qualitative three-year study using in-depth interviews with a diverse range of 72 of these students and their families to study how formal and informal science experiences shape the students' science-related beliefs, interests, and aspirations as they progress though middle and high school.
This pilot study was funded by the Museum of Science’s Women in Science Committee to examine the impact of competition on children participating in Design Challenges engineering experiences, and in particular, to see what effect, if any, the competitive design of these engineering activities had on girl participants. The research questions for this study included: 1. How does competition affect participants' engagement in engineering activities? 1.a Does this differ for boys and girls? 2. How does competition affect participants' desire to take part in future engineering activities? 2.a. Does
The Exploratorium's Going APE project (APE=Active Prolonged Engagement) developed 30 exhibit designs to encourage visitors to become more cognitively engaged with exhibits--to use exhibits as tools for self-directed exploration, rather than as authoritative demonstrations. To do this, the staff drew on work in the fields of education, visitor research, human factors engineering, computer interface design, and interactive exhibit development at other museums. The project also integrated evaluative research into exhibit development to maximize possibilities for visitor-authored questions
Innovation spaces are springing up around the world. This phenomenon is driven by emerging technologies in additive manufacturing, by new thinking about learning, by a desire to grow the Michigan economy through the democratization of innovation and entrepreneurship and the need to provide authentic experiences to engage and retain students in STEM (Science, Technology, Engineering and Math) disciplines and careers. We are presently engaged in the project planning phase of the Innovation 5 concept. Innovation 5 will be a community-based rapid prototyping/additive manufacturing facility that will be housed within and will be integral to the Impression 5 Science Center in downtown Lansing, MI. This space is envisioned to house resources such as rapid prototyping and additive manufacturing equipment, meeting spaces and networking facilities for collaboration, This space will also serve as a core element of the informal learning experience for visitors to the Impression 5 Science Center. Impression 5 is currently planning a dramatic renovation and expansion which provides a window of opportunity for development of this new concept. Innovation 5 is planned to function at the intersection of three major trends in education and economic development; additive manufacturing and rapid prototyping, authentic STEM experiences for students and community based innovation and entrepreneurial support.. Additive Manufacturing/Rapid Prototyping: Additive manufacturing and rapid prototyping are poised to be the next great digital revolution, where the barrier between digital concept and physical object ceases to exist. "Machines that turn binary digits into physical objects are pioneering a whole new way of making things" one that could rewrite the rules of manufacturing in much the same way that the PC laid waste to traditional computing (The Economist Technology Quarterly Dec 1, 2012) This technological revolution is becoming a central feature of a new set of institutions that make these facilities available to entrepreneurs as shared community resources. Global networks are already forming as non-profits such as FabLabs and MakerSpaces, commercial entities like TechShop and at the Federal government level, such as the recently announced National Additive Manufacturing Innovation Institute. Authentic STEM Experiences for Students: There is increasing recognition that student learning can be dramatically enhanced by enabling students to engage in inquiry-driven work that connects their learning to the real world and that involves collaboration and communication. For example, the National Science Foundation is devoting significant resources to promote the concept of learning through innovation through such programs as the I-Corps. The informal science education community has moved strongly towards becoming a center for STEM learning in conjunction with more traditional learning environments. The National Science Foundation recently changed the name of its Informal Science Education (ISE) division to Advancing Informal STEM Learning (AISL). The Impression 5 Science Center is also actively pursuing the link between informal education and innovation through its new exhibit, the Build Zone where children are encouraged to create and test new structures in a wide variety of physical formats. Community-based Entrepreneurial Support: The Maker/FabLab culture emphasizes the democratization of these new technologies. We feel that this can be a key contribution of Innovation 5 to the City of Lansing community. The population of the City of Lansing is diverse with a high proportion of members of underrepresented groups. In addition, Lansing is undersupported compared to neighboring communities in terms of access to technology and related educational resources. By becoming the local "on ramp to innovation," Innovation 5 can provide low-cost, easy-entry access to these new technologies for community members, whether as microentrepreneurs or just to access these technologies for personal interest. The goal of the Innovation 5 proposal is to meld these threads into a new type of institution. We view the Innovation 5 space as a graded environment for STEM learning through innovation. The facility is envisaged to have a "front end" that serves as an inviting informal education setting where children and families can learn about and participate in the process of innovation and where they can actually see and interact with, in a controlled fashion, the rapid prototyping facility. The "back end" of the facility will have multiple spaces with various levels of controlled access. There will be a collaboration space with visual global networking capability and access to design tools that will be relatively open. Beyond that area would be a space with rapid prototyping tools that require training and supervision for access and operation. One step beyond this might be small spaces for entrepreneurs to pursue more advanced projects. Students will participate integrally in all aspects of Innovation 5's functioning, from interacting with children in an informal setting to serving as team members in developing products from concept to market. Students will also provide the core of the group managing the facility, with substantial input into the direction Innovation 5 will take. Consistent with this vision, 6 student interns are diligently working this summer as a project planning team. They are focusing on various aspects of the facility, from design and equipment needs to marketing and social media. We anticipate completing the project planning phase this summer, to be followed by focused fundraising efforts to install and maintain Innovation 5. Impression 5 Science Center is strongly supportive of this project and has generously offered to provide ample space within their current building envelope for Innovation 5. With this support as well as financial support already received from Lansing area community, education and economic development groups, we are confident that we are well on our way to creating Innovation 5, the first facility of its kind in the United States, and one that has great potential to be replicated nationally.