In 2017, PBS NewsHour produced one of their most complex transmedia series to date. #AmericaAddicted, which focused on the opioid crisis facing communities around the U.S., included 14 broadcast reports, 10 articles on the NewsHour site, four livestreams, three Twitter chats, and more than 200 associated videos and posts on over half a dozen platforms. The different reports take a wide range of perspectives and focus on different aspects of this crisis. Each report is embedded in dense networks of content, with a variety of entry points for audience members, that tell a single overarching
The Oregon Museum of Science and Industry (OMSI), in collaboration with neuroscientists at the Oregon Health & Science University (OHSU), museum professionals, and community partners, proposes to create a 1,000 to 1,500-square-foot traveling exhibition, accompanying website, and complementary programming to promote public understanding of neuroscience research and its relevance to healthy brain development in early childhood. The exhibition and programs will focus on current research on the developing brain, up to age 5, and will reach a national audience of adult caregivers of young children and their families, with a special emphasis on Latino families. The project will be developed bi-culturally and bilingually (English/Spanish) in order to better engage underrepresented Latino audiences. The exhibition and programs will be designed and tested with family audiences.
The exhibition project, Interactive Family Learning in Support of Early Brain Development, has four goals that primarily target adult caregivers of children up to age 5:
Foster engagement with and interest in neurodevelopment during early childhood
Enhance awareness of how neuroscience research leads to knowledge about healthy development in early childhood
Inform and empower adult caregivers to enrich their children’s early learning experiences
Reach diverse family audiences, especially Latino caregivers and their families
A collaborative, multidisciplinary team of neuroscience researchers, experts in early childhood education, museum educators, and OMSI personnel with expertise in informal science education and bilingual exhibit development will work together to ensure that current science is accurately interpreted and effectively presented to reach the target audiences. The project will foster better public understanding of early brain development and awareness and confidence in caregivers in using play to enrich their children’s experiences and support healthy brain development. Visitors will explore neuroscience and early childhood development through a variety of forms—multi-sensory, hands-on interactive exhibits, graphic panels, real objects, facilitated experiences, and an accompanying website.
Following the five-year development process, the exhibition will begin an eight-year national tour, during which it will reach more than one million people.
Museums in the US receive approximately 55 million visits each year from students in school groups. Field trip visits to an art museum have been found to positively impact critical thinking skills, empathy and tolerance - an increase that can be even more significant for youth from rural or high-poverty regions. While field trips are popular, especially at science museums, there have been no experimental studies about their impact on STEM career choices and interests, much less any which used a culturally sensitive and responsive approach. Given the resources put into field trips, this study investigates if causal links can be drawn between museum experiences and impact on youth. The Museum of Science & Industry uses a Learning Labs approach for engaging its visitors. These "Learning Labs" are facilitated experiences that run roughly an hour. Currently there are 12 lab topics. This study focuses on MedLab--one of the learning labs--as the setting for the research. MedLab is designed for on-site and online experience using ultra-sophisticated and highly versatile technology in challenges taken from research on the top healthcare issues that face adolescents in their communities.
This study is informed by research and theory on Social Cognitive Career Theory (SCCT) and Racial and Ethnic Identity. The former describes a process many follow when thinking about career options, broadly. The latter describes how people see themselves in the world through their membership with a racial and/or ethnic group. Both processes can collectively influence STEM career choices. This study follows an embedded mixed-method design. The quantitative portion includes an experimental, pre/post/delayed post-test design of both educators and their students using multiple measures taken mostly from previously published instruments. The qualitative portion includes observation rubrics of MedLab sessions along with interviews and focus groups with staff, educators, students and families that take place both within and outside of the museum. This is an experimental study of moderate size of both heterogeneous teacher and student populations in real world settings. It involves comparing youth and educators that participate in MedLab with those who do not. By conducting research that looks at each community through the lens of their unique experiences, the research will measure their impact more sensitively and authentically, addressing a gap in current literature on informal science, technology, engineering, or mathematics (STEM) career education with diverse students.
This study is funded by the Advancing Informal STEM Learning (AISL) program and the Innovative Technology Experiences for Students and Teachers (ITEST) program.
This project is funded by the National Science Foundation's (NSF's) Advancing Informal STEM Learning (AISL) program, which supports innovative research, approaches, and resources for use in a variety of learning settings.
Families play a large role in igniting children's interest in science pathways, but they may not always have access to high-quality materials that demonstrate clear connections between science and their daily lives. This project will address this issue by developing high-interest materials that teach the science of food preparation to families with children ages 7-13. These materials include the following four components: (a) Food Labs, food-based investigations taking place in museums or in food service facilities; (b) take-home kits allowing families to conduct similar types of Food Labs at home; (c) a series of question starters called Promoting Interest and Engagement in Science (PIES) designed to facilitate meaningful family conversations around food preparation; and (d) a mobile app designed to deepen families' understandings of relevant science concepts and containing embedded measures of STEM learning. This project will advance knowledge regarding features of take-home materials that foster family science learning and ignite children's interest in science pathways.
This Innovations in Development Project will result in empirically-tested instructional materials that support families, with children ages 7-13, in conducting scientific investigations and holding scientific conversations related to food preparation. Kent State University, in partnership with The Cincinnati Museum Center and La Soupe, a food service provider for families who face food insecurity, will collaboratively develop and test the four interrelated sets of instructional materials mentioned above that are designed to deepen families' scientific content knowledge related to the chemistry of food preparation. To iteratively design and evaluate these materials, the team will conduct both laboratory and in-vivo experiments using a Solomon design with a pre- and post-demonstration survey. The survey will measure children's interest, knowledge, and engagement. For a month after interacting with instructional materials, families will document their science activity at home through the app. Additionally, through analyzing audio-recordings, the team will determine whether and how families ask questions using the PIES materials. Finally, post-demonstration interviews with participating families will focus on the usability and accessibility of the instructional materials. Quantitative and qualitative analyses of the pre-post surveys, interview transcripts, and audio-recordings will be used to improve the instructional materials, and the revised materials will be re-assessed using the same experimental methods and outcome measures. The final set of instructional materials will be developed and widely disseminated for easy use at other science museums, food service providers, and in families' homes. This project leverages partnerships to generate empirical knowledge on features of learning environments that support family science learning and engagement, resulting in empirically-based materials designed to broaden participation in science. This project 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. 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.
This project is funded by the National Science Foundation's (NSF's) Advancing Informal STEM Learning (AISL) program, which supports innovative research, approaches, and resources for use in a variety of learning settings.
Increasingly, scientists and their institutions are engaging with lay audiences via media. The emergence of social media has allowed scientists to engage with publics in novel ways. Social networking sites have fundamentally changed the modern media environment and, subsequently, media consumption habits. When asked where they primarily go to learn more about scientific issues, more than half of Americans point to the Internet. These online spaces offer many opportunities for scientists to play active roles in communicating and engaging directly with various publics. Additionally, the proposed research activities were inspired by a recent report by the National Academies of Sciences, Engineering, and Medicine that included a challenge to science communication researchers to determine better approaches for communicating science through social media platforms. Humor has been recommended as a method that scientists could use in communicating with publics; however, there is little empirical evidence that its use is effective. The researchers will explore the effectiveness of using humor for communicating about artificial intelligence, climate science and microbiomes.
The research questions are: How do lay audiences respond to messages about scientific issues on social media that use humor? What are scientists' views toward using humor in constructing social media messages? Can collaborations between science communication scholars and practitioners facilitate more effective practices? The research is grounded in the theory of planned behavior and framing as a theory of media effects. A public survey will collect and analyze data on Twitter messages with and without humor, the number of likes and re-tweets of each message, and their scientific content. Survey participants will be randomly assigned to one of twenty-four experimental conditions. The survey sample, matching recent U.S. Census Bureau data, will be obtained from opt-in panels provided by Qualtrics, an online market research company. The second component of the research will quantify the attitudes of scientists toward using humor to communicate with publics on social media. Data will be collected from a random sample of scientists and graduate students at R1 universities nationwide. Data will be analyzed using descriptive statistics and regression modeling.
The broader impacts of this project are twofold: findings from the research will be shared with science communication scholars and trainers advancing knowledge and practice; and an infographic (visual representation of findings) will be distributed to practitioners who participate in research-practice partnerships. It will provide a set of easily-referenced, evidence-based guidelines about the types of humor to which audiences respond positively on social media.
This project is funded by the National Science Foundation's (NSF's) Advancing Informal STEM Learning (AISL) program, which supports innovative research, approaches, and resources for use in a variety of learning settings.
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TEAM MEMBERS:
Sara YeoLeona Yi-Fan SuMichael Cacciatore
resourceprojectProfessional Development, Conferences, and Networks
This NSF INCUDES Design and Development Launch Pilot will increase the recruitment, retention, and matriculation of racial and ethnic minorities in STEM Ph.D. programs contributing to hazards and disaster research. Increasing STEM focused minorities on hazards mitigation, and disaster research areas will benefit society and contribute to the achievements of specific, desired societal outcomes following disasters. The Minority SURGE Capacity in Disasters (SURGE) launch pilot will provide the empirical research to identify substantial ways to increase the underrepresentation of minorities in STEM disciplines interested in hazards mitigation and disaster research. Increasing the involvement of qualified minorities will help solve the broader vulnerability concerns in these communities and help advance the body of knowledge through the diversity of thought and creative problem solving in scholarship and practice. Utilizing workshops and a multifaceted mentorship program SURGE creates a new model that addresses the diversity concerns in both STEM and disaster fields, and make American communities more resilient following natural disasters. This project will be of interest to policymakers, educators and the general public.
The Minority SURGE Capacity in Disasters (SURGE) NSF INCLUDES Design and Development Launch Pilot will enhance the social capital of racial and ethnic minority communities by increasing their networks, connections, and access to disaster management decision-making among members of their community from STEM fields. The four-fold goals of SURGE are to: (1) increase the number of minority graduate researchers in STEM fields with a disaster focus; (2) develop and guide well-trained, qualified disaster scholars from STEM fields; (3) provide academic and professional mentorship for next generation minority STEM scholars in hazards mitigation and disaster research; and (4) develop professional and research opportunities that involve outreach and problem solving for vulnerable communities in the U.S. The SURGE project is organized as a lead-organization network through the University of Nebraska at Omaha and includes community partners. As a pilot project, SURGE participation is limited to graduate students from research-intensive universities across the country. Each student will attend workshops and training programs developed by the project leads. SURGE investigators will conduct project evaluation and assessment of their workshops, training, and mentorship projects. Results from evaluations and assessments will be presented at STEM and disaster-related conferences and published in peer-reviewed academic journals.
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TEAM MEMBERS:
DeeDee BennettLori PeekTerri NortonHans Louis-Charles
The Broadening Experience for Scientific Training: Beginning Enhancement Track ("BEST-BET"), an NSF INCLUDES Design and Development Launch Pilot project, draws upon the expertise of five research-intensive institutions that have developed innovative programing in career and professional development for doctoral and postdoctoral trainees in biomedical research. The goal of the project is to expand the scope and leverage the work so as to engage students earlier in their career exploration. Specifically, the project will target undergraduates who may not be aware of the multitude of career options available to them. These include opportunities in academia, the biotechnology and pharmaceutical industries, science communication, science policy, and technology transfer/patent law. The effort will focus on undergraduates who come from populations generally underrepresented in STEM fields, including but not limited to ethnically, racially and socioeconomically underserved communities. The grant will support educational opportunities for students at minority-serving institutions and will assess the impact of providing new opportunities to this community. The critical contributions of a diverse and inclusive community are essential to progress in all STEM fields. By promoting diversity in education, this project aims to engage undergraduate students at a point in their professional development that could enable participation in a wide range of workforce opportunities so as to advance the progress of science and national health.
The focus of BEST BET will be to use a collective impact framework to connect the "BEST network" of institutions to partners engaged in undergraduate education of students from underrepresented communities who are interested in the life sciences. The underlying premise is that career exploration focused on opportunities that go beyond physician training will enable engagement of this community of learners in the life science workforce beyond the pre-med track and keep them engaged in degree completion. Multiple strategies will be used to attain the goals of BEST BET. They are organized in the context of two major objectives roughly divided into the scope of planned activities. The first objective focuses on "career exploration" and offers strategies to assist partner institutions to build career and skill development capacities. The second is grounded in an enhanced experience of BEST site visits whereby undergraduates will have the opportunity to envision life as a graduate student and beyond. These strategies will likely enhance persistence to complete the baccalaureate degree and move onto doctoral programs.
Cities and communities in the U.S. and around the world are entering a new era of transformational change, in which their inhabitants and the surrounding built and natural environments are increasingly connected by smart technologies, leading to new opportunities for innovation, improved services, and enhanced quality of life. The Smart and Connected Communities (SCC) program supports strongly interdisciplinary, integrative research and research capacity-building activities that will improve understanding of smart and connected communities and lead to discoveries that enable sustainable change to enhance community functioning. This project is a Research Coordination Network (RCN) that focuses on achieving SCC for medium/small size, remote, and rural communities through a polycentric (multiple centers) integrated policy, design, and technology approach. The communities served by the RCN have higher barriers to information, resources, and services than larger urban communities. To reduce this gap, the PIs propose to develop need-based R&D pipelines to select solutions with the highest potential impacts to the communities. Instead of trying to connect under-connected communities to nearby large cities, this proposal aims to develop economic opportunities within the communities themselves. This topic aligns well with the vision of the SCC program, and the proposed RCN consists of a diverse group of researchers, communities, industry, government, and non-profit partners.
This award will support the development of an RCN within the Commonwealth of Virginia which will coordinate multiple partners in developing innovations utilizing smart and connected technologies. The goal of the research coordination network is to enable researchers and citizens to collaborate on research supporting enhanced quality of life for medium, small, and rural communities which frequently lack the communication and other infrastructure available in cities. The research coordination network will be led by the University of Virginia. There are 14 partner organizations including six research center partners in transportation, environment, architecture and urban planning, and engineering and technology; two State and Industry partners (Virginia Municipal League and Virginia Center for Innovative Technology); four community partners representing health services (UVA Center for Telemedicine), small and remote communities (Weldon Cooper Center), neighborhood communities (Charlottesville Neighborhood Development), and urban communities (Thriving Cities); and two national partners which support high speed networking (US-Ignite) and city-university hubs (MetroLab). Examples of research coordination include telemedicine services, transportation services, and user-centric and community-centric utilization and deployment of sensor technologies.
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TEAM MEMBERS:
Ila BermanT. Donna ChenKaren RheubanQian Cai
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.
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TEAM MEMBERS:
Perla MyersVitaliy PopovOdesma DalrympleYaoran LiJoi Spencer
As part of its overall effort to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program, seeks to advance new approaches to, and evidence-based understanding of, the design and development of science, technology, engineering, and mathematics (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. In alignment with these aims, the STEM + Digital Literacies (STEM+L) project will investigate science fiction as an effective mechanism to attract and immerse adolescents (ages 10-13) from diverse cultural backgrounds in environmental and human health content and socio-scientific issues. This work is particularly novel, as the current knowledge base is limited, and largely addresses the high school level. Therefore, the results of the proposed effort could yield important findings regarding the feasibility of this activity as an effective platform for science learning and engagement for younger students. As such, STEM+L would not only advance knowledge in the field but would also contribute to a growing AISL portfolio on digital literacy and learning.
STEM+L is an early stage Innovations in Development project that will engage thirty middle school students in out of school time experiences. Over a twenty-four-week period, students will work collaboratively in groups in-person and online with their peers and field experts to design, develop, and produce STEM content rich, multimedia science fictions. The in-person learning experiences will take place on the University of Miami campus during the summer and academic year. Culminating activities include student presentations online and at a local Science Fiction Festival. The research component will employ an iterative, design-based approach. Four research questions will be explored: (a) How do students learn science concepts and multimodal digital literacies through participating in the STEM+L Academy? (b) How do students change their views in STEM related subject matter and in pursuing STEM related careers? (c) How do students participate in the STEM+L Academy? (d) How do we best support students' participation and learning of STEM+L in face-to-face and online environments? Data collection methods include video records, student-generated artifacts, online surveys, embedded assessments, interviews, and multimodal reflections. Comparative case analysis and a mixed methods approach will be employed. A rigorous evaluation will be conducted by a critical external review board. Inclusive and innovative dissemination strategies will ensure that the results of the research and program reach a broad range of audiences including both informal and formal STEM and literacy educators and researchers, learning scientists, local communities, and policy makers through national and international conference presentations, journal publications, Web2.0 resources, and community outreach activities.
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments. This Change Makers project will establish Food Justice Ambassador corps across three cities in Massachusetts where youth will install, manage and learn the science and technology underlying hydroponics. The project takes a near-peer mentoring approach that empowers high school youth to take the lead in improving ethnic minority and low-income residents' access to healthy produce and to help educate middle school youth regarding the value of fresh produce in one's diet by learning the science of hydroponics. Youth will create story maps to visualize food accessibility in their communities. High school youth will work with their communities to establish hydroponic farms in middle school after-school settings. The food that is grown will be provided to the community through farmers' markets. Youth will share their work with a larger community of urban farmers at the Massachusetts Urban Farming Conference. This project seeks to understand the contribution on youth development by the model's three components: (1) STEM learning embedded in a social justice framework, (2) near-peer mentoring, and (3) youth purpose and career development. This will enable researchers to better understand how the project enables youth to learn STEM skills; apply them to a real life problem; learn the relevance of STEM skills for addressing personal, career aspiration, and social justice issues; develop a sense of purpose and aspirations related to STEM fields; and mentor other youth through the same process. The project will use a mixed-method, multi-site longitudinal study utilizing quantitative surveys, structural equation modeling, and qualitative interviews to study the intersections of the components of the project. As such, the study will address three key questions: 1) How do youth and mentors perceive and experience their roles as participants in the pedagogy? 2) What is the impact of the intervention on youth' sense of purpose, identity, career adaptability, work volition, critical consciousness, school engagement, STEM interests, and STEM intentionality? 3) What is the contribution of relational/mentoring and psychosocial/career adaptability aspects of the youths' contexts on their capacity to benefit from this program and to develop and sustain purpose and engagement in school and STEM? Most urban youth (and adults) have little knowledge of where their food comes from and have limited opportunities to learn how to grow produce as well as develop related skills that can lead to a career in a STEM field. This is particularly disconcerting as 55% of African Americans live inside central cities (90% in metropolitan areas) and over half of all Latino/as live in central cities (United States Census Bureau, 2011). This project entails the recruitment of low-income youth from populations underrepresented in science into a program where social justice concerns (food justice, food security) are illuminated, analyzed, and acted upon through the development of STEM knowledge and skills. Specifically, this project recognizes the potential for urban youth to become deeply knowledgeable citizens who can mobilize their STEM knowledge and skills to resolve social injustices such as food deserts. If successful, this project will provide a model that should be transferable to similar contexts to help broaden participation in STEM.
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TEAM MEMBERS:
George BarnettBelle LiangDavid Blustein
San Francisco Health Investigators (SF HI), developed and led by the Science & Health Education Partnership at UC San Francisco, will use a community-based participatory research model to provide authentic research experiences for high school students, the majority from backgrounds underrepresented in the sciences.
SF HI will:
1) Develop a community of high school Student Researchers who will conduct research into health issues in their communities, study how adolescents respond to health messages, create new health messages informed by this research, and study the broader impacts of the materials they develop.
2) Partner with educational researchers to research the effects of SF HI on the high school student participants and the impact of the materials on the broader community.
3) Disseminate those materials shown to have the greatest impact nationally.
4) Publish results on the public understanding and awareness of health issues in peer-reviewed journals and other forums to inform and advance the field of public health.
The SF HI model is designed to leverage students’ cultural and technological knowledge and their social capital in the role of Student Researchers as they study the awareness, knowledge and attitudes about current health issues in their communities. It will have a broad range of impacts. Over the course of the project, 100 urban public high school students will be immersed in research projects that have the potential to directly benefit the health of their communities. These Student Researchers will design health messages informed by their social, cultural, and community knowledge and by their research results. They will collectively survey more than 8,500 community members – their peers, neighbors, and attendees at public gatherings to assess the effectiveness of these materials. Student-developed materials will be distributed broadly via the web, high school and college wellness centers, the NIH SEPA community, and other networks – thus these materials have the potential to reach over 1.5 million adolescents and young adults over the life of the project.