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 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 would expand the informal STEM learning field's understanding of how to use digital science media to increase STEM educational experiences and opportunities for English language learners. Across the U.S. there are significant STEM opportunity and achievement gaps for English learners with varying levels of English proficiency. This is at a time when the U.S. is facing a shortage of STEM professionals in the workforce including the life and physical science fields. This project aims to close these gaps and improve English learners' STEM learning outcomes using digital media. Within community colleges, there are multiple site-based programs to provide content to help English learners to learn English and to improve their math and literacy skills. Involving the state community college networks is a critical strategy for gathering important feedback for the pedagogical approach as well as for recruiting English learner research participants. The team will initially study an existing YouTube chemistry series produced by Complexly then produce and test new videos in Spanish using culturally relevant instructional strategies. The target audience is 18-34-year-old English learners. Project partners are Complexly, a producer of digital STEM media and EDC, a research organization with experience in studying informal STEM learning.
The project has the potential to advance knowledge about the use of culturally relevant media to improve STEM opportunities and success for English language learners. Using a Design-Based Implementation Research framework the research questions include: 1) what are the effective production and instructional strategies for creating digital media to teach science to English learners whose native language is Spanish? 2) what science content knowledge do English learners gain when the project's approach is applied to a widely available set of YouTube videos? and 3) how might the findings from the research be applied to future efforts targeting English learners? The project has the potential to significantly broaden participation in science and engineering. Phase 1 of the research will be an exploration of how to apply strategic pedagogical approaches to digital media content development. Interviews will be conducted with educators in 3 focal states with high numbers of English language learners (NY, CA, TX) to reflect on pedagogical foundations for teaching science to English learners. A survey of 30 English learners will provide feedback on the perceived strengths and weaknesses of a selection of existing YouTube chemistry videos. Phase 2 will create/test prototypes of 6 adapted chemistry videos. Forty students (ages 18-34) will be recruited and participate in cognitive interviews with researchers after viewing these videos. Based on this input additional videos will be produced with revised instructional strategies for further testing. Additional rounds of production and testing will be conducted to develop an English learners mini chemistry series. Phase 3 will be a pilot study to gauge the science learning of 75 English learners who will view an 11-episode chemistry miniseries. It will also identify gaps in expected learning to determine whether any further adjustments are necessary to the instructional approach.
This Innovations in Development 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:
Kelsey SavageCeridwen RileyStan MullerHeather LavigneCaroline ParkerKatrina Bledsoe
Inequalities in scientific knowledge are the subject of increasing attention, so how factual science knowledge is measured, and any inconsistencies in said measurement, is extremely relevant to the field of science communication. Different operationalizations of factual science knowledge are used interchangeably in research, potentially resulting in artificially comparable knowledge levels among respondents. Here, we present data from an experiment embedded in an online survey conducted in the United States (N = 1,530) that examined the distribution of factual science knowledge responses on a
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TEAM MEMBERS:
Meaghan McKasyMichael CacciatoreLeona Yi-Fan SuSara YeoLiane O’Neill
Girls met to engage with Through My Window twice each week after school. The afterschool program format provided a freer, less structured atmosphere than a classroom setting. Students extensively debated and investigated the questions and themes posed by the novel, Talk to Me. The meeting space had plenty of space for students to move around, as well as teachers who encouraged the expression of full emotional and intellectual enthusiasm for the story at hand.
East Longmeadow implemented Through My Window in two seventh grade classrooms, each teaching different subjects—creative reading and STEAM. Students used the print and audio versions of Talk to Me, and read or listened to the book independently and together, in class and at home. They also participated in both online and offline activities that, along with the book, helped them engage with ideas and propose solutions related to engineering challenges.
In prior research and development, the project team developed a StoryWorld, a computer-based intervention for English Learners (ELs) that presents children oral and written narratives in English while also providing the information in their first language. With this Phase I funding, the team will develop and test a prototype of a web-based dashboard that provides EL teachers real-time reports on children's progress in areas including for vocabulary, comprehension, fluency, and proficiency. At the end of Phase I, in a pilot study in three first grade classrooms, the researchers will examine whether the prototype functions as planned, is easy to use, and provides information teachers can understand and use to inform their language and literacy instruction?
Abstract
In 2011, Donna DiBartolomeo and Zachary Clark enrolled in the Arts in Education Program at Harvard Graduate School of Education. Harvard Graduate School of Education is home to Project Zero, an educational research group comprising multiple, independently funded projects examining creativity, ethics, understanding, and other aspects of learning and its processes. Under the guidance of Principal Investigator Howard Gardner and Project Manager Katie Davis, the authors were tasked with developing a methodology capable of observing finegrained, objective detail in complete works of
In this book, Brian G. Southwell discusses how disparities in information-sharing arise and what can be done to alleviate them. In all sorts of ways and for all sorts of reasons, people have always sought to share information among their family and other social networks. However, this sharing has never been equal: inevitably, some people are better-informed than others and some are more socially-connected than others. At first glance, the plethora of communication tools and technologies available nowadays should help democratise information and reduce disparity but differences in how, when and
This poster was presented at the 2016 Advancing Informal STEM Learning (AISL) PI Meeting held in Bethesda, MD on February 29-March 2. How can we come to terms with the complex social impact of new cutting-edge fields like synthetic biology, robotics, genetics and
machine learning? In order to manage these transformative changes, people not only need to understand science and technology, but also to actively participate in shaping a world where our ability to control the building blocks of life and cognition is vastly expanded. The Transmedia Museum will use the interactive, engaging nature of
As infographics and other visual forms of data become increasingly common, many educators wonder how to best integrate them into learning activities. Polman and Gebre interviewed 10 experts in science representation to understand common practices they used for selecting and interpreting infographics. The authors build on study results to generate guidelines for educators' use of infographics.
Polman, Newman, Saul, and Farrar reflect on six years of work with a science journalism program for teens that fosters a version of science literacy centered on developing fluency in the application and use of science in personal life.
'TV411 What's Cooking?' provides adults with low levels of literacy and numeracy with access to a free multi-media resource which delivers mathematics and science content in the form of an online cooking show. This series builds on a prior NSF planning grant (DRL 07-75623) and the research-based design of the TV411 educational materials while addressing biochemical, physical, and mathematical processes that occur in cooking and daily life. The project will be managed by the Education Development Center's Adult Literacy Media Alliance (ALMA) project, in partnership with the Public Internet Channel, a New York-based Head Start Program, and formal education partners. The project's goals are to raise awareness of math and science content in daily life, overcome negative attitudes and behaviors related to science learning, and increase knowledge, vocabulary, and skills related to science and math while building capacity to use informal science education resources. Additional goals are to increase the capacity level of adult educators and informal workshop facilitators to teach basic math and science concepts. Finally, the project is designed to research strategies in which low-literacy adult learners utilize informal math and science resources in a Web 2.0 environment. Deliverables include six video segments that embed basic literacy and numeracy concepts in a cooking show format, 12 interactive web activities including games and simulations, and a reconstructed TV411 Online website with Web 2.0 features. In year 2, Spanish language videos and web lessons, customized toolkits for The Public Internet Channel, workshop materials for parents, and articles and reports for dissemination to education and informal learning networks nationwide are produced. The videos will be distributed on TV411 Online and the Public Internet Channel (pic.tv). The mixed-methods evaluation addresses four impact categories (awareness, engagement, attitudes, and behavior). An embedded evaluation approach will be used to determine knowledge gains, while behavioral and attitudinal questions will be asked separately in two web surveys given to random sample of 500 website visitors. Interviews are used to determine teacher perceptions of usability and effectiveness of materials. 'TV411 What's Cooking?' is projected to attract 1.5 million website visitors in the first year and an additional 500,000 each subsequent year. This well-researched project advances adult literacy and numeracy, while providing students participating in GED, adult basic education, and informal community-based programs with engaging STEM content.