John Carroll University, Cleveland's International Women's Air and Space Museum and Cleveland Public Schools are partnering in a three-year project to provide a cross-age, collaborative exhibit development experience to increase young peoples' science understanding and interest in science and teaching careers. The program exposes 120+ high school and undergraduate women to the skills of educational program planning and implementation. Content includes science, technology, engineering and math related to flight, and the history and role of women in flight related careers. The project proposes a highly supportive learning environment with museum, science and education experts working alongside students at secondary and undergraduate levels to design exhibits that will meet the interest and needs of the museum, and the young children and families from Cleveland schools who visit. Through qualitative and quantitative methods, the evaluation will measure change in participant career interests, content understanding and perception of science, technology, engineering and math subjects, and skill development in presenting these concepts to public audience members. Public and professional audience experiences will also be evaluated. More than nine hundred local elementary school age children, their families and 15,000 general public audience members will participate in student-designed, museum-based exhibits and programs. Deliverables include a model for university/museum partnerships in providing exhibit development and science learning experiences, three team-developed permanent exhibits about flight and women in science, a set of biographies about women and flight in DVD format and three annual museum based community events. The model program will be informed by national advisors from museum/university partners across the United States who will attend workshops in connection with the projects public presentations in years one and two. These meetings will both provide opportunities to reflect on the program progress and to develop new strategies in the evolution of the program design. Workshop participants will develop plans to implement similar programs in their home locations, impacting another layer of public audiences. The transferability of the model to these new sites will be measured in year three of the proposal. An additional 25,000 participants are expected to be impacted in the five years following the grant period. Beyond the implementation sites, the model's impact will be disseminated by the PI and participants in the program through peer reviewed journals and presentations at national conferences.
This report provides an overview of the findings from the formative evaluation of the RISE Public Communication Internship conducted at the Museum of Science in January from January 20-23, 2009. The internship was created as a result of a partnership between the Strategic Projects Department at the Museum of Science and the NSF Nanoscale Science and Engineering Center headquartered at Harvard University, and was supported by a sub-award from the Center, to the Museum of Science. The program was overseen by MOS PI Carol Lynn Alpert. The goals for the internship as provided by the intern
First Light is a one-hour documentary to be shown nationally on WGBH-TV's NOVA science series. It tells the extraordinary story behind the building of the Hale Telescope on Palomar Mountain in southern California. The film also documents a research effort at the frontiers of astronomy that has pushed the Hale beyond anything its builders had imagined: The attempt to find and map the edge of the known universe. It follows astronomers Maarten Schmidt, James Gunn and Don Schneider as they search for distant quasars. This team recently detected a quasar that is by far the most distant object yet found in the universe; its discovery may challenge our current understanding of cosmic evolution. The documentary is based on the award winning book First Light: The Search for the Edge of the Universe by Richard Preston. After broadcast, the program will have wide educational distribution in secondary schools and colleges.
The Anchorage Museum of History and Art, working with the Calista Elders Council, will develop a 5,000 sq ft traveling exhibition presenting 19th-century Yup'ik Eskimo technologies, their contemporary applications, and the underlying scientific processes. Featuring Yup'ik artifacts, it will integrate indigenous knowledge into the teaching of basic science principles as well as demonstrate the role played by science in everyday life. The exhibition will be organized around seasonal activities practiced in the past and retaining modern relevance. The Oregon Museum of Science and Industry (OMSI) will develop the comparative exhibits on modern science and technology, and the Imaginarium will develop complementary educational programming. Primary audiences will include rural Alaska Natives, both youth and elders, non-Native Alaska residents and visitors, as well as venues outside Alaska. By demonstrating how indigenous knowledge can be related to modern science, this exhibition provides a model for the informal science education field on how to incorporate cultural aspects of their own communities into museum exhibitions and programs. In addition, it demonstrates how artifacts and hands-on science activities can be combined effectively to create engaging educational experiences.
The Field Museum of Natural History in Chicago, with partial support from NSF, will develop science, mathematics, and technology components for a new, permanent 17,000 square foot exhibition on the Pacific. Broad in scope and dramatic in its impact, this exhibition will cut across many fields and disciplines in presenting a coherent, integrated view of the Pacific regions. Topics from anthropology, geology, biology and geography will be combined using collections, reconstructed objects, large scale models, and interactive components in this landmark exhibition. The project will make extensive use of leading researchers, educators, and an evaluation consultant, and will utilize a variety of prototyping and formative exhibit development techniques. The science, mathematics and technology portion will cost $ 1.9 million, of which approximately one third is requested from NSF. The complete 17,000 square foot exhibition will cost $ 3.3 million and will be seen by at least 10 million adults and children over its 20 year life.
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds innovative resources for use in a variety of settings. This education project is a time sensitive opportunity related to the March 9, 2016 Total Solar Eclipse occurring in a remote part of the world located in Waleia in the Federated States of Micronesia, a U.S. affiliated Pacific Island nation. The path of totality is only 100 miles wide and passes through only a few Pacific Island nations ending in Hawaii. This project uses this unique phenomenon to educate a large US and international audience about solar science using multi-platforms with integrated video, social media, and public programs. Project deliverables include the production of a broadcast of the eclipse live from Waleia in the Federated States of Micronesia on March 9, 2016 making it accessible to hundreds of countries and millions of people around the world via satellite and live streaming on the Internet. Additional deliverables include on-site educational programs at science centers and planetariums as well as media resources for long-term use. These resources will enhance the interest and preparedness for additional public engagement when the 2017 eclipse occurs in the U.S. Making new research understandable and accessible to the public is an important activity of the U.S. research enterprise. NSF is making a substantial investment in solar physics research by funding the construction of the world's largest solar telescope, the Daniel K. Inouye Solar Telescope which is slated to begin operations in late 2019 and operated by the National Solar Observatory. This new facility will revolutionize researchers' capability to study the Sun and its magnetic fields. This education project leverages that investment with a major public engagement opportunity that has the potential for reaching millions of students, teachers, and the public both in the U.S. and worldwide through the Internet.
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TEAM MEMBERS:
ExploratoriumRobert SemperNicole MinorRobyn Higdon
The overall objective of this planning project was to examine the potential effectiveness of the Signing Science Pictionary (SSP) in increasing the ability of parents and their deaf and hard of hearing children to engage in informal science learning. To achieve this objective, research and development included four goals. 1) Design several SSP-based activities to help family members engage in informal science learning. 2) Examine the potential effectiveness of the SSP in increasing family member’s signed science vocabulary. 3) Find out about the potential effectiveness of the SSP in
With this 3-year project, TERC and the Museum of Science (MoS) Boston are studying how family and school visitors integrate iPod Touch versions of the Signing Science Pictionary (SSP), Signing Science Dictionary (SSD), and Signing Math Dictionary (SMD) into their museum experience and the impact of dictionary use. This report focuses on family visitors. Each dictionary includes more than 700 standards-based science or mathematics terms. The SSP (funded in part by grants from the Shapiro Family Foundation and the U. S. Department of Education, Grant #H327A080040) is intended for children ages 5
Interactive surfaces are increasingly common in museums and other informal learning environments where they are seen as a medium for promoting social engagement. However, despite their increasing prevalence, we know very little about factors that contribute to collaboration and learning around interactive surfaces. In this paper we present analyses of visitor engagement around several multi-touch tabletop science exhibits. Observations of 629 visitors were collected through two widely used techniques: video study and shadowing. We make four contributions: 1) we present an algorithm for
This project engages members of racially and economically diverse communities in identifying and carrying out environmental projects that are meaningful to their lives, and adapts technology known as NatureNet to assist them. NatureNet, which encompasses a cell phone app, a multi-user, touch-based tabletop display and a web-based community, was developed with prior NSF support. Core participants involved in programs of the Anacostia Watershed Society in Washington, D.C., and Maryland, and the Reedy Creek Nature Preserve in Charlotte, NC, will work with naturalists, educators, and technology specialists to ask scientific questions and form hypotheses related to urban waterway restoration and preservation of native species. They will then collect and analyze data using NatureNet, requesting changes to the technology to customize it as needed for their projects. Casual visitors to the nature centers will be able to interact with the environmental projects via the tabletop, and those who live farther away will be able to participate more peripherally via the online community. The research project, led by researchers from the University of Maryland, College Park, with collaborators from the University of North Carolina, Charlotte, and the University of Colorado, Boulder, will provide answers to two questions: 1) How do community-driven informal environmental learning projects impact participants, including their motivation to actively participate in science issues via technology and their disposition toward nature preserves and scientific inquiry? and 2) What are the key factors (e.g., demographic composition of participants, geographical location) that influence the development of community-driven environmental projects? Researchers will gather extensive qualitative and quantitative data to understand how community projects are selected and carried out, how participants approach technology use and adaptation, and how informal learning and engagement on STEM-related issues can be fostered over a period of several months and through iterative project cycles. Data will be collected through motivation questionnaires; focus groups; interviews; tabletop, mobile, and website interaction logs; field notes from participatory design and reflection sessions; and project journals kept by nature preserve staff. Through extensive research, iterative design, and evaluation efforts, researchers will develop an innovative model for community-driven environmental projects that will deepen informal science education by demonstrating how members of diverse communities connect environmental knowledge and scientific inquiry skills to the practices, values, and goals of their communities, and how technology can be used to facilitate such connections.
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TEAM MEMBERS:
Tom YehMary Lou MaherJennifer PreeceTamara CleggCarol Boston
Informal Learning Solutions and its subcontractor, Audience Viewpoints Consulting, conducted summative evaluation in 2013 of the Life Beyond Earth Exhibit. Audience Viewpoints was responsible for evaluating student response to the exhibit, with a target audience of students in 4th through 6th grades. Informal Learning Solutions conducted evaluation of weekend, primarily adult visitors response to the exhibit. The key evaluation questions were designed to find out if student visitors show gains in understanding regarding: • How extreme life on Earth is relevant for the search for life in our