Funded by the National Science Foundation (NSF),The STEM Pathways project focused on exploring strategies through which at-risk and incarcerated Hispanic youth could be engaged around STEM careers, understand the education, training, and skills they would need to attain them, and think that such a path was a future possibility. To this end, the project and evaluation teams collaborated on a literature review, the development of a logic model, and the design, implementation, and evaluation of a diverse set of program activities that included media, art, and flash mentoring with STEM role models
Indianapolis / City as Living Laboratory (I/CaLL) is a city-wide civic collaboration engaging in cross-sector research that builds on prior research in informal science learning in public settings. It extends research in place-based and service learning traditions, and uses the city itself as an informal science learning (ISL) environment for Science and Engineering for Environmental Sustainability learning outcomes. This project is creating place-based science learning experiences as part of public spaces in Indianapolis and establishes the next generation of urban science museums that increase opportunities for learning. The project will develop a self-sustaining program for art/science collaborations as they inaugurate city-sanctioned changeable installations at I/CaLL sites. Data from the project will be used to inform ISL professionals at museums throughout the community and around the country. Thousands of volunteers and their families will help create I/CaLL spaces, engage with communities, and serve as research participants connecting with science learning through site development. The unprecedented scale of this project provides a full measure of informal science service learning at a city scale, offering data that can change how science learning is measured, how people from all walks of life develop science literacy as part of their social public experience, and embodying the concept of the city as a living science learning lab. Broader impacts include the development of the city as an informal science learning environment that will become a new standard for thinking about what cities as cultural units can become as we build a resilient Science and Engineering culture for Environmental Sustainability.
Our goal is to demonstrate an educational model fully commensurate with the demands of the 21st Century workforce, and more specifically, with the emerging “green-tech” economy. We recognize a pressing need creating more sustainable solutions for the (human) built-environment and of stabilizing economic patterns that uphold sustainable systems. to prepare citizens for the challenges of The ASCEND model is designed to encourage these societal shifts, but at the same time, it is an attempt to put theory into practice - activating educational practices aligned with research on human development and cognition. For some time now strong recommendations for apprenticeship learning have emphasized the function of legitimate peripheral participation – the possibility of which becomes more prevalent in robust communities of practice. As compared to top-down approaches (typical of formal education settings) these "learning communities" are seen as being more closely aligned with our natural propensities for learning and cognition. ASCEND represents a design-experiment -an attempt to learn how we can create and sustain opportunities for apprenticeship learning in an interdisciplinary arena at the leading edge of technical innovation. In addition, the ASCEND model introduces and examines the efficacy of “digital storytelling” as an alternative to more traditional forms of apprenticeship learning and as a means to engage and advance this and future generations in STEM. A further goal is to develop innovative measures of assessment commensurate with this new model of apprenticeship learning. Finally ASCEND explore how informal learning organizations (museums, libraries, preserves etc.) can use digital storytelling to develop community-driven programs inclusive of at-risk youth and other hard to reach audiences.
Techbridge has proposed a broad implementation project that will scale up a tested multi-faceted model that increases girls' interest in STEM careers. The objectives of this project are to increase girls' engineering, technology, and science skills and career interests; build STEM capacity and sustainability across communities; enhance STEM and career exploration for underrepresented girls and their families; and advance research on the scale-up, sustainability, and impact of the model with career exploration. The Techbridge approach is grounded in Eccles' expectancy value model, and helps bridge critical junctures as girls transition from elementary to middle school and middle school to high school, immersing participants in a network of peers and supportive adults. Techbridge targets girls in grades 5-12 with a model that includes five components: a previously tested and evaluated curriculum, career exploration, professional development for staff and teachers, family engagement, and dissemination. The inquiry-based curriculum introduces electrical engineering and computer science through engaging, hands-on units on Cars and Engines, Green Design, and Electrical Engineering. The Techbridge model will be enhanced to include a central repository for curriculum and support materials, electronic girl-driven career exploration resources, an online learning community and video tools for staff, and customized family guides. Project deliverables include the dissemination of the enhanced model to three cities, 24 school sites and teachers, 2,000 girls, and over 600 role models. A supplementary research component will study the broad implementation of the Techbridge model by examining the fidelity of implementation and the program's impact on girls' STEM engagement and learning. The research questions are as follows: (1) To what extent and how do new program sites demonstrate adherence to the Techbridge program model? (2) Do new sites experience similar or increased participant responsiveness to Techbridge programming with regard to scientific learning outcomes, career awareness, attitude and interest in engineering? (3)How are changes experienced by girls sustained over time, if at all? (4) To what extent and how do new sites balance instilling the Techbridge essentials, those critical components Techbridge identifies as essential for success, with the need for local adaptation and ownership of the program? and (5) Given the potential for customization in local communities, do new sites maintain programmatic quality of delivery experienced at the original site? If so, what are elements essential to success regarding quality delivery? The mixed-methods study will include document analysis, embedded assessments, participant survey scales, and observations. Qualitative data methods include interviews with teachers, role models, staff and focus groups with girls. A project evaluation will also be conducted which investigates project outcomes for participants (girls, teachers, role models, and families) and fidelity of the implementation and enhancements at expansion sites, using a quasi-experimental approach. Career and learning outcomes for girls will be determined using embedded assessments, portfolios, surveys, school data, and previously validated instruments such as the Career Interest Questionnaire and the Modified Attitudes towards Science Inventory. The Managing Complex Change model is used as a framework for the project evaluation for the purpose of examining factors related to the effectiveness of scaling. The dissemination of research and evaluation findings will be achieved through the use of publications, blogs, social media, and conferences. It is anticipated that this project will broaden the participation of Hispanic, African-American, and English language learner girls, build capacity for STEM programming and sustainability at the dissemination sites, and disseminate findings to over 1 million educators, researchers, and community members. Broader impacts include contributing to the field's understanding of how virtual role models and field trips can engage young women, increase corporate advocacy, and engage participants in research and dissemination efforts.
The National Federation of the Blind (NFB), with six science centers across the U.S., will develop, implement, and evaluate the National Center for Blind Youth in Science (NCBYS), a three-year full-scale development project to increase informal learning opportunities for blind youth in STEM. Through partnerships and companion research, the NCBYS will lead to greater capacity to engage the blind in informal STEM learning. The NCBYS confronts a critical area of need in STEM education, and a priority for the AISL program: the underrepresentation of people with disabilities in STEM. Educators are often unaware of methods to deliver STEM concepts to blind students, and students do not have the experience with which to advocate for accommodations. Many parents of blind students are ill-equipped to provide support or request accessible STEM adaptations. The NCBYS will expose blind youth to non-visual methods that facilitate their involvement in STEM; introduce science centers to additional non-visual methods that facilitate the involvement of the blind in their exhibits; educate parents as to their students' ability to be independent both inside and outside the STEM classroom; provide preservice teachers of blind students with hands-on experience with blind students in STEM; and conduct research to inform a field that is lacking in published material. The NCBYS will a) conduct six regional, two-day science programs for a total of 180 blind youth, one day taking place at a local science center; b) conduct concurrent onsite parent training sessions; c) incorporate preservice teachers of blind students in hands-on activities; and d) perform separate, week-long, advanced-study residential programs for 60 blind high school juniors and seniors focused on the design process and preparation for post-secondary STEM education. The NCBYS will advance knowledge and understanding in informal settings, particularly as they pertain to the underrepresented disability demographic; but it is also expected that benefits realized from the program will translate to formal arenas. The proposed team represents the varied fields that the project seeks to inform, and holds expertise in blindness education, STEM education, museum education, parent outreach, teacher training, disability research, and project management. The initiative is a unique opportunity for science centers and the disability population to collaborate for mutual benefit, with lasting implications in informal STEM delivery, parent engagement, and teacher training. It is also an innovative approach to inspiring problem-solving skills in blind high school students through the design process. A panel of experts in various STEM fields will inform content development. NCBYS advances the discovery and understanding of STEM learning for blind students by integrating significant research alongside interactive programs. The audience includes students and those responsible for delivering STEM content and educational services to blind students. For students, the program will demonstrate their ability to interface with science center activities. Students will also gain mentoring experience through activities paired with younger blind students. Parents and teachers of blind students, as well as science center personnel, will gain understanding in the experiences of the blind in STEM, and steps to facilitate their complete involvement. Older students will pursue design inquiries into STEM at a more advanced level, processes that would be explored in post-secondary pursuits. By engaging these groups, the NCBYS will build infrastructure in the informal and formal arenas. Society benefits from the inclusion of new scientific minds, resulting in a diverse workforce. The possibility for advanced study and eventual employment for blind students also reduces the possibility that they would be dependent upon society for daily care in the future. The results of the proposed project will be disseminated and published broadly through Web sites; e-mail lists; social media; student-developed e-portfolios of the design program; an audio-described video; and presentations at workshops for STEM educators, teachers of blind students, blind consumer groups, researchers in disability education, and museum personnel.
This paper reports a formative evaluation of an interactive exhibit in the Museum of Science, Boston, that encouraged visitors to create a model using everyday materials. The materials provided for visitors to create their models changed during the period of the evaluation, and visitors were observed and interviewed as they engaged with the various prototypes. Evaluation results show that the type of modeling material presented influenced the visitors' model making process and individual learning and behaviors as well as the interactions visitors had with each other.
Roto, an exhibition design and production firm, contracted Randi Korn & Associates, Inc. (RK&A) to conduct a front-end evaluation of Speed, an exhibition being developed for The Science Museum of Virginia (SMV) in Richmond, Virginia. RK&A explored visitors’ thoughts, perceptions, and understandings of exhibition concepts related to speed, defined as change over time. How did we approach this study? RK&A worked closely with Roto to identify the goals and objectives for the Speed exhibition. Findings from the front-end evaluation were designed to help Roto and SMV find common ground between
The Center for Children and Technology (CCT) at Education Development Center, Inc., a nonprofit international research and development organization (cct.edc.org), conducted the formative evaluation of the second year’s implementation of the Be A Scientist! (BAS) project, which is managed by Iridescent—a nonprofit afterschool STEM program (www.iridescentlearning.org). The goal of the BAS project is to provide high-quality afterschool science and engineering courses to underserved families in New York City and Los Angeles. The program specifically targets second graders and their families
This summative evaluation of the exhibition Robots & Us was designed to investigate how visitor audiences used and experienced this exhibition in relation to the project’s objectives and challenges. Visitors’ expectations and perceptions in relation to the project’s content goals prompted the summative evaluation to focus on specific challenges including: attitudes and perceptions about technology, connections between robots and people, appeal to a broad audience, and reactions to specific exhibits.
DATE:
TEAM MEMBERS:
Jeff HaywardJolene HartScience Museum of Minnesota
The project DIG: Scientists in Alaska's Scenery will perform proof-of-concept on integrating a tourist's visit with place-based stories of meaningful science research in the Arctic. DIG (Digitally Integrated Guide) will widen the general public's interaction with the cultural and natural environment by allowing them to access Web sites and load their handheld mobile devices with engaging descriptions of research. Access can occur before, during, or after their visit - even if the visit takes them far from computers, electricity and the Internet. The creation of user-friendly access to technology and to scientists' stories will provide a new information tool for the public. For these tourists, or others interested in research in Alaska, opportunities to learn directly from the scientists themselves are almost non-existent. Moreover, tourists have no capability to link such research with places they visit. DIG's place-based outreach will be delivered using standard media (broadcast TV, publications) and social media (Web, facebook, twitter, etc.) and mobile devices. DIG demonstration project will join scientists, Alaska Native peoples, tourists, media makers, interpreters and technology experts in inquiry-based learning designed to maximize engagement by the general public. The radically different approach to Arctic-focused science documentary proposed here fosters the close collaboration of the scientist and media maker. Video podcasts (vodcasts) and supporting Web-based materials will be created for three current research projects in Alaska, with a focus on NSF-funded projects. Such projects include anthropology and cultural/linguistic study, paleontology, climate change research, biology, and other areas. Delivery and evaluation will emphasize tourists who visit, or are planning to visit, the National Parks of Alaska. These tourists are accessible to the research team, and they are motivated to seek out information about the places they are visiting. If successful, our approach to science education and outreach will augment their knowledge about research in Alaska, resulting in a deeper and more informed experience.
DATE:
-
TEAM MEMBERS:
Gregory NewbyLiz O'ConnellDeborah Perry
This report describes a summative evaluation of Secrets of Circles, a 2,600 square foot exhibition created by Children's Discovery Museum of San Jose and funded by the National Science Foundation. The exhibition and related programs were designed to highlight the uses of circles and wheels in everyday life. Circles have properties that make them extremely effective as an engineering tool, and they are ubiquitous in cultures around the world. The appendix of this report inclues interview and observation protocols and questionnaires used in this study.
DATE:
TEAM MEMBERS:
Sue AllenChildren's Discovery Museum of San Jose
resourceresearchMuseum and Science Center Exhibits
Presentation on NSF grant DRL-1010844 (""STAR Library Education Network: A Hands-on Learning Program for Libraries and Their Communities"") presented at the CAISE Convening on Organizational Networks, November 17th, 2011.