What is the anatomy of an “aha” moment? How and why did we evolve to have such experiences? Can we prime ourselves to have them more often? Why should we care? These and similar questions were the recent focus of a cross-cutting investigation by the National Endowment for the Arts (NEA) in partnership with the Santa Fe Institute (SFI). On July 9-10, 2014, the NEA and SFI cosponsored a meeting titled “The Nature of Creativity in the Brain.” Held at SFI in Santa Fe, New Mexico, the meeting engaged a 15-member working group to perform two tasks: (a) evaluate the legacy of creativity research; and
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Art WorksNational Endowment for the Arts
With NCRR SEPA Phase I funding, the Exploratorium developed a microscope imaging station (MIS) for public use in the museum. At this facility, visitors explore living things using research-grade equipment. For visitors, microscopes and images are engagement points for learning more about basic biology, biomedical research, and human health. With SEPA Phase II funding, the Exploratorium proposes to use the infrastructure and educational approach developed in Phase I to: (1) Create a wider, more comprehensive array of biomedically relevant, image-based materials-including still and time-lapse images, movies, and teaching activities; and (2) Disseminate these to students, teachers, museum visitors, the broader public, and other science centers. The Exploratorium will collaborate with biomedical researchers to generate high-resolution images and plan public programs. Material from these collaborations will be on current biomedical topics. Planned dissemination activities include eight "Meet the Scientist and Learn about Their Research" public programs; Saturday teacher workshops; development of multimedia exhibit content for museum display; development of web content for the MIS site; creation of image-based teacher activities; inclusion of images, movies, and activities in established web-based teacher resources (as well as new resources for high-bandwidth Internet2 application). Materials will be free to other educational institutions. Using these dissemination strategies, the Exploratorium expects to attract and engage well over 1 million visitors annually.
Working in collaboration with biomedical researchers from universities in the San Francisco area, across the nation, and abroad, the Exploratorium proposes to develop a high-quality microscopic imaging station for use by museum visitors, students, teachers and Internet visitors. This facility will utilize the highest quality optics and state-of-the-art microscopic techniques including biological staining and sophisticated digital recording. A variety of living specimens fundamental to basic biology, human development, the human genome and health-related research will be displayed. The station will be the lively center of the life sciences' area at the Exploratorium, providing educational content, dramatic imagery and regular demonstrations to reach an audience which ranges from the mildly curious to research scientists. In addition, the Exploratorium will be the first public institution, outside of a few research laboratories, to present live microscopic specimens via video and the Internet in real time. (To date, remote microscopes have generally presented inanimate objects or fixed tissue.) In order to increase student accessibility, subject matter for the imaging station will be integrated into the ongoing middle and high school teacher professional development at the museum. Teachers will be able to use the imaging station to conduct their own experiments, develop classroom explorations, take away images, access the website in their classrooms, or share materials with other teachers.
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.
Summative evaluation plays a critical role in documenting the impacts of informal science education (ISE), potentially contributing to the ISE knowledge base and informing ongoing improvements in practice and decision-making. In response to the growing demand for capacity-building in ISE evaluation, this paper presents a framework for summative evaluation based on an extensive review of literature and research-based refinements. The framework synthesizes key elements of high-quality summative evaluation into three dimensions: (a) Intervention Rationale, (b) Methodological Rigor and
This is a handout from the Science Learning Plus (SL+) Forum held on InformalScience.org from July 6-17, 2015. It lists and describes resources about research and practice collaborations.
In this chapter, we describe a project that addressed the unique professional development needs of docents. The vignette that opened the chapter took place about a year into a NASA-funded school trip project at the museum, at a point when the leadership on this project had undergone a complete turnover, and new leaders were attempting to understand what was happening with the project and what was necessary to move it forward and ensure its success. Elsewhere, we describe the nature of docent change in more detail (Allen & Crowley, 2014). Here, we expand upon the processes our project followed
The EndNote library includes citations for all 520 reports that were coded as part of the Building Informal Science Education (BISE) project. PDF copies of each report are included with the citations. This is a file downloaded from EndNote that can be imported into Mendeley citation management software. Disclaimer: Citations may need to be cleaned once imported into Mendeley, as it may not be a clean transfer from EndNote.
The EndNote library includes citations for all 520 reports that were coded as part of the Building Informal Science Education (BISE) project. PDF copies of each report are included with the citations.
This zip file includes the 520 reports that were downloaded from informalscience.org and coded as part of the Building Informal Science Education (BISE) project. Each of the reports is referred to by a project ID number that is used across all of the BISE resources.
This document provides examples of questions you can answer in NVivo by running matrix queries, running coding queries, and creating sets. It was created to help users navigate the NVivo Database as part of the Building Informal Science Education (BISE) project.