The New England Aquarium will create Conservation STEM — an online curriculum that features engaging videos and hands-on activities aligned with state and national standards that are easily accessible for teachers to use in the classroom. The project responds to a need that the aquarium’s Teacher Advisory Council — composed of Pre-K through 12 teachers from the greater Boston area — identified, which was to help students develop critical and systems thinking skills. It also will provide a means for teachers to engage students with authentic experiences to address real-world problems and build an understanding of the need for a balanced use of the ocean.
The Harvard Museums of Science and Culture will improve the ability of middle school teachers to use museum-based digital resources to support classroom instruction aligned with state and national science standards. Working with advisory teachers from five collaborating school districts, the museum will co-create classroom activities, based on digital resources from its collections, along with associated teacher professional development programs at three sites across urban and rural Massachusetts. The project will provide schools with access to classroom-ready resources that successfully support student learning. Teachers will learn how to use these materials, integrate them into their teaching, and enhance their skills to teach science content and practice. External evaluators will assess the project's effectiveness by measuring teacher implementation of the digital resources in the classroom, requests for information and assistance, and changes in teachers' confidence and comfort levels.
It is estimated that over 95% of all school children across the country are out of the classroom due to social distancing mandates in response to the COVID-19 pandemic. Almost overnight, families have had to develop and support new practices for learning at home as districts scramble to meet the academic, social and emotional needs of their communities. It is essential to collect data now to develop a deeper understanding of how schools and families are adapting to these changes and will continue to do so in coming weeks/months - the troubles they encounter, and the solutions they generate. Retrospective accounts may mask critical features of what was experienced, minimizing the country’s capacity to conceptualize and build more robust, equitable and transformative learning ecologies for the future. Emphasizing an equity approach to solution development, this research will document how families engage in creative practices to generate powerful learning based on local needs, values, contexts, and histories in this present crisis. It will address the following questions: (1) What resources are schools providing and how are parents navigating and extending these resources to sustain their child’s learning? (2) How are families exploring science and math concepts related to the pandemic? (3) How are parents and families learning to adapt (e.g. communication with teachers; broader social networks) and what challenges do they face (e.g. subscription costs; reliable Internet)? (4) How are digital resources for STEM, curated by the research team, utilized for learning?
Emergency school closures are exposing significant gaps in access to the Internet and communication devices, and the capacity of parents/caregivers and communities to capitalize on technology to sustain health-relevant learning in a time of crisis. This project will use a novel, remote-diary tool based on a smartphone-enabled data collection platform, to reach families across the country. Mobile-phone-enabled remote diary tools make it possible to reach families who are under-connected, not just those with robust technical infrastructure. The data collected will lay the groundwork for creating new socio-technical support systems informed by diverse families’ experiences, as the crisis unfolds. Approximately 200 parents with school age children (early and upper elementary grades) living at home will be recruited. This study and a subsequent virtual workshop with other researchers who are also using remote methods to study learning will help establish a broader research agenda to specify the conditions under which socio-technical systems productively augment a family’s capacity to innovate and learn when traditional co-located school settings disappear. It will advance our understanding of how human learning adapts to unexpectedly changed learning environments. This study draws on advances in remote data collection and new analytical tools for innovation in research design.
Production of an augmented reality app for the Cahokia Mounds historic site and a complementary website.
This project is to produce an augmented reality application for Cahokia Mounds State Historic Site. This experience will enable visitors to see structures, people, and other features of this ancient site through the lens of their smartphone or tablet. There will be extra audio and vision opportunities loaded to the experience as well as a complementary website. The website will include curriculum for school use. Cahokia Mounds State Historic Site is a UNESCO World Heritage and US National Historic Landmark. This project will greatly enhance the visitor's experience and bring awareness of the site.
Mentoring is a widely accepted strategy for helping youth see how their interests and abilities fit with education and career pathways; however, more research is needed to better understand how different approaches to mentoring impact youth participants. Near-peer mentoring can be a particularly impactful approach, particularly when youth can identify with their mentors. This project investigates three approaches to near-peer mentoring of high-school-aged Hispanic youth by Hispanic undergraduate mathematics majors. Mentoring approaches include undergraduates' visits to high school classrooms, mathematics social media, and a summer math research camp. These three components of the intervention are aimed at facilitating enjoyment of advanced mathematics through dynamic, experiential learning and helping high school aged youth to align themselves with other doers of mathematics on the academic stage just beyond them, i.e., college.
Using a Design-Based Research approach that involves mixed methods, the research investigates how the three different near-peer mentoring approaches impact youth participants' attitudes and interests related to studying mathematics and pursuing a career in mathematics, the youth's sense of whether they themselves are doers of mathematics, and the youth's academic progress in mathematics. The project design and research study focus on the development of mathematical identity, where a mathematics identity encompasses a person's self-understanding of himself or herself in the context of doing mathematics, and is grounded in Anderson (2007)'s four faces of identity: Engage, Imagine, Achieve, and Nature. The study findings have the potential to uncover associations between informal interactions involving the near-peer groups of high school aged youth and undergraduates seen to impact attitudes, achievement, course selection choices, and identities relative to mathematics. It also responds to an important gap in current understandings regarding effective communication of mathematics through social media outlets, and results will describe the value of in-person mathematical interactions as well as online interactions through social media. The study will result in a model for using informal near-peer mentoring and social media applications for attracting young people to study and pursue careers in STEM. This project will also result in a body of scripted MathShow presentations and materials and Math Social Media content that will be publicly available to audiences internationally via YouTube and Instagram.
This Research in Service to Practice 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 award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
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TEAM MEMBERS:
Aaron WilsonSergey GrigorianXiaohui WangMayra Ortiz
Communication is an essential component to scientific inquiry, and specifically the primary literature is highly valued by scientists. Yet, the role of primary literature within scientific inquiry is generally absent from the science classroom. In this study we examined how middle and high school student perceptions of scientific inquiry changed after they engaged in a peer-review and publication process of their research papers. We interviewed twelve students who published their papers in the [Journal], a science journal dedicated to publishing the research of middle and high school students
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Sarah FankhauserGwendolynne ReidGwendolyn MirzoyanClara MeadersOlivia Ho-Shing
For public health to improve, all sectors of society much have access to the highest quality health science news and information possible. How that information is translated, packaged and disseminated is important: the stories matter. Our journalism and mentoring program will grow the health science literacy of the nation by building the next generation of science communicators, ensuring that cadre of youth from historically disadvantaged groups have the discipline, creativity and critical thinking skills needed to be successful health science-literate citizens and advocates within their own communities.
Using a combination of youth-generated videos, broadcast reporting and online curriculum resources, PBS NewsHour will engineer successful educational experiences to engage students from all backgrounds, and particularly underserved populations, to explore clinical, biomedical, and behavioral research. The PBS NewsHour’s Student Reporting Labs program, currently in 41 states, will create 10 health science reporting labs to produce unique news stories that view health and science topics from a youth perspective. We will incorporate these videos into lesson plans and learning tools disseminated to the general public, educators and youth media organizations. Students will be supported along the way with curricula and mentorship on both fundamental research and the critical thinking skills necessary for responsible journalism. This process will ensure the next generation includes citizens who are effective science communicators and self-motivated learners with a deep connection to science beyond the textbook and classroom.
PBS NewsHour will develop a STEM-reporting curriculum to teach students important research skills. The program will include activities that expose students to careers in research, highlight a diverse assortment of pioneering scientists as role models and promote internship opportunities. The resources will be posted on the PBS NewsHour Extra site which has 170,000 views per month and our partner sites on PBS Learning Media and Share My Lesson—the two biggest free education resource sites on the web—thus greatly expanding the potential scope of our outreach and impact.
NewsHour broadcast topics will be finalized through our advisory panel and the researchers interviewed for the stories will be selected for their expertise and skills as effective science communicators, as well as their diversity and ability to connect with youth. Finally, we will launch an outreach and community awareness campaign through strategic partnerships and coordinated cross promotion of stories through social media platforms.
Recruiting more research scientists from rural Appalachia is essential for reducing the critical public health disparities found in this region. As a designated medically underserved area, the people of Appalachia endure limited access to healthcare and accompanying public health education, and exhibit higher disease incidences and shorter lifespans than the conventional U.S. population (Pollard & Jacobsen, 2013). These health concerns, coupled with the fact that rural Appalachian adults are less likely to trust people from outside their communities, highlights the need for rural Appalachian youth to enter the biomedical, behavioral, and clinical research workforce. However, doing so requires not only the specific desire to pursue a science, technology, engineering, math, or medical science (STEMM) related degree, it also requires the more general desire to pursue post-secondary education at all. This is clearly not occurring in Tennessee’s rural Appalachian regions where nearly 75% of adults realize educational achievements only up to the high school level. Although a great deal of research and intervention has been done to increase students’ interest in STEMM disciplines, very little research has considered the unique barriers to higher education experienced by rural Appalachian youth. A critical gap in past interventions research is the failure to address these key pieces of the puzzle: combatting real and perceived barriers to higher education and STEMM pursuits in order to increase self-efficacy for, belief in the value of, and interest in pursuing an undergraduate degree. Such barriers are especially salient for rural Appalachian youth.
Our long-range goal is to increase the diversity of biomedical, clinical and behavioral research scientists by developing interventions that both reduce barriers to higher education and increase interest in pipeline STEMM majors among rural Appalachian high school students. Our objective in this application is to determine the extent to which a multifaceted intervention strategy combining interventions to address the barriers to and supports for higher education with interventions to increase interest in STEMM fields leads to increased intentions to pursue an undergraduate STEMM degree. Our hypothesis is that students who experience such interventions will show increases in important intrapersonal social-cognitive factors and in their intentions to pursue a postsecondary degree than students not exposed to such interventions. Based on the low numbers of students from this region who pursue post-secondary education and the research demonstrating the unique barriers faced by this and similar populations (Gibbons & Borders, 2010), we believe it is necessary to reduce perceived barriers to college-going in addition to helping students explore STEMM career options. In other words, it is not enough to simply offer immersive and hands-on research and exploratory career experiences to rural Appalachian youth; they need targeted interventions to help them understand college life, navigate financial planning for college, strategize ways to succeed in college, and interact with college-educated role models. Only this combination of general college-going and specific STEMM-field information can overcome the barriers faced by this population. Therefore, our specific aims are:
Specific Aim 1: Understand the role of barriers to and support for higher education in Appalachian high school students’ interest in pursuing STEMM-related undergraduate degrees. We will compare outcomes for students who participate in our interventions, designed to proactively reduce general college-going barriers while increasing support systems, to outcomes for students from closely matched schools who do not participate in these interventions to determine the extent to which such low-cost interventions, which can reach large numbers of students, are effective in increasing rural Appalachian youth’s intent to pursue STEMM-related undergraduate degrees.
Specific Aim 2: Develop sustainable interventions that decrease barriers to and increase support for higher education and that increase STEMM-related self-efficacy and interest. Throughout our project, we will integrate training for teachers and school counselors, nurture lasting community partnerships, and develop a website with comprehensive training modules to allow the schools to continue implementing the major features of the interventions long after funding ends.
This research is innovative because it is among the first to recognize the unique needs of this region by directly addressing barriers to and supports for higher education and integrating such barriers-focused interventions with more typical STEMM-focused interventions. Our model provides opportunities to assess college-going and STEMM-specific self-efficacy, outcome expectations, and barriers/supports, giving us a true understanding of how to best serve this group. Ultimately, this project will allow future researchers to understand the complex balance of services needed to increase the number of rural Appalachians entering the biomedical, behavioral, and clinical research science workforce.
The digital revolution has transformed how young people discover and pursue their interests; how they communicate with and learn from other people; and how they encounter and learn about the world around them. How can we identify best practices for incorporating new media technologies into learning environments in a way that resonates with youth, including their interests, goals, and the ways they use technology in their everyday lives? How do we resolve the need to document and recognize informal STEM learning and connect it to formal education contexts? What strategies can be developed for inspiring and tracking student progress towards the learning goals outlined in the Next Generation Science Standards (NGSS)? These questions are the underlying motivation for this CAREER program of research. Digital badges represent a specific kind of networked technology and have been touted as an alternative credentialing system for recognizing and rewarding learning across domains, both inside and outside of formal education contexts. While there is considerable enthusiasm and speculation around the use of digital badges, the extent to which they succeed at empowering learners and connecting their learning across contexts remains largely untested. This project seeks to fill this gap in knowledge. The approach taken for this program of study is a three phased design-based research effort that will be focused on four objectives: (1) identifying design principles and support structures needed to develop and implement a digital badge system that recognizes informal STEM learning; (2) documenting the opportunities and challenges associated with building a digital badge ecosystem that connects informal learning contexts to formal education and employment opportunities; (3) determining whether and how digital badges support learners' STEM identities; and (4) determining whether and how digital badges help learners to connect their informal STEM learning to formal education and employment opportunities. In Phase 1, an existing prototype created in prior work at Seattle's Pacific Science Center will be developed into a fully functional digital badge system. In Phase 2, the PI will also work collaboratively with higher education stakeholders to establish formal mechanisms for recognizing Pacific Science Center badges in higher education contexts. In Phase 3, the badge ecosystem will be expanded and students' use of and engagement with badges will be tracked as they apply to and enter college. The project involves high school students participating in the Discovery Corps program at the Pacific Science Center, undergraduate and graduate students at the University of Washington, and stakeholders in the K-12 and higher education community in Seattle. Educational activities integrated with this program of research will support: (1) mentoring University of Washington students throughout the project to develop their skills as practice-oriented researchers; (2) incorporating the research processes and findings from the project into university courses aimed at developing students' understanding of the opportunities and challenges associated with using new media technologies to support learning; and (3) using the research findings to develop educational outreach initiatives to support other informal STEM learning institutions in their use of digital badges.