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.
This study, completed by Serrell and Associates in June of 2012, was the first phase in an overall visitor research program at the Natural History Museum of Utah completed. NHMU opened its new facility in November 2011, a spectacular integration of a LEED- certified building anchoring the museum’s significant collections and research programs, and a series of exhibitions designed to illuminate the natural world through the lens of Utah’s human and natural history. The Museum has a total of 51,270 square feet of public interpretive space. With the purpose of setting “clear eyes to the future,”
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TEAM MEMBERS:
Natural History Museum of UtahBecky MenloveBarbara Becker
This tracking and timing study was carried out by Serrell and Associates in April of 2013 as a second phase of the Museum's visitor research program for its new facility and exhibition experiences (see Whole-Museum Stay-Time Study of April 2012 for the first phase of this work). The Natural History Museum of Utah (NHMU) at the Rio Tinto Center opened in November 2011, with a total of 51,270 square feet of public interpretive space. In 2012, NHMU began a multiphase evaluation process to help staff members understand the experiences that visitors have during their visits to the new building. The
The third and final study, completed by Serrell and Associates in April 2014 in a program of visitor research at the Natural History Museum of Utah. The Natural History Museum of Utah (NHMU) opened in November 2011, with a total of 51,270 square feet of public interpretive space. In 2012, NHMU began a multiphase evaluation process to help museum staff understand the experiences visitors have during their visits to the new building. The overall purpose of the research is to assess the degree to which the museum is meeting visitor needs and is having the desired impacts, so that future decisions
An evaluation of the Natural History Museum of Utah'(NHMU) "Trailhead to Utah" digital guide carried out by Frankly Green & Webb in March of 2014. The "Trailhead" is a digital ecosystem at the Natural History Museum of Utah consisting of touchscreen kiosks, a mobile guide, and a web portal for post-visit exploration. Since launching, the Trailhead to Utah system has suffered from low usage. NHMU wanted to understand why the service (in particular its mobile/smartphone element) was underused, and how it could be changed to offer a better visitor experience. In scoping the project, one key
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TEAM MEMBERS:
Natural History Museum of UtahBecky MenloveLindsey GreenPaul Tourle
Funded by the National Science Foundation, The Handheld Science and Math Dictionaries for Deaf and Hard of Hearing Museum Visitors Research Project (DRL-1008546; Signing Science) is a collaboration between the Museum of Science (MOS) and TERC, which studies how visitors who are d/Deaf or hard of hearing (DHH) integrate iPod Touch versions of the Signing Science Pictionary, Signing Science Dictionary, and Signing Math Dictionary into their museum visit. Through this project, TERC has studied the integration of these dictionaries into museum visits of both school groups and family groups. To
Educators, docents, and interpreters are considered integral to the learning experiences at many museums. Although there is growing recognition that these staff members need professional development to effectively support visitor learning, there has been little research to describe their work or identify effective facilitation strategies. To address this need, we explored the nature of unstructured staff-facilitated family learning at the Oregon Museum of Science and Industry in Portland, OR, videotaping and inductively analyzing 65 unstructured staff-family interactions. The analysis
There is growing evidence that children develop science-related interests in early childhood, before they enter school, and that these interests may have long-term implications for science participation and achievement. Although researchers have made headway in describing interest development in the preschool years, little is currently known about the proximal processes influencing early childhood interests and how these relate to other more distal factors, such as parent beliefs and attitudes. To address this gap, I conducted a two-phase, mixed-method study, involving an initial cross
Women continue to hold less than a quarter of all STEM jobs in the United States, prompting many museums to develop programs and exhibits with the express goal of interesting young girls in scientific fields. At the same time, a number of recent museum exhibits have harnessed the popularity of pop culture and science fiction in order to interest general audiences in STEM subject matter, as well as using the exhibits as springboards to expand or shift mission goals and focus. Because science fiction appears to be successful at raising interest in STEM fields, it may be an effective way to
Museum professionals' increased focus on visitors in recent years has been demonstrated by, among other things, the enhanced practice of evaluation and the development of interpretive plans. Yet too often, these efforts function independent of one another. This book helps museums integrate visitors' perspectives into intepretive planning by recognizing, defining, and recording desired visitor outcomes throughout the process. The integration of visitor studies in the practice of interpretive planning is also based on the belief that the greater our understanding, tracking, and monitoring of
Complex ideas like evolution—which run counter to common, but mistaken, intuitive knowledge—are challenging, both for exhibit developers and for the evaluation and research teams who assess the impact of exhibitions. It is always difficult to document measurable changes in deep conceptual understanding following a single visit to an exhibition; Is this even possible with complex topics, such as evolution? In this article, we summarize a series of studies that may offer some help to exhibit developers and evaluators, as well as others who design and assess informal learning experiences. The