The STEAM Para Todos project will transform a prominent exhibit in the Marbles Kids Museum into a vibrant space that fosters culturally relevant STEAM learning and exploration for all museum visitors, particularly the growing Hispanic, dual-language learner population in Wake County, N.C. The three-year project will involve research, testing, design, installation, and evaluation. The museum will work with the school system, STEM partners, the local arts community, and organizations engaged with the Hispanic community to develop the exhibit. Guiding the project will be a community of practice, comprised of museum professionals; researchers with expertise in STEAM education, dual language learners, and culturally responsive informal learning; partners from STEM businesses; creative arts organizations; the Wake County Public School System; and stakeholders from the exhibit's intended audience. Project partners include Wake County Public School System, Que Pasa, US2020, Visual Arts Exchange, North Carolina Society of Hispanic Professionals, and Google Fiber.
The Children's Museum at La Habra's Lil' Innovators Early Childhood STEM project will increase STEM skill and engagement among early childhood preschool teachers, disadvantaged preschoolers, and their parents. Delivered in partnership with three of La Habra's Head Start and California State Preschool program schools, the project will provide 224 preschoolers and 20 teachers with a year-long program offering increased developmental skills in STEM for underserved, low-income Hispanic students who are primarily English Language Learners. Teacher outcomes will include improved strategies for teaching STEM and increased teaching quality of STEM subjects. Parent outcomes include increased belief in the importance of STEM and increased ability to support their child's STEM learning. The standards-based education project will improve the museum's ability to serve its public by creating a community of practice consisting of a network of administrators, educators, and evaluators who will work together to improve the quality of STEM education for the youngest learners in this academically-challenged community.
Hero Elementary is a transmedia educational initiative aimed at improving the school readiness and academic achievement in science and literacy of children grades K-2. With an emphasis on Latinx communities, English Language Learners, youth with disabilities, and children from low-income households, Hero Elementary celebrates kids and encourages them to make a difference in their own backyards and beyond by actively doing science and using their Superpowers of Science. The project embeds the expectations of K–2nd NGSS and CCSS-ELA standards into a series of activities, including interactive games, educational apps, non-fiction e-books, hands-on activities, and a digital science notebook. The activities are organized into playlists for educators and students to use in afterschool programs. Each playlist centers on a meaningful conceptual theme in K-2 science learning.
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TEAM MEMBERS:
Joan FreeseMomoko HayakawaBryce Becker
In spring 2019, WestEd conducted a pilot study using five playlists to understand the feasibility of implementing the playlists in afterschool programs and to discuss the potential impact of the playlists on student science learning. The research questions were: 1) How are the playlists implemented in after-school programs? 2) What is the potential impact of playlists on student science knowledge and skills? Student science knowledge was measured using the ScienceQuest test, and attitudes towards science were measured by the Emerging STEM Learning Activation Survey. Data were analyzed using a
Described by Wohlwend, Peppler, Keune and Thompson (2017) as “a range of activities that blend design and technology, including textile crafts, robotics, electronics, digital fabrication, mechanical repair or creation, tinkering with everyday appliances, digital storytelling, arts and crafts—in short, fabricating with new technologies to create almost anything” (p. 445), making can open new possibilities for applied, interdisciplinary learning in science, technology, engineering and mathematics (Martin, 2015), in ways that decenter and democratize access to ideas, and promote the construction
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TEAM MEMBERS:
Jill CastekMichelle Schira HagermanRebecca Woodland
For at-risk children who cannot attend preschool, accessing science activities depends almost entirely on parents—but many parents have limited skills for supporting such learning. PBS station WGBH has recently launched a series of free family apps based on the Emmy Award-winning preschool science series, PEEP and the Big Wide World. The apps were developed to be used jointly by parent and child for a shared learning experience. Available on Google Play and the App Store in both Spanish and English, PEEP Family Science apps cover the topics of shadows, sound, color, and ramps, respectively.
This paper contributes a theoretical framework informed by historical, philosophical and ethnographic studies of science practice to argue that data should be considered to be actively produced, rather than passively collected. We further argue that traditional school science laboratory investigations misconstrue the nature of data and overly constrain student agency in their production. We use our “Data Production” framework to analyze activity of and interviews with high school students who created data using sensors and software in a ninth-grade integrated science class. To understand the
Intellectual Merit: Project RESET utilized a responsive teaching approach to engage youth in critical STEM literacy on the topic of climate change. Video recordings of the afterschool program, artifacts from the program, and interviews with youth were analyzed to better understand how youth supported each other’s participation in science discourse. The team outlined four themes of critical STEM literacy (CSL) and identified a “constellation” of knowledge, dispositions, and practices within each of those themes. Finally, Project RESET demonstrated the potential benefits of multi-modal analysis
Youth from non-dominant racial and linguistic backgrounds often have limited access to school science learning opportunities. Afterschool settings may provide learning environments in which they improve science knowledge and construct positive science identities. With this premise, our research team designs and provides a community-based afterschool program that engages resettled Burmese refugee youth in STEM learning. In this paper, we seek to understand how refugee youth utilize their funds of knowledge and what identities were foregrounded in the program. We adapt a micro-ethnographic
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TEAM MEMBERS:
Minjung RyuMavreen Rose Sta. Ana TuvillaCasey Elizabeth Wright
This project will incorporate lessons learned from our previously funded SEPA, based in five Title I elementary schools in the District of Columbia and Prince George’s County Maryland. In this proposal, “SCIENCE” will engage a new audience of learners in their out of school time in the setting of community libraries. We will provide programming that uses hands- on, inquiry-based learning based on our established art and science curriculum designed to improve the physical, cognitive and social development of children and their families.
SCIENCE will include instructional units, web based activities and ‘hands on/brains on’ manipulation utilizing our compact, portable and unique “art and science in a box”, which consolidates all materials needed to bring excitement to STEM learning. We will focus on preventative health areas of concern to our community, including asthma, stress, cardio-metabolic risk, sleep and behavioral issues, including bullying, genetic diseases like sickle cell disease and, injury prevention at home, in school and with sports.
We will also provide professional development training for informal educators. Specifically, we will adapt our previously successful in-school curriculum for a broader group of children from grades K–5 who utilize the District of Columbia Public Libraries (DCPL) and Enoch Pratt Free Library (EPFL). The curriculum is aligned to both Common Core State Standards and Next Generation Science Standards, and will be expanded with the addition of bioengineering/imaging/computing, and mindfulness.
With our integrated-art focused STEM and preventative health educational program, we will empower children by encouraging curiosity and discovery as well as providing tools to incorporate health and science messaging to improve school readiness. Over the course of the five years, we will implement the program progressively in 10 DCPL branches and 2 Baltimore branches. Programming will take place during winter and spring breaks, professional development days, special holidays and weekends.
We will continue our successful one week hospital summer program, Dr. Bear’s Summer Science Experience, an interactive STEAM experience which takes place in the hospital and its research laboratories. In addition to student focused programming, we will also create Family Learning Events—entertaining and collaborative programs for families—to be held in DCPL and EPFL branches with a focus on disease prevention which adversely affects our community. Take home materials will include handouts, web resources, apps and links in in both English and Spanish, and will focus on reading readiness and mastery of STEM concepts.
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 will develop and test intergenerational science media resources for parents that are participating in adult education programs and their young children. The materials will build on the research-based and successful children's television program, Fetch with Ruff Ruffman. The target audience includes parents enrolled in adult education programs who lack a high school diploma or are in English as a Second Language classes. These resources will support parents' engagement in science activities with their children both in the adult education settings as well as at home. Adult and family educators will receive professional development resources and training to support their integration of the parent/child activities. Project partners include the National Center for Families Learning, Kentucky Educational Television, and Alabama Public Television,
The goals of the Ruff Family Science project are to: (1) investigate adult education settings that feature an intergenerational learning model, in order to learn about the unique characteristics of adults and families who are enrolled in these programs; (2) examine the institutional circumstances and educator practices that support joint parent/child engagement in science; (3) iteratively develop new prototype resources meet the priorities and needs of families and educators involved in intergenerational education settings; and (4) develop the knowledge needed to create a fuller set of materials in the future that will motivate and support diverse, low-income parents to investigate science with their children. The research strategy is comprised of three main components: Phase 1: Needs Assessment: Determine key motivations and behaviors common to adult education students who are also parents; surface obstacles and assets inherent in these parents' current practices; and examine the needs and available resources for supplementing parents' current engagement in family science learning. Phase 2: Prototype Development: Iteratively develop two prototype Activity Sets, along with related educator supports and training materials, designed to promote joint parent-child engagement with English and Spanish-speaking families around physical science concepts. Phase 3: Prototype Field Test: Test how the two refined prototype Activity Sets work in different educational settings (adult education, parent education, and parent and child together time). Explore factors that support or impede effective implementation. Sources of data for the study include observations of adult and parent education classes using an expert interview protocol, focus groups, adult and family educator interviews, and parent surveys.