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.
Having a central scientific language remains crucial for advancing and globally sharing science. Nevertheless, maintaining one dominant language also creates barriers to accessing scientific careers and knowledge. From an interdisciplinary perspective, we describe how, when, and why to make scientific literature more readily available in multiple languages through the practice of translation. We broadly review the advantages and limitations of neural machine translation systems and propose that translation can serve as both a short- and a long-term solution for making science more resilient
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TEAM MEMBERS:
Emma SteigerwaldValeria Ramírez-CastañedaDébora Y C BrandtAndrás BáldiJulie Teresa ShapiroLynne BowkerRebecca D Tarvin
The COVID-19 pandemic tested many fundamental connections between science and society. A growing field working to strengthen those connections exists within the informal STEM learning (ISL) community which provides diverse learning and engagement environments outside the formal classroom. One of the largest funders of ISL initiatives is the National Science Foundation (NSF) which runs the Advanced Informal STEM Learning (AISL) program in the United States. The AISL program supports initiatives through six categories that include pilots and feasibility studies, research in service to practice
Increasing the diversity of the Science, Technology, Engineering, and Mathematics (STEM) workforce hinges on understanding the impact of the many related, pre-college experiences of the nation’s youth. While formal preparation, such as high school course-taking, has a major influence, research has shown that out-of-school-time activities have a much larger role in shaping the attitudes, identity, and career interests of students, particularly those who are members of groups historically underrepresented in STEM fields (Black, Indigenous, Latinx, and/or Pacific Islander). A wide range of both innovative adult-led (science clubs, internships, museum-going, competitions, summer camps) and personal-choice (hobbies, family talk, games, simulations, social media, online courses) options exist. This project studies the variety and availability such experiences to pre-college students. The project is particularly interested in how community cultural capital is leveraged through informal activities and experiences, drawing upon the “funds of knowledge” that culturally diverse students bring to their STEM experiences (e.g., high aspirations, multilingual facility, building of sustaining social networks, and the capacity to challenge negative stereotyping). This study has the capability to begin to reveal evidence-based measures of the absolute and relative effectiveness of promising informal educational practices, including many developed and disseminated by NSF-funded programs. Understanding the ecology of precollege influencers and the hypotheses on which they are based, along with providing initial measures of the efficacy of multiple pathways attempting to broaden participation of students from underrepresented groups in STEM majors and careers, will aid decision-making that will maximize the strategic impact of federal and local efforts.
The project first collects hypotheses from the wide variety of stakeholders (educators, researchers, and students) about the kinds of experiences that make a difference in increasing students’ STEM identity and career interest. Identifying the descriptive attributes that characterize opportunities across individual programs and validating a multi-part instrument to ascertain student experiences will be carried out through a review of relevant literature, surveying stakeholders using crowdsourced platforms, and through in-depth interviews with 50 providers. A sample of 1,000 students from 2- and 4-year college and universities, drawn from minority-serving institutions, such as Historically Black Colleges, Hispanic Serving Institutions, and Tribal Colleges and Universities will serve to establish the validity and reliability of the derived instrument and provide estimates of the availability and frequency of involvement. Psychometric methods and factor analysis will guide us in combining related variables into indices that reflect underlying constructs. Propensity score weighting will be employed for estimating effects when exposure to certain OST activities is confounded with other factors (e.g., parental education, SES). Path models and structural equation models (SEM) will be employed to build models that use causal or time related variables, for instance, students’ career interests at different times in their pre-college experience. The study goes beyond evaluation of individual experiences in addressing important questions that will help policy makers, educators, parents, and students understand which OST opportunities serve the diverse values and goals of members of underrepresented groups, boosting their likelihood of pursuing STEM careers. This project is co-funded by the Advancing Informal STEM Learning (AISL) and EHR CORE Research (ECR) programs.
This Innovations in Development project explores radical healing as an approach to create after-school STEM programming that welcomes, values and supports African American youth to form positive STEM identities. Radical healing is a strength-based, asset centered approach that incorporates culture, identity, civic action, and collective healing to build the capacity of young people to apply academic knowledge for the good of their communities. The project uses a newly developed graphic novel as a model of what it looks like to engage in the radical healing process and use STEM technology for social justice. This graphic novel, When Spiderwebs Unite, tells the true story of an African American community who used STEM technology to advocate for clean air and water for their community. Youth are supported to consider their own experiences and emotions in their sociopolitical contexts, realize they are not alone, and collaborate with their community members to take critical action towards social change through STEM. The STEM Club activities include mentoring by African American undergraduate students, story writing, conducting justice-oriented environmental sciences investigations, and applying the results of their investigations to propose and implement community action plans. These activities aim to build youth’s capacity to resist oppression and leverage the power of STEM technology for their benefit and that of their communities.
Clemson University, in partnership with the Urban League of the Upstate, engages 100 predominantly African American middle school students and 32 African American undergraduate students in healing justice work, across two youth-serving, community-based organizations at three sites. These young people assume a leadership role in developing this project’s graphic novel and curriculum for a yearlong, after-school STEM Club, both constructed upon the essential components of radical healing. This project uses a qual→quant parallel research design to investigate how the development and use of a graphic novel could be used as a healing justice tool, and how various components of radical healing (critical consciousness, cultural authenticity, self knowledge, radical hope, emotional and social support, and strength and resilience) affect African American youths’ STEM identity development. Researchers scrutinize interviews, field observations, and project documents to address their investigation and utilize statistical analyses of survey data to inform and triangulate the qualitative data findings. Thus, qualitative and quantitative data are used to challenge dominant narratives regarding African American youth’s STEM achievements and trajectories. The project advances discovery and understanding of radical healing as an approach to explicitly value African Americans’ cultures, identities, histories, and voices within informal STEM programming.
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TEAM MEMBERS:
Renee LyonsRhondda ThomasCorliss Outley
The Westchester Children’s Museum will develop Full STEAM (Science, Technology, Engineering, Art, and Math) Ahead, an integrated, module-based sequence of hands-on STEAM workshops adaptable for both in-person and virtual teaching for high-need 2nd to 6th grade students at Thomas Cornell Academy in Yonkers, NY and Waterside School in Stamford, CT. Project activities include program development, preparation, delivery, and evaluation to create programs that are replicable and sustainable while leveraging the museum’s resources to demonstrate how it can support their communities in need during unprecedented times. Full STEAM Ahead anticipates reaching 300 students from low-income and economically disadvantaged families.
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.
This project is funded by the EHR Core Research (ECR) program, which supports work that advances fundamental research on STEM learning and learning environments, broadening participation in STEM, and STEM workforce development. It responds to continuing concerns about racial and social inequities in STEM fields that begin to emerge in the early childhood years. The overarching goal of the project is to identify cultural strengths that support early science learning opportunities among Spanish-speaking children from immigrant Latin American communities, a population that is traditionally underrepresented in STEM educational and career pursuits. Building on a growing interest in the ways stories can promote early engagement in and understanding of science, this project will investigate the role of oral and written stories as culturally relevant and potentially powerful tools for making scientific ideas and inquiry practices meaningful and accessible for young Latinx children. Findings will reveal ways that family storytelling practices can provide accessible entry points for Latinx children's early science learning, and recommend methods that parents and educators can use to foster learning about scientific practices that can, in turn, increase interest and participation in science education and fields.
The project will advance knowledge on the socio-cultural and familial experience of Latinx children that can contribute to their early science learning and skills. The project team will examine the oral story and reading practices of 330 Latinx families with 3- to 5-year-old children recruited from three geographic locations in the United States: New York, Chicago, and San Jose. Combining interviews and observations, the project team will investigate: (1) how conversations about science and nature occur in Latinx children's daily lives, and (2) whether and to what extent narrative and expository books, family personal narratives, and adivinanzas (riddles) engender family conversations about scientific ideas and science practices. Across- and within-site comparisons will allow the project team to consider the immediate ecology and broader factors that shape Latinx families’ science-related views and practices. Although developmental science has long acknowledged that early learning is culturally situated, most research on early STEM is still informed by mainstream experiences that largely exclude the lived experiences of children from groups underrepresented in STEM, especially those who speak languages other than English. The proposed work will advance understanding of stories as cultural resources to support early science engagement and learning among Latinx children and inform the development of high quality, equitable informal and formal science educational opportunities for young children.
The Discovery Center at Murfree Spring will partner with Mid-Cumberland Head Start to launch the SPARK! Head Start program to reach under-resourced early learners, families, and teachers in Rutherford County, Tennessee. Building on its successful STEM programming that integrates science with children's books, the museum will increase connections between science and literacy skills for 132 pre-K children ages three to five, and enhance the capacity of 16 teachers and two administrators within Rutherford County. Head Start will integrate and embed literacy and science process skills through hands-on STEM activities linked to children's literature and best practices. The project will also include programming designed to increase family engagement in STEM at the museum and at partnering Head Start centers.
Snow: Tiny Crystals, Global Impact is a 2,500 ft traveling exhibition about: how snow shapes and sustains life on Earth, the impacts of climate change on snow, and the importance of our collective engagement to take action. The exhibition will be installed at OMSI during winter 2021-2022 for summative evaluation and learning research.
This poster was presented at the 2021 NSF AISL Awardee Meeting.
This poster was presented at the 2021 NSF AISL Awardee Meeting.
To engage youth in global challenges such as energy issues, students’ own community can serve as personally relevant venues for scientific inquiry. For example, after students learn about heat transfer in school, they can use this knowledge to inspect the energy efficiency of their own schools and public buildings in their neighborhood.
To bridge the gap between school science and citizen science, students need scientific instruments that can be used both in and out of school and a community to share their discoveries.
The September/October 2021 issue of Informal Learning Review (ILR) reflects on the state of the field during the ongoing pandemic, and the ways in which institutions are adapting to the "new normal."