This is the protocol for a research project to assess the wants and needs of adults in underserved STEM learning communities -- in our case, the Richmond, VA African American community -- towards the goal of using a community-university partnership to staging STS science cafes that respond to these wants and needs.
This assessment is based on the three vertices of a triangle composed of cognition, observation, and interpretation, all of which converge on the nature of science, the relevance of science to everyday life, and decision-making behaviors.
We chose one measure from Conley, Pintrich, Vekiri, & Harrison (2004). This measure encompasses four dimensions about scientific knowledge -- source, certainty, development and justification -- so we thought it might reveal interesting dimensions of stasis and change in attitudes toward science from formal school environments to informal adult learning
Research misconduct has become an important matter of concern in the scientific community. The extent to which such behavior occurs early in science education has received little attention. In the current study, using the web-based data collection program REDCap, we obtained responses to an anonymous and voluntary survey about science fair from 65 high school students who recently competed in the Dallas Regional Science and Engineering Fair and from 237 STEM-track, post-high school students (undergraduates, 1st year medical students, and 1st year biomedical graduate students) doing research at
This project, a collaboration of faculty at Pratt Institute and Oregon State University, will explore how people with low to no affinity for science, technology, engineering and math (STEM) can be introduced to STEM ideas in ways that are appropriate for their cultural identity and designed to achieve reasonable outcomes that allow for continued STEM engagement. This project will study a new model, as a small scale exemplar of how science learning can be integrated into cultural events that attract audiences who do not identify themselves as interested in science or broader concepts associated with STEM. The model integrates science with art, music and play, producing live events, games, hands-on workshops, and interactive theater productions that are intended to inspire wonder and excitement. The basic principles are: to create unique opportunities for audiences to experience science in unorthodox ways, to connect with audiences at these events, and to help scientists engage a public they do not normally reach.
The goal of this project is to formally study and improve upon the practices that have been explored to date by carefully examining the implementation at two annual FIGMENT arts festivals in New York City and to determine outcomes based on three theoretical frameworks: the six strands of science engagement proposed by the National Research Council, the concept of follow-up activity, and subsequent reinforcing experiences. Initial evaluation results indicate the model is effective in advancing informal STEM learning and providing valuable public engagement with science training and experience for scientists. Participating scientists succeed in creating interest and attentiveness in audiences that do not normally engage in science, thereby opening the door for subsequent experiences. The research will be a quasi-experimental approach to test the degree to which encounters with model's learning experiences create a higher probability to actively seek subsequent science experiences. Project deliverables include a how-to guide for professionals on expanding STEM audiences targeted at cultural institutions who want to incorporate science content into their activities, and for other institutions who want to integrate their activities into cultural settings. The how-to guide will be based on the body of research and evaluations developed that will illuminate the principles behind the model.
This work is funded by the Advancing Informal STEM Learning (AISL) program, which seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments.
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds innovative research, approaches and resources for use in a variety of settings. The uses of technologies in emergency management and public safety are emerging rapidly, but it could take years for school STEM curricula to catch up with the technologies that are already being deployed in the field. Informal learning environments, such as Teen Science Cafés, provide a compelling venue for youth learning about rapidly-developing STEM fields such as technology. The floods and devastation caused by Hurricane Harvey provide a timely learning opportunity for them. This project, in addition to developing new materials for learning about technologies, will provide much-needed baseline research on teens' understanding of technology, technology careers, and emergency preparedness. Leveraging the robust platform of the NSF-funded Teen Science Café, the Maine Mathematics and Science Alliance will build upon its existing partnership with Science Education Solutions to develop and implement a package of educational activities, tools, and resources for a Teen Science Café that is focused on community flood events and response, using Hurricane Harvey as a model and case study. The materials will focus on advances in sensor technology, data visualization, social media, and other mobile communication apps used to detect, monitor and respond to flooding and natural disasters. The package of materials will be embraced by 20 sites in Maine. The goal is to engage at least 600 youth in themed Cafés focusing on how technology was used to respond to Harvey and is being used to manage and respond to flooding more generally. An important related goal is to conduct baseline research on what teens currently know about the flood-related technologies, as well as what they learn about it from this experience derived from recent floods in Texas, Florida, and the Caribbean islands.
A research goal of our work was to collect baseline information on teens’ level of knowledge about the role of technology in responding to a variety of natural disasters. To our knowledge, the field has not developed measures of knowledge of this increasingly important domain. We developed a quick and easy-to-administer 10-item multiple-choice measure, which we presented as a “trivia game” to be done sometime during the 90-minute Café. We did not track pre- to post-café changes in knowledge, because the Cafés emphasized very different pieces of technology as well as different types of natural disasters. Rather, we wished to establish a starting point, so that other researchers who are engaged in ERT efforts with teens have both an instrument and baseline data to use in their work.
A sample of 170 youth completed the questionnaire. The average correct response rate was 4.2 out of 10, only slightly higher than the chance of guessing correctly (3 out of 10). This suggests teens have limited baseline knowledge of Emergency Response Technology and our Cafés therefore served an important purpose given this lack of knowledge. Indeed, for half of the questions at least one incorrect answer was selected more often than the correct answer! Note that there were no statistically significant correlations between age and gender and rates of correct answers.
Three things are clear from our work: 1) Youth need and want to know about the vital roles they can play by learning to use technology in the face of natural disasters; 2) Teens currently know little about the uses of technology in mitigating or responding to disasters; and 3) Teen Science Cafés provide a timely and relatively simple way of sparking interest in this topic. The project showed that it is possible to empower youth to become involved, shape their futures, and care for their communities in the face of disasters. We plan to continue to expand the theme of Emergency Response Technology within the Teen Science Café Network. Reaching teens with proactive messages about their own agency in natural disasters is imperative and attainable through Teen Science Cafés.
Out-of-school settings promise to broaden participation in science to groups that are often left out of school-based opportunities. Increasing such involvement is premised on the notion that science is intricately tied to “the social, material, and personal well-being” of individuals, groups, and nations—indicators and aspirations that are deeply linked with understandings of equity, justice, and democracy. In this essay, the authors argue that dehistoricized and depoliticized meanings of equity, and the accompanying assumptions and goals of equity-oriented research and practice, threaten to
Many scientists want to connect with the public, but their efforts to do so are not always easy or effective. Visionary programs and institutions are leading the way identifying the support needed to enable scientists’ connections with the public. However, the current appetite by -- and demand for -- scientists to do this exceeds the capacity of those who facilitate quality communication and engagement efforts. More can be done to ensure that those who support scientists are networked, sharing best practices, and supported by a reliable infrastructure.
This workshop series, convened by the Kavli, Rita Allen, Packard and Moore Foundations, was intended to view the entire system of people who support scientists’ engagement and communication efforts in order to explore how this system can be most effective and sustainable. The discussions examined where this system is thriving, the limits people within the system face and what can be done to ensure their efforts are commensurate with the demand for quality communication and engagement support.
Conducted over four closely scheduled workshops in late 2017 and early 2018, the convenings brought together leaders in different parts of the field who bridge scientists and the public and led to the emergence of a number of key priority areas. While the initial intention was to also hold a plenary event to provide a more holistic view of scientists’ support system in order to collectively discern directions to advance the field, we feel a more efficient way forward right now is to focus our efforts and resources on building community and advancing these priority areas.
Our invitation-only workshops brought together scientists, academic leaders, engagement professionals, researchers, communication trainers, and foundation leaders. For each workshop, we also commissioned a “landscape overview”, to better understand the high-level state of each community. Workshops included:
Workshop I: Communication and engagement training programs - Dec. 4-5, 2017 at SUNY Global Center/Alan Alda Center for Communicating Science in New York
Workshop II: Associations, societies and other professional organizations - Feb. 28 - March 1, 2018 at the Howard Hughes Medical Institute in Chevy Chase, MD
Workshop III: Academic institutions - March 27-28, 2018 at UC San Diego
Workshop IV: Science engagement facilitators (museums, science festivals, connectors) - May 2-3, 2018 at Monterey Bay Aquarium
TBD - Workshop V: Plenary event
The goal of the workshops was to explore how to ensure scientists’ communication and engagement support is effective and sustained. In doing so, we hoped to 1) deepen our understanding of how scientists are currently supported in these areas, 2) map the broader support system to expose the opportunities and obstacles that play a role in achieving this goal, and 3) identify strategic and practical next steps that move us closer to this goal. This initiative also aimed to forge and strengthen networks across communities and institutions – and in so doing, take a view of the entire system to explore how everyone can better ensure their efforts are impactful, mutually supportive, and connected to a greater whole.
Included in the links below are summaries from each workshop.
This NSF INCLUDES Design and Development Launch Pilot is to expand the Navajo Nation Math Circle model to other sites, and to develop and launch a network of math circles based on the NNMC model. The Navajo Nation Math Circle model is a novel approach to broadening the participation of indigenous peoples in mathematics that, ultimately, seeks to improve American Indian students' attitudes towards mathematics, persistence with challenging problems, and grades in math courses. Navajo Nation Math Circles bring teachers, students, and mathematicians together to work collaboratively on challenging, but meaningful and fun, math problems. Through this NSF INCLUDES project, additional math circles across the Navajo Nation will be launched and a mirror site in Washington State serving additional tribes (such as Puyallup, Muckleshoot, Tulalip, and Stillaguamish) will be established.
Originating approximately a century ago in Eastern Europe as a means to engage students in mathematical thinking, math circles bring teachers, students, and math professionals together to work collaboratively on challenging, but relevant and interesting, math problems. Navajo Nation Math Circles, established math circles in various Navajo Nation communities, are the foundation of this INCLUDES project. One goal of this effort is to launch a network with the capacity to support the replication and adaption of math circles in multiple sites as an innovative strategy for encouraging indigenous math engagement through culturally enriched open-ended group math explorations. In addition, the Navajo Nation Math Circle model will be expanded to new math circles in the Navajo Nation, as well as in Washington State to serve additional tribes. Cells in the network will implement key elements of the Navajo Nation Math Circle model, adapting them to their particular contexts. Such elements include facilitation of open-ended group math explorations, incorporating indigenous knowledge systems; a Mathematical Visitor Program sending mathematicians to schools to work with students and their teachers; inclusion of mathematics in public festivals to increase community mathematical awareness; a two-week summer math camp for students; and teacher development opportunities ranging from workshops to immersion experiences to a mentoring program pairing teachers with mathematicians.
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TEAM MEMBERS:
David AucklyHenry FowlerJayadev Athreya
Scientific institutions are increasingly embracing values of inclusivity and public engagement, but how do these two dimensions intersect? Science festivals have rapidly expanded in recent years as an outgrowth of these values, aiming to engage and educate the public about scientific topics and research. While resources invested in public engagement by scientists, universities, and governments are admirable in principle; this study indicates that their ambition to broaden the reach of science may be going unrealized in practice. Using data from three major UK science festivals, we demonstrate
Science cafés offer a place for information and discussion for all who are interested in science and its broader implications for society. In this paper, science cafés are explored as a means of informal science dialogue in order to gain more understanding of the science-society relationship. Perspectives of visitors, organisers and moderators of science cafés were analysed. Findings show that science cafés stimulate discussion and engagement via informal learning processes. Visitors come to broaden their knowledge in an informal ambiance. Organisers and moderators hope to enhance
Adult education beyond K-12 and postsecondary levels is very important as this citizenry group is often the policy and decision makers in local communities, as well as for state and federal issues that impact the Nation. Moreover, they are responsible for advising their progeny on a myriad of choices. This project will plan, execute, and promote four annual public lecture events, working with a professional educational evaluation expert to develop an appropriate assessment tool for adult learners in the structured informal learning environment of a science café. These planned events will be used to test and refine an assessment tool for making this work widely available to the community of informal science practitioners and researchers. Further, this project is a pilot for epitomizing the use of science cafés to address the learning needs of unique citizens of Richmond, Virginia. The project is committed to including under-represented citizens including Veterans with disabilities. The evaluation and research efforts will validate the education mechanisms so science cafés can be more effective in the future. As a part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds research and innovative resources for use in a variety of settings.
This project is a collaboration that includes Virginia Commonwealth University (VCU), Rockman et al (an evaluation firm), Science Pub RVA (Science Pub RVA is a long-running and award-nominated Richmond, VA science café), Carver Community Partnership, East District Family Resource Center, VCU Partnership for People with Disabilities, VCU Department of Rehabilitation Counseling, VCU Medical Center, and a variety of other VCU departments. The investigators will conduct a series of science cafés to determine motivation, interests, and best practices for educating the diverse citizens of Richmond, Virginia. The objective of the research is to rigorously analyze the characteristics of participants and cohesively determine the best practices for the effective learning for each person. Further, rigorous evaluation will determine validity of the best and most effective learning practices enabling the project to derive an adaptable model. The investigators' hypothesis is that the participant's knowledge base is derived from the traditional learning which occurred in the K-12 classroom. Thus, in this work, the investigators hope to add to the participant's knowledge base with STS (Science, Technology, and Society) content and enhance the depth and breadth of knowledge and knowledge acquisition. The research scope will embrace an assessment that is based on the three vertices of a triangle composed of cognition, observation, and interpretation, all of which converge on the nature of science, the relevance of science to everyday life, and decision-making behaviors.