Public engagement with science (PES) is about dialogue between scientific and technological experts and public audiences about societal questions that science can inform but not answer. In making decisions about these kinds of societal questions, social values and personal experience play roles equal to or greater than the one played by science. Rather than focusing exclusively on science itself, PES focuses on discussing problems that communities view as worth solving; the information society needs and wants from scientists; the potential risks, benefits, and consequences of new technologies
The Association of Science-Technology Centers (ASTC) aims to help member institutions inform and educate the public about science through a global lens. The World Biotech Tour (WBT) was a three-year initiative designed to not only promote a greater understanding of biotechnology through public outreach and programming led by science centers and museums, but also as an opportunity for ASTC to collect useful data on the resources required and challenges encountered at different science museums around the world when implementing a long-term, multi-country program. The WBT involved students
European Researchers’ Night is an annual pan-European initiative of the European Commission held on the last Friday in September. In 2015, 1.1 million European citizens and 18,000 researchers took part in events organised in more than 300 cities within Europe and neighbouring countries. The objective of European Researchers’ Night is to encourage the wider public to visit research institutes, engage with researchers, and learn more about European research and potential career opportunities. In this paper, European Researchers’ Night in Ireland is considered through the lens of informal
Supported by the National Science Foundation, the Global Soundscapes! Big Data, Big Screens, Open Ears project employs a variety of informal learning experiences to present the physics of sound and the new science of soundscape ecology. The interdisciplinary science of soundscape ecology analyzes sounds over time in different ecosystems around the world. The major components of the Global Soundscapes project are an educator-led interactive giant-screen theater show, group activities, and websites. All components are designed with both sighted and visually impaired students in mind. Multimedia
Digital Observation Technology Skills (DOTS) is a framework for integrating modern, mobile technology into outdoor, experiential science education. DOTS addresses longstanding tensions between modern technology and classical outdoor education by carefully selecting appropriate digital technology for educational purposes and by situating these tools in classical experiential pedagogy.
DATE:
TEAM MEMBERS:
R. Justin HoughamMarc NutterCaitlin Graham
The Sustainability Teams Empower and Amplify Membership in STEM (S-TEAMS), an NSF INCLUDES Design and Development Launch Pilot project, will tackle the problem of persistent underrepresentation by low-income, minority, and women students in STEM disciplines and careers through transdisciplinary teamwork. As science is increasingly done in teams, collaborations bring diversity to research. Diverse interactions can support critical thinking, problem-solving, and is a priority among STEM disciplines. By exploring a set of individual contributors that can be effect change through collective impact, this project will explore alternative approaches to broadly enhance diversity in STEM, such as sense of community and perceived program benefit. The S-TEAMS project relies on the use of sustainability as the organizing frame for the deployment of learning communities (teams) that engage deeply with active learning. Studies on the issue of underrepresentation often cite a feeling of isolation and lack of academically supportive networks with other students like themselves as major reasons for a disinclination to pursue education and careers in STEM, even as the numbers of underrepresented groups are increasing in colleges and universities across the country. The growth of sustainability science provides an excellent opportunity to include students from underrepresented groups in supportive teams working together on problems that require expertise in multiple disciplines. Participating students will develop professional skills and strengthen STEM- and sustainability-specific skills through real-world experience in problem solving and team science. Ultimately this project is expected to help increase the number of qualified professionals in the field of sustainability and the number of minorities in the STEM professions.
While there is certainly a clear need to improve engagement and retention of underrepresented groups across the entire spectrum of STEM education - from K-12 through graduate education, and on through career choices - the explicit focus here is on the undergraduate piece of this critical issue. This approach to teamwork makes STEM socialization integral to the active learning process. Five-member transdisciplinary teams, from disciplines such as biology, chemistry, computer and information sciences, geography, geology, mathematics, physics, and sustainability science, will work together for ten weeks in summer 2018 on real-world projects with corporations, government organizations, and nongovernment organizations. Sustainability teams with low participation by underrepresented groups will be compared to those with high representation to gather insights regarding individual and collective engagement, productivity, and ongoing interest in STEM. Such insights will be used to scale up the effort through partnership with New Jersey Higher Education Partnership for Sustainability (NJHEPS).
DATE:
-
TEAM MEMBERS:
Amy TuiningaAshwani VasishthPankaj Lai
This report presents the findings from the summative evaluation of the Multi-Site Public Engagement with Science project (MSPES), funded by an NSF AISL award. MSPES aimed to bring together public audiences and professional scientists through “Building with Biology” programming - public events and forums centered on the topic of synthetic biology. The goal was to promote meaningful, two-way dialogs around this area of science, which is rapidly advancing and raising interesting social and ethical questions. The project team sought to move beyond a traditional "public understanding of science"
To reach its full potential in science, technology, engineering, and mathematics (STEM), the United States must continue to recruit, prepare and maintain a diverse STEM workforce. Much work has been done in this regard. Yet, underrepresentation in STEM fields persists and is especially pronounced for Hispanic STEM professionals. The Hispanic community is the youngest and fastest growing racial/ethnic group in the United States but comprises only seven percent of the STEM workforce. More evidence-based solutions and innovative approaches are required. This project endeavors to address the challenges of underrepresentation in STEM, especially among individuals of Hispanic descent, through an innovative approach. The University of San Diego will design, develop, implement, and test a multilayered STEM learning approach specific to STEM learning and workforce development in STEM fields targeting Hispanic youth. The STEM World of Work project will explore youth STEM identity through three mechanisms: (1) an assessment of their individual interests, strengths, and values, (2) exposure to an array of viable STEM careers, and (3) engagement in rigorous hands-on STEM activities. The project centers on a youth summer STEM enrichment program and a series of follow-up booster sessions delivered during the academic year in informal contexts to promote family engagement. Paramount to this work is the core focus on San Diego's Five Priority Workforce Sectors: Advanced Manufacturing, Information and Communications Technology, Clean Energy, Healthcare, and Biotech. Few, if any, existing projects in the Advancing Informal STEM learning portfolio have explored the potential connections between these five priority workforce sectors, informal STEM learning, and identity among predominately Hispanic youth and families engaged in a year-long, culturally responsive STEM learning and workforce focused program. If successful, the model could provide a template for the facilitation of similar efforts in the future.
The STEM World of Work project will use a mixed-methods, exploratory research design to better understand the variables influencing STEM learning and academic and career choices within the proposed context. The research questions will explore: (1) the impacts of the project on students' engagement, STEM identity, STEM motivation, and academic outcomes, (2) factors that moderate these outcomes, and (3) the impact the model has on influencing youths' personal goals and career choices. Data will be garnered through cross-sectional and longitudinal surveys and reflective focus groups with the students and their parents/guardians. Multivariate analysis of variance, longitudinal modeling, and qualitative analysis will be conducted to analyze and report the data. The findings will be disseminated using a variety of methods and platforms. The broader impacts of the findings and work are expected to extend well beyond the project team, graduate student mentors, project partners, and the estimated 120 middle school students and their families from the predominately Hispanic Chula Vista Community of San Diego who will be directly impacted by the project.
This exploratory pathways project 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.
DATE:
-
TEAM MEMBERS:
Perla MyersVitaliy PopovOdesma DalrympleYaoran LiJoi Spencer
Englehard et al provide a wide-ranging look at synthetic biology, from discussion of how one might classify different synthetic approaches to consideration of risk and ethical issues. The chapter on public engagement considers why synthetic biology seems to sit below the public radar.
This paper argues that for citizens to be engaged with science they need to be able to share analytical techniques as well as the results of analyses. The category of "brand" which condenses the instrumental with the symbolic is both powerful in its uses and familiar to laypeople. The paper shows briefly how the categories of penicillin, biotechnology and applied science can be analysed in this way. It suggests that historians apply such an approach to the historiography of such new categories as synthetic biology and that this might be useful to curators of such topics in museums.
This project will make synthetic biology activities accessible to high school students and teachers by providing them with an authentic but safe context to learn. These activities will also broaden their understanding and perspectives about how synthetic biology and bioengineering is used in personal, health, and food production contexts as well as raise their interest in STEM. The design of bioMAKERlab will generate an educational version of an existing professional-grade lab for synthetic biology to promote safe production, accessibility, and affordability for high schools and community colleges interested in integrating such wetlab activities into their curriculum.
Most current efforts to broaden access to maker activities for K-12 students have focused on developing collaborative fabrication workspaces (fablabs) involving 3D printers, laser cutters, and other digital and traditional tools. This project will develop and implement bioMAKERlab, an innovative wetlab starter kit and activities that will enable high school students and teachers to engage in synthetic biology by building genetic circuits that let microorganisms change color, smell, and shape. In synthetic biology, participants make their own DNA--gene by gene--and then grow their designs into real applications by inserting them into microorganisms to develop different traits and characteristics provided by the genes. The project will involve students from a Philadelphia public high school and young people participating in weekend workshops at The Franklin Institute, a Philadelphia-based science museum.
This project is a part of NSF's Maker Dear Colleague Letter portfolio (NSF 15-086), a collaborative investment of Directorates for Computer & Information Science & Engineering, Education and Human Resources, and Engineering.
The project will research and further develop an interactive platform, Visitor Interactions in Microbiology (VIM), that enables museum visitors to influence and learn about the behavior of live microorganisms. Hands-on museum exhibits encourage visitors to engage with, and manipulate, scientific content. Currently, museum visitors experience microbiology by observing microorganisms through a microscope, through models, or through simulations, all of which limit interactivity. With the VIM platform, visitors draw on a screen or use a Kinect motion sensor to generate microscopic light images. The single celled organisms respond to these images in real-time. Preliminary testing shows that the platform has significant potential to promote prolonged engagement and science inquiry by visitors. The project will develop and research additional technological and design considerations to understand how VIM can be translated into effective museum exhibits. This project is supported by the Advancing Informal STEM Learning (AISL) program which funds research and innovative resources for use in a variety of settings as a part of its overall strategy to enhance learning in informal environments.
Project researchers will first compare VIM to existing microscopic exhibits to investigate both advantages as well as limitations with the platform. Based on that research, three iterations of prototypes of VIM and user testing will explore possible extensions of VIM with respect to modes of visitor interactions, types of organisms and types of stimuli. In addition to improving the VIM platform, the knowledge gained from this study will inform a new approach to informal science learning -- an approach that supports self-directed inquiry, interest in microbiology, and interest in underlying technology. The project will produce: (1) research results concerning the potential of VIM and the variety of interaction modes that are effective using the system and (2) an open-source catalogue of hardware, software and protocol instructions that will enable other institutions to take advantage of the research on VIM. Project research findings and resources will be widely disseminated to practitioners via conferences and professional journals. The research will provide the foundation for future work that will include the design of a permanent exhibition.