This media and research project will develop and study the use of new media, broadcast television, and social networks to introduce Citizen Science to a national audience, and motivate their direct involvement and participation. Project deliverables will include: four nationally-distributed public TV programs hosted by Waleed Abdalati, Director of CIREs at the University of Boulder and former NASA Chief Scientist; online videos for training and outreach of citizen science partners; digital engagement via social media; and a custom-designed application ('2nd screen app') that enables users to obtain additional informational content, share information, and connect with other viewers. The evaluation and research study will build new knowledge on how these deliverables can motivate the public to become citizen science participants. The investigators estimate the four television programs will reach approximately 80% of U.S. television households. In addition, videos and other content will be distributed through channels such as iTunes, Hulu, Netflix, and social media. Target audiences will include the general public, citizen science activists, and professional scientists. Underrepresented groups will be reached through special Google Hangouts, and professional societies such as SACNAS and AGU. The research components of the project will provide evidence on how traditional researchers respond to citizen science, and explore the deliverables' use as recruitment tools for citizen science projects and impacts on viewers' attitudes, behaviors, and skills related to citizen science. Data will be collected from multiple sources, including online surveys, in-person focus groups, and analyses of users' online postings. Retrospective surveys will be administered to explore changes in behavior regarding whether respondents have increased their interaction with professional scientists, or participated in citizen science initiatives. A quasi-experimental study will be conducted to assess the value added by the 2nd screen app.
This project will help address the urgent need for a new engineering workforce. Middle school students will be entering a workforce that is increasingly global. They will need not only technical skills but also global competencies including: the ability to investigate the world, recognize perspectives, communicate ideas, and take action. This model integrates engineering with global competencies and will provide new knowledge about how this type of learning experience impacts students and educators. This project builds on the success of the previous Design Squad project funded by NSF and developed by WGBH, which has implemented a national model for engineering education for middle school youth. This project expands the model internationally, connecting U.S. based youth with those in Southern Africa (including South Africa, Botswana, and Swaziland). The project partners are FHI 360, a non-profit organization in 60 countries around the world that helps build capacity for improving lives. They will facilitate the implementation of the afterschool programs in Southern Africa . The US dissemination partners include Promise Neighborhoods Institute, Middle Start, Every Hour Counts, and the National Girls Collaborative Project. Project deliverables include a global engineering curriculum; a web platform with videos, games, activities; an afterschool Club Guide; and a Community of Practice for informal engineering educators. A knowledge building component will provide new evidence on how high quality accessible resources and strategies can impact students' development of global competencies and engineering skills to solve real world problems. An iterative approach will be used to develop the resources including the global engineering afterschool curriculum, Club guide, and other components. The methodology uses a continuous cycle of improvement including: assess/design, test/ implement, synthesize/reflect, and utilize/disseminate. The Summative Evaluation will generate evidence about whether and how this kind of collaborative work builds children's understanding of engineering, motivation to participate, and confidence in taking informed action on behalf of pressing global problems. This will contribute to a larger body of work about whether and how engaging with global, collaborative engineering problems leads to greater self-efficacy for children with very different backgrounds, experiences, and opportunities. This project will add new knowledge about how the well-honed Design Squad model in the U.S. can be expanded with a global context and global partners. This proposal was co-funded by EHR/DRL, Engineering/EEC, and International Science and Engineering. During the project period approximately 125,000 children in the US and 5000 children in southern Africa will be reached. In the long term, with the continued global access to the resources, the reach will potentially be in the millions.
This Michigan State University and University of Texas-Austin project will focus on making science communication more scientific. It will primarily use interview and survey research to improve societal understanding of how those involved in science communication, particularly scientists, think about science communication. The goal is to use this knowledge to help improve science communication training and recruiting with a focus on increasing the likelihood that scientists will adopt evidence-based communication strategies to increase public interest, engagement, and identification with science, technology, engineering, and math (STEM). A central underlying reason for the study is a mismatch between scientists' motivations and goals when interacting with public audiences and what research suggests would be the most positive and productive with public audiences. This study is funded by the Advancing Informal STEM Learning program, which seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments. This includes providing multiple pathways for broadening access to and engagement in STEM learning experiences, advancing innovative research on and assessment of STEM learning in informal environments, and developing understandings of deeper learning by participants. The project will be conducted in three phases. The first is interviews with a wide range of science communication experts to assess priority research questions. These interviews will be followed by surveys with U.S.-based members of up to 10 different scientific societies representing a broad range of academic fields as well as a survey of science communication researchers. The survey will focus on three different public engagement modes, including face-to-face engagement, online engagement, and engagement via the news media. Consistent with the Theory of Planned Behavior, the surveys will assess scientists' attitudes about public engagement and specific public engagement goals, as well as perceptions of social norms (both descriptive and injunctive) and efficacy beliefs (both internal and external). These will be used as predictors of general and goal-specific engagement willingness, as well as reported past behavior, using multigroup modeling. Potential communication goals of interest include transferring knowledge, developing interest and excitement, building trust in scientists, demonstrating openness and a willingness to listen, shaping how people think about subjects (i.e. framing), and/or defending science. The final phase of the project will explore the potential to design experiments aimed at testing the impact that mention of specific goals has on communication training recruitment as well as the degree to which online content about various goals is attractive to scientists interested in developing their communication skills. The research is the most targeted and largest attempt to date to understand how scientists' views about the public and communication processes may shape science communication behavior.
Brewer and Ley surveyed 851 participants in a U.S. city and revealed relationships among demographic characteristics, religious beliefs, political views, and trust in multiple forms of science communication sources.
WGBH received funding to develop and create NOVA Labs, an online environment that provides teen audiences with an online research lab, educational content, and the opportunity to engage with authentic data, tools, and processes to investigate scientific questions. This work has begun with the development of a first pilot lab, called The Sun Lab. NOVA Education created and launched this lab in early summer 2012. Examining the site in its pilot form, the Lifelong Learning Group (LLG) engaged in a formative evaluation to support refinements and improvements in the design of subsequent NOVA Lab
NOVA Labs (www.pbs.org/nova/labs) is a web-based platform designed for use by educators, students, and teens to engage learners with authentic data, processes, and tools of working scientists. The present evaluation study sought to investigate the outcomes achieved by users of the third NOVA Labs platform developed: Cloud Lab. The intended outcomes identified for student users were that they would: • Be able to successfully work with the real data provided in the Cloud Lab; • Demonstrate ability to interpret and use scientific data and tools; • Engage with real scientific data through the
NOVA Labs (pbs.org/nova/labs) is a free digital platform that engages teens and lifelong learners in activities and games that foster authentic scientific exploration. From building RNA molecules and designing renewable energy systems to tracking cloud movements and learning cybersecurity strategies, NOVA Labs participants can take part in real-world investigations by visualizing, analyzing, and playing with the same data that scientists use. Each Lab focuses on a different area of active research. But all of them illustrate key concepts with engaging and informative videos, and guide participants as they answer scientific questions or design solutions to current problems. Supporting pages on each Lab site explain the purpose and functions of the Lab, help teachers incorporate it into their classrooms, foster collaboration between users, and help users make connections to the broader world of STEM. Users are encouraged to explore potential career paths through “Meet the Scientists” profiles, and to obtain information about local and national STEM resources.
This poster was presented at the 2014 AISL PI Meeting in Washington, DC. This project seeks to improve public engagement in climate communication by broadcast meteorologists, using scientific methods to identify probable causes for their skepticism and/or reticence, and to test the efficacy of proposed solutions.
This poster was presented at the 2014 AISL PI Meeting in Washington, DC. It describes a media project that created a documentary film about the Pulsar Search Collaboratory, as well as developing programming to be used both in the classroom and in diverse settings throughout the community.
In the increasingly fierce competition for leisure time and educational spending, museums are seriously challenged by edutainment, the Internet, CD-ROMs, and 500-channel satellite TV. For example, if a child is interested in dinosaurs, 20 years ago a parent would have been likely to take her to the museum to see some fossils. Today, many parents would probably begin by taking her to the computer to search the World Wide Web, where a quick search reveals thousands of dinosaur web pages. If the family did not find a site among these thousands that satisfied the child's curiosity - or if they
Years before encountering their first formal science lessons in elementary school, children may already be practicing scientific thinking on a weekly, if not daily, basis. In one recent survey, parents reported that their kindergartners engaged, on average, in more than 300 informal science education activities per year - watching science television shows, reading science-oriented books, and visiting museums and zoos (Korpan, Bisanz, Bisanz, Boehme, & Lynch, 1997). This strikes us as a lot, but it is likely to pale in comparison to what young children may experience five years from now
This poster was presented at the 2014 AISL PI Meeting held in Washington, DC. It discusses the second season of SciGirls, a multimedia project designed to encourage and empower more girls to pursue careers in STEM.
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Twin Cities Public TelevisionRita Karl