This poster was presented at the 2019 Association of Science-Technology Centers (ASTC) Annual Conference. It describes the Move2Learn project, which studies embodied interactions during science learning in order to articulate design principles about how museum exhibits can most effectively encourage cognitive and physical engagement with science.
The Brains On! exploratory research study was guided by three overarching research questions:
Who is the audience for Brains On! and what are their motivations for listening to children’s science podcasts?
How are Brains On! listeners using the podcast and engaging with its content?
What kinds of impacts does Brains On! have on its audiences?
These questions were answered through a three-phase mixed-methods research design. Each phase informed the next, providing additional insights into answering the research questions. Phase 1 was a review of a sample of secondary data in the
The Brains On! exploratory research study was guided by three overarching research questions:
Who is the audience for Brains On! and what are their motivations for listening to children’s science podcasts?
How are Brains On! listeners using the podcast and engaging with its content?
What kinds of impacts does Brains On! have on its audiences?
These questions were answered through a three-phase mixed-methods research design. Each phase informed the next, providing additional insights into answering the research questions. Phase 1 was a review of a sample of secondary data in the
AHA! Island is a new project that uses animation, live-action videos, and hands-on activities to support joint engagement of children and caregivers around computational thinking (CT) concepts and practices. Education Development Center (EDC), WGBH’s research partner for the project, conducted an impact study with 108 English-speaking families (4- to 5-year-old children and their families) to test the promise of this CT learning intervention.
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TEAM MEMBERS:
Marisa WolskyHeather LavigneJessica AndrewsAshley Lewis-PresserLeslie CuellarRegan VidiksisCamille Ferguson
The data collection procedure and process is one of the most critical components in a research study that affects the findings. Problems in data collection may directly influence the findings, and consequently, may lead to questionable inferences. Despite the challenges in data collection, this study provides insights for STEM education researchers and practitioners on effective data collection, in order to ensure that the data is useful for answering questions posed by research. Our engineering education research study was a part of a three-year, NSF funded project implemented in the Midwest
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TEAM MEMBERS:
Ibrahim YeterAnastasia Marie RynearsonHoda EhsanAnnwesa DasguptaBarbara FagundesMuhsin MeneskeMonica Cardella
Computational Thinking (CT) is an often overlooked, but important, aspect of engineering thinking. This connection can be seen in Wing’s definition of CT, which includes a combination of mathematical and engineering thinking required to solve problems. While previous studies have shown that children are capable of engaging in multiple CT competencies, research has yet to explore the role that parents play in promoting these competencies in their children. In this study, we are taking a unique approach by investigating the role that a homeschool mother played in her child’s engagement in CT
For the past two decades, researchers and educators have been interested in integrating engineering into K-12 learning experiences. More recently, computational thinking (CT) has gained increased attention in K-12 engineering education. Computational thinking is broader than programming and coding. Some describe computational thinking as crucial to engineering problem solving and critical to engineering habits of mind like systems thinking. However, few studies have explored how computational thinking is exhibited by children, and CT competencies for children have not been consistently defined
Informal learning environments such as science centers and museums are instrumental in the promotion of science, technology, engineering, and mathematics (STEM) education. These settings provide children with the chance to engage in self-directed activities that can create a of lifelong interest and persistence in STEM. On the other hand, the presence of parents in these settings allows children the opportunity to work together and engage in conversations that can boost understanding and enhance learning of STEM topics. To date, a considerable amount of research has focused on adult-child
Children’s storybooks are a ubiquitous learning resource, and one with huge potential to support STEM learning. They also continue to be a primary way that children learn about the world and engage in conversations with family members, even as the use of other media and technology increases. Especially before children learn to read, storybooks create the context for in-depth learning conversations with parents and other adults, which are the central drivers of STEM learning and development more broadly at this age. Although there is a body of literature highlighting the benefits of storybooks
This study addresses the increasing interest in family learning in informal settings by investigating strategies to better engage families in science talk and practices. As part of a larger design-based research study, we examine how scientists and parents use think-pair-share discussion prompts to support families’ understandings about local community water sources and facilitate experimentation with a surface and underground water model. Grounded in sociocultural theory of learning, we focus on parent-child interactions and family sensemaking. We analyzed four water quality workshops with 44
Hispanic youths have traditionally been marginalized from participation in STEM careers, though efforts have been made to increase diversity in STEM careers through targeted learning interventions for these students. However, these efforts often do not purposefully address STEM identity formation, which is a construct closely related to career choice in STEM. Building on previous work that highlights the value of “science talk”, we focus on the childhood experiences of Hispanic/Latine college students that have informed the construction of their STEM identity and contributed to their decisions
Emerging research suggests that families are key to developing the science interests and career aspirations of youth. In order to increase the diversity and numbers of individuals choosing to pursue STEM careers, it is important to better understand the factors that influence career aspirations. The influence parents have on their children’s career aspirations comes from many factors including their science capital and family science habitus. This study examined the influence of a museum-based family STEM program geared to increase the STEM career aspirations of elementary youth on the parent