This project will introduce students ages 8-14, including underserved students; their teachers and families; and the general public to three biomedical research areas inspired by NIH's Roadmap for Medical Research: biological pathways, bioinformatics and nanomedicine. These areas are unfamiliar to many adults and are not introduced in science curricula. Using the metaphor of a hardware store (i.e., building materials, tools, parts, home repair projects), the project will introduce families, students and teachers to three ideas: (1) The body maintains and repairs itself at the molecular, cell, tissue, organ and system levels; (2) Biomedical researchers are uncovering new complexities at the molecular level that can increase our understanding of how the body works; and (3) Developments in nanomedicine can lead to discoveries and treatments. In a hardware store theater and workshop space and in a virtual hardware store, the project will develop and present demonstrations and basic- and intermediate-level labs (for 2nd- and 6th-grade students or families); train museum staff and interns to present the programs; offer orientation workshops to teachers from Title I schools; develop a teacher's guide; conduct outreach in middle schools; engage scientists to talk about their work and help them communicate with the public; and create a manual of materials and activities for other science centers. The evaluation plan will include formative research on activities and assessment of how well repair metaphors facilitate understanding of clinical issues. A team of scientists, museum staff, science teachers, and biology and medical students will guide the development of education components.
This cooperative effort among Purdue University, public schools in Indiana, and The Children's Museum of Indianapolis aims to develop, evaluate and disseminate educational programs for K-12 students, parents, teachers and the public about the science involved in keeping people healthy. Obesity prevention, cancer prevention and asthma will be emphasized. Fitness programs, research programs using animal models, K-12 outreach programs, professional development workshops and recruiting efforts will be networked to fill gaps in health science education, interest schoolchildren in health science research and improve public health. This project will develop and rigorously assess curricular modules for grades three, six and nine. The science behind health advances, the clinical trials process and the role of animals in developing drugs and medical devices will be addressed. In addition, the project will engage schoolchildren in becoming health science researchers by providing them with role models. Researchers will interact with K-12 students during classroom visits, camps and after-school programs. Finally, the project will involve and engage children, parents and the public in educational fitness activities and programs. Dogs will be incorporated into fitness programs as exercise companions. The program includes an interactive traveling exhibit, highlighting the science involved in keeping people healthy.
Adolescents face many conflicting messages and influences related to high-risk behavior. Choices confronting middle school students often have the potential for adverse effects on their overall health and well being. Montshire Museum proposes to develop an educational outreach program to allow students an opportunity to learn about key health issues in a context that is based on high-quality research and offers hands-on inquiry and self-directed investigations. The proposed educational outreach program will serve students in grades 5-8 in rural Vermont and New Hampshire schools. The project team will create four health education modules, each one related to current NIH-supported research by faculty at Dartmouth Medical School (DMS). DMS researchers will collaborate with Montshire Museum's science educators in developing the modules, connecting with students and teachers, and providing support for all aspects of the project. For each module, the project team will support hands-on classroom investigations and independent research using materials, objects and exhibits developed specifically for the program. In addition, professional development institutes for middle school health and science educators will provide science content and instructional strategies needed to successfully implement health science lessons that are aligned with national and state standards for health and science education. The curriculum materials developed for school-based programming also create opportunities for broader public outreach. Montshire's educators will adapt them for special family activities and presentations within the museum setting. The educational curriculum will be designed to provide all participants with information that will assist in making personal health decisions in the subject areas; raise participants' awareness of the ways that culture and media affect their choices; and expose participants to the interesting and relevant research taking place locally, while increasing their understanding of the diversity of health science careers and research processes. A thorough process of formative and summative evaluation will enable the project team to take an iterative approach to curriculum development and to provide the best possible learning experience for participants.
This paper, commissioned as part of a consensus study on successful out-of-school STEM learning from the National Research Council's Board on Science Education, explores evidence-based strategies developed in out-of-school time STEM programs for successfully engaging youth from underrepresented demographics in STEM learning.
Mythbusters: The Explosive Exhibition is a traveling exhibit based on the popular television show. When housed at the Museum of Science and Industry, Chicago, it included a traditional, interactive free flow exhibition space followed by a live facilitated show. This paper describes results from an experimental study about the effects of the Live Show on the learning of and attitudes towards science. A pre-test was given to 333 children entering the exhibit. A post-test was given to 80 children after they walked through the free-flow portion of the exhibit and to 191 children after they watched
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Museum of Science and IndustryAaron Price
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 World Biotech Tour (WBT) is a multi-year initiative that will bring biotechnology to life at select science centers and museums worldwide. The program, supported by the Association of Science-Technology Centers (ASTC) and Biogen Foundation, is scheduled to run from 2015-2017, with the 2015 cohort in Belgium, Japan, and Portugal. The WBT will increase the impact and visibility of biotechnology among youth and the general public through hands-on and discussion-led learning opportunities. Applications are now open for the 2016 cohort! Learn more and submit an application at http://www.worldbiotechtour.org/become-a-stop
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Association of Science-Technology CentersCarlin Hsueh
This book offers museum learning researchers and practitioners--educators, explainers, and exhibit developers--a new approach for fostering group inquiry at interactive science exhibits. The Juicy Question game, developed at the Exploratorium in San Francisco, engages group members in a simple process of inquiry that helps them work together interrogate exhibit phenomena more deeply. and widens their both families and student field trip groups. The approach is easy to implement and yields clear results. The results are summarized in a set of practice principles that can be used by other
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.
Educators from K-12 and higher education are collaborating on a new school of the future projects involving humanoid robots and other forms of robots and student and teacher productivity tools. We are working in the areas of STEAM Plus. (science, technology, engineering, visual and performing arts, mathematics, computer languages and foreign languages) All team members will share their action research results through a traveling exhibition to all twelve public libraries in the city of Long Beach, California. Kids Talk Radio through its Backpack Science, Journalism, and Backpack Robotics programs will create video and audio podcasts of the action research and share findings over the Internet with schools, libraries and museums around the world.
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Super School SoftwareBob BarbozaWalter Martinez
This article describes the Collectors' Corner Neighborhood Trading Places (CCNTP) program. CCNTP is a collaboration between the Science Museum of Minnesota, the R.H. Stanford Library branch of the Washington County Library, and the Highland Park Library branch of the Saint Paul Public Library. The CCNTP program invites children and visitors of all ages to bring natural objects to the location and share their knowledge about them, earning points which allow them to trade for other items.
The maker movement is fundamentally changing the way educators and educational researchers envision teaching and learning. This movement contends making — an active process of building, designing, and innovating with tools and materials to produce shareable artifacts — is a naturally rich and authentic learning trajectory (Martinez & Stager, 2013). Makerspaces are places where making happens in community. I craft my dissertation to explore these two defining characteristics of makerspaces through a comparative case study (Stake, 1995) and a design experiment (Brown, 1992). In the comparative