Developing the ability to read and critically assess science-themed media reports is of great importance, given the media’s pervasive and powerful influence on people’s beliefs and behaviours. This study examines a technique designed to develop high school students’ critical reading abilities. Findings suggest a progression from blind belief toward the ability to draw conclusions based on scientific information.
Even in the best-resourced science communication institutions, poor quality evaluation methods are routinely employed. This leads to questionable data, specious conclusions and stunted growth in the quality and effectiveness of science communication practice. Good impact evaluation requires upstream planning, clear objectives from practitioners, relevant research skills and a commitment to improving practice based on evaluation evidence.
The Smithsonian’s National Museum of Natural History (NMNH) contracted Randi Korn & Associates, Inc. (RK&A) to conduct a multi-method summative evaluation of Q?rius, an interactive and experimental learning space that brings the unique assets of NMNH—the science, researchers, and collections—out from behind the scenes. Q?rius is designed as a flexible space for walk-in visitors visiting exhibitions at the Museum as well as a program space. Given the breadth of experiences available in the space, the scope of the evaluation specifically targeted walk-in youth and adult visitors to Q?rius.
The Bronx Museum of the Arts will hire an evaluator to asses and facilitate the growth of its three signature programs–Bronx Stories, Back in the Bronx and Bronx Lab–to ensure that they continue to celebrate, affirm, and advance the vibrancy of the borough and its multigenerational voices. The museum will assess training, seek community input, and apply new knowledge gained through program redesign and implementation. It will enhance outreach and communication, and analyze and share outcomes. Using an advisory group of community stakeholders, the museum will amplify its services by drawing increased audiences, expanding its role as a cultural gateway, and highlighting the Bronx as a dynamic community.
These resources are designed to identify opportunities to improve training for educators and researchers during implementation of the Living Laboratory model. The Data Collection Guidelines provide general instructions and tips for conducting evaluation through observations of (and/or interviews with) visitors. Two versions of each instrument (Researcher-Caregiver Conversations Instrument and Research Toy Interactions Instrument) are included: one can be modified and printed for data collection; the second is an annotated version, which includes more detailed instructions for each item in the
Creating Museum Media for Everyone is an NSF-funded collaborative project of the Museum of Science, the WGBH National Center for Accessible Media, Ideum, and Audience Viewpoints, to further the science museum field's understanding of ways to research, develop, and evaluate digital interactives that are inclusive of all people. As a part of this effort to enable museums to integrate more accessible media into their exhibits to make them more welcoming and educational for visitors with disabilities as well as general audiences, this paper provides an overview of approaches to media accessibility
The Center for Advancement of Informal Science Education (CAISE), a cooperative agreement with the National Science Foundation Advancing Informal STEM Learning (AISL) program, is a partnership of the Association of Science-Technology Centers with faculty and professionals from the University of Pittsburgh Center for Learning in Out-of-School Environments (UPCLOSE), Oregon State University (OSU), the Great Lakes Science Center, KQED Public Media, advisors and other collaborators. CAISE works to support and resource ongoing improvement of, and NSF investments in, the national infrastructure for informal Science Technology Engineering and Mathematics (STEM) education. CAISE's roles are to build capacity and support continued professionalization for the field by fostering a community that bridges the many varied forms in which informal STEM learning experiences are developed and delivered for learners of all ages. To that end, CAISE activities also include: creating field-driven evidence databases about the impacts of informal STEM education; facilitating federated searches of those databases; furthering dialogue and knowledge transfer between learning research and practice; working to enhance the quality and diversity of evaluation knowledge and processes; and helping STEM researchers improve their efforts in informal STEM education, outreach and communication. For Principal Investigators (PIs) and potential PIs, CAISE provides resources that can assist in the development of evidence-based proposals. It also facilitates and strengthens networks through PI meetings, communications, and other methods that encourage sharing of deliverables, practices, outcomes and findings across projects. For the AISL Program at NSF, CAISE is assisting program officers in understanding the portfolio of awards, identifying the portfolio's impacts in key areas, and integrating the program's investments in education infrastructure.
This pathways project will study how audiences in public spaces, in this case those in a museum setting, relate to and make sense of large data displays. The project is preliminary to development of a traveling, hands-on exhibition enabling users to create and utilize representations of big data displays such as maps and charts. As the test case, the project will use science maps that provide an overview of science generally and specific areas of STEM, charting and exploring the history and future of science and technology. The data collection portion of the project will take place at the New York Hall of Science, the Marian Koshland Science Museum, COSI in Columbus, Ohio, and WonderLab Museum in Bloomington, Indiana. The project will create a foundation for the design of museum exhibits and educational programs that teach museum visitors how to explore, engage and make better sense of big data. The project is potentially transformative because big data is becoming ubiquitous and making sense out of large data displays is necessary in order to understand big data sets.
The National Writing Project (NWP) is collaborating with the Association of Science-Technology Centers (ASTC) on a four-year, full-scale development project that is designed to integrate science and literacy. Partnerships will be formed between NWP sites and ASTC member science centers and museums to develop, test, and refine innovative programs for educators and youth, resulting in the creation of a unique learning network. The project highlights the critical need for the integration of science and literacy and builds on recommendations in the Common Core State Standards and the National Research Council's publication, "A Framework for K-12 Science Education: Practices, Crosscutting Concepts, and Core Ideas." The content focus includes current topics in science and technology such as environmental science, sustainability, synthetic biology, geoengineering, and other subjects which align with science center research and exhibits. The project design is supported by a framework that incorporates a constructivist/inquiry-based approach that capitalizes on the synergy between rigorous science learning and robust literacy practices. Project deliverables include a set of 10 local partnership sites, professional development for network members, a project website, and an evaluation report highlighting lessons learned. Partnership sites will be selected based on interest, proximity, history, and expertise. Two geographically and demographically diverse cohorts, consisting of five partnerships each will be identified in Years 2 and 3. Each set of partners will be charged with creating a comprehensive two-year plan for science literacy activities and products to be implemented at local sites. It is anticipated that the pilot programs may result in the creation of new programs that merge science and writing, integrate writing into existing museum science programs, or integrate science activities into existing NWP programs. Interest-driven youth projects such as citizen science and science journalism activities are examples of programmatic approaches that may be adopted. The partners will convene periodically for planning and professional development focused on the integration of science and literacy for public and professional audiences, provided in part by national practitioners and research experts. A network Design Team that includes leadership representatives from NWP, ASTC, and the project evaluator, Inverness Research, Inc., will oversee project efforts in conjunction with a national advisory board, while a Partnership Coordinator will provide support for the local sites. Inverness Research will conduct a multi-level evaluation to address the following questions: -What is the nature and quality of the local partner arrangements, and the larger network as a whole? -What is the nature and quality of the local science literacy programs that local partners initiate, and how do they engage local participants, and develop their sense of inquiry and communication skills? First, a Designed-Based Implementation Research approach will be used for the developmental evaluation to assess the implementation process. Next, the documentation and portrayal phase will assess the benefits to youth, educators, institutions, and the field using surveys, interviews, observations of educators, and reviews of science communication efforts created by youth. Finally, the summative evaluation includes a comprehensive portfolio of evidence to document the audience impacts and an independent assessment of the project model by an Evaluation Review Board. This project will result in the creation of a robust learning community while contributing knowledge and lessons learned to the field about networks and innovative partnerships. It is anticipated that formal and informal educators will gain increased knowledge about science and literacy programs and develop skills to provide effective programs, while youth will demonstrate increased understanding of key science concepts and the ability to communicate science. Programs created by the local partnerships will serve approximately 650 educators (450 informal educators and 200 K-12 teachers) and 500 youth ages 9-18. Plans for dissemination, expansion, and sustainability will be undertaken by the sub-networks of the collaborating national organizations drawing on the 350 ASTC member institutions and nearly 200 NWP sites at colleges and universities.
The Oregon Museum of Science and Industry is implementing a Pathways project that will test and refine a model to promote an appreciation that science is everywhere and personally relevant by engaging transit riders in Portland, OR with location-relevant STEM content through unfacilitated, interactive science exhibits in everyday places. The study will employ a "design-based research" approach that both iteratively tests exhibit effectiveness and develops and refines an underlyting theoretical model that can contribute knowledge to the field. The "Science on the Move" model will be developed and tested using an exhibit prototype that includes 1) an easily transportable prototype core with a familiar touch-screen interface, 2) multiple sets of interactive digital content, and 3) a variety of accompanying outer skins designed to attract the public. The exhibit prototype will be placed at bus transit nodes to reach adults, specifically targeting those without college degrees who are underrepresented in science centers. A range of possible STEM content domains will be selected and tested based on topics of interest to the public. If successful, given the several challenges involved, the feasibility study will be applied more fully around Portland and be a model for other cities to consider.
This pathways project would refine and test a game based on the Kinect technology gaming tool to teach seismology concepts in an informal education setting and how they apply to phenomenon in other STEM fields. The game will be developed as a companion tool to the "Quake Catcher Network" a low-cost network of seismic sensors in schools, homes and offices world-wide and tie-ins with seismology programs such as the great California ShakeOut with a participant base of 8.6 million. The project design would select three new learning modules, chosen by a group of scientists and educators, to incorporate into the game and evaluate player experience and knowledge gain. The activities will be conducted at a partner test site, an aquarium, frequented by area youth 8 - 12 years old. The focus of the effort is to add to the knowledge of how gaming can be used effectively in informal learning environments The game places the player as a scientist, allowing the player to make decisions about seismic station deployment strategies following an earthquake, installing the sensors and monitoring incoming data. The game has levels of difficulty and players accrue points by acting swiftly and correctly. Learning goals for the project include making abstract math concepts understandable; involve participants in data collection and the process of scientific investigation, plus demonstrate how scientists and mathematicians use tools of their fields to address real-world issues.
The University of Chicago's Yerkes Observatory, the National Radio Astronomy Observatory, the University of North Carolina, the Astronomical Society of the Pacific, and 4-H are collaborating to provide professional development to 180 4-H leaders and other informal science educators, and engage 1,400 middle school youth in using research-grade robotic telescopes and data analysis tools to explore the Universe. Youth participating in 4H-based out-of-school programs in Wisconsin, West Virginia and North Carolina are learning about the universe and preparing for STEM careers by conducting authentic astronomy research, completing astronomy-related hands-on modeling activities, interacting with astronomers and other professionals who are part of the Skynet Robotic Telescope Network, and interacting with other youth who part of the Skynet Junior Scholars virtual community. The project is innovative because it is providing a diverse community of 4-H youth (including sight- and hearing-challenged youth and those from underrepresented groups) with opportunities to use high-quality, remotely located, Internet-controlled telescopes to explore the heavens by surveying galaxies, tracking asteroids, monitoring variable stars, and learn about the nature and methods of science. Deliverables include (1) online access to optical and radio telescopes, data analysis tools, and professional astronomers, (2) an age-appropriate web-based interface for controlling remote telescopes, (3) inquiry-based standards-aligned instructional modules, (4) face-to-face and online professional development for 4-H leaders and informal science educators, (5) programming for youth in out-of-school clubs and clubs, (6) evaluation findings on the impacts of program activities on participants, and (7) research findings on how web-based interactions between youth and scientists can promote student interest in and preparedness for STEM careers. The evaluation plan is measuring the effectiveness of program activities in (1) increasing youths' knowledge, skills, interest, self-efficacy, and identity in science, including youth who are sight- and hearing-impaired, (2) increasing educators' competency in implementing inquiry-based instruction and their ability to interact with scientists, and (3) increasing the number of Skynet scientists who are involved in education and public outreach.