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  1. ; ; ( , Journal of Engineering Education)
    Abstract Background

    Research points to family talk and interactions involving STEM concepts as one of the most influential informal learning experiences that shape an individual's STEM identity development and encourage their pursuit of a STEM career. However, a recent literature review uncovers limited research regarding the development of engineering identity in young children.

     Purpose

    The purpose of this study was to add to this scant literature by exploring how children position themselves as engineers and how children are positioned as engineers through interactions with parents and other adults within a program focused on family engagement within an engineering design process.

     Methods

    This study includes two parent–child dyads. We collected and analyzed approximately 19.5 h of video data of the two child–parent dyads interacting with one another throughout an engineering design process as part of an out‐of‐school program.

     Results

    Results highlight three ways in which the two children enacted various engineering identities through their positioning, negotiation, and acceptance and/or rejection of positionalities as they engaged in an engineering design process with a parent. These identity enactments included (a) possessing knowledge and authority to make decisions regarding the development of their self‐identified engineering problem and prototype; (b) questioning and challenging adult ideas, solutions, and construction of prototypes; and (c) documenting and communicating their thinking regarding the engineering design through sketches and notes.

     Conclusions

    The significance of this study lies in its potential to change the landscape of those who pursue an engineering career and to contribute to the limited research and ongoing conversations about how to foster environments that support families in creative and collaborative learning specific to the engineering discipline.

     
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  2. ( , Proceedings of the 17th International Conference of the Learning Sciences - ICLS 2023)
    Blikstein, P. (Ed.)
    The home environment is a critical context in which children engage in STEM activities. Caregivers serve as key influencers on their children’s engagement in these activities. This case study of four families explored how caregivers support their child(ren) during moments of problem-solving while completing engineering activities at home and illustrated the variation in caregiver support, caregiver participation/child agency, problem-solving strategies used, and integration of activities into the home. Our findings suggest we need to be purposeful in designing kit activities and supports for caregivers that will contribute to meaningful interactions during STEM activities that draw upon the unique relationship between caregivers and their children in the home. 
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  3. ; ( , Journal of Pre-College Engineering Education Research (J-PEER))
    Full Text Available 
  4. ; ; ; ( , Thinking Skills and Creativity)
    Full Text Available 
  5. ; ; ; ; ; ; ( , Zone 1 Conference of the American Society for Engineering Education)
    Caregivers are critical to children’s academic and social growth and development. As an adult who provides direct care and support, caregivers play a large role in what concepts and experiences children are exposed to, engage with, and pursue. A growing body of research has highlighted how caregiver influence manifests within out-of-school contexts, yet less is known about the impact of out-of-school learning and engagement from the perspectives of caregivers themselves. This study explored experiences and shifts in caregiver perceptions of shifts within themselves and their children through participation in an out-of-school home-based engineering program. Data were derived from post-program interviews with over 20 participating caregivers from three years of the program. Results illuminate various experiences and shifts in caregiver self-perception and understanding of their children’s learning and development. Specifically, these shifts included enhanced self-reflection and introspection, positive shifts in caregiver interactions with children, and observed increases in self-efficacy and complex thinking within children. Findings contribute to a growing body of knowledge of family engagement and the distinct perspective that caregivers can provide on children’s learning. Further, shifts in caregiver self-concept and self-efficacy in engaging in engineering content make a unique contribution and provide insights into ways that caregiver engagement in out-of-school learning might be adapted to incorporate more accessible learning opportunities, especially those that occur in the home. 
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    Accepted Manuscript Full Text Available
  6. ; ; ( , Early Childhood Education Journal)
    Full Text Available 
  7. ; ( , Zone 1 Conference of the American Society for Engineering Education)
    Research on interactions between caregivers and children have long been reported in science museum experiences. However, the interactions between caregivers and children in home environments are rarely investigated. By comparison, research on the experience of the engineering design challenge activities in a family context is even less. This case study aimed to examine interactions of two families in their home as they engaged with engineering design challenge kits that have the potential to support children’s foundational understanding of STEM concepts. Using social-cultural constructivism as a lens, about 370 minutes of video data was analyzed. Data coding revealed three types of interactions that facilitated children’s understanding of STEM concepts: teaching, build up, and synthesized moments. These three moments were interdependent but included different emphasis of caregivers’ and children’s engagement. Although there is a limitation of this study to generalize the findings, our results contribute to understand how caregivers and children play with the materials, tools, and their ideas in their home environments and how caregivers used different facilitation approaches without any training prior to engaging with the engineering kits. 
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    Accepted Manuscript Full Text Available
  8. ; ( , North American Chapter of the International Group for the Psychology of Mathematics Education)
    null (Ed.)
    Full Text Available