More Like this

1. Adding Family Math to the Equation: Promoting Head Start preschoolers’ mathematics learning at home and school

   https://doi.org/10.1016/j.ecresq.2022.11.002  

   Young, J. M. (January 2023, Early childhood research quarterly)

   Differences in children’s mathematics knowledge are evident at kindergarten entry, favoring children who have greater access to economic resources. Fostering preschoolers’ mathematics learning at home and in classroom settings, through games and other developmentally appropriate activities, is of great interest to educators, early childhood leaders, and policymakers. This cluster randomized trial examined the ef- fects of a naturalistic, game-based mathematics intervention implemented in Head Start classrooms and examined whether including a family math component added value. A total of 573 children (64% His- panic; 60% multilingual) were included from 66 classrooms which were randomly assigned to Classroom Math (CM), Classroom Math + Family Math (CM+FM), or business-as-usual (BAU). Results indicated that the family math component did add value to the classroom-based intervention as CM+FM resulted in a significant positive impact on children’s mathematics knowledge relative to BAU, but CM alone did not. For preschoolers age 50+ months, both interventions had significant effects on children’s mathemat- ics knowledge relative to BAU, but CM+FM had a stronger effect (d = .36). The number of math games played was significantly associated with higher mathematics scores and the number of family math mini- books returned had a significant impact on children’s spring scores, over and above the number of games played. The CM+FM intervention also had a significant effect on teachers’ instructional practice (d =.79). Adding a family math component to a game-based classroom intervention resulted in positive impacts for preschoolers and seems to be an effective, ecologically valid intervention that fosters early mathematical competencies. 

   more » « less
2. STEM Moments in the Family Context throughout Engineering Design Challenge Activities

   Kim, Jungsun; Simpson, Amber (January 2021, American Society for Engineering Education)

   null (Ed.)

   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. 

   more » « less
3. STEM Moments in the Family Context throughout Engineering Design Challenge Activities (Fundamental)

   Kim, J.; Simpson, A. (July 2021, 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. 

   more » « less
4. Parental perspectives: Examining caregiver experiences and perceptions of growth and learning within an out-of-school elementary engineering program

   Knox, Peter; Paul, Kelli; Kim, Jungsun; Yang, Jing; Werfelli, Sawsan; Simpson, Amber; Maltese, Adam V. (July 2022, 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. 

   more » « less
5. Linking parents’ play strategies with their preschoolers’ STEM skills: The mediating roles of child STEM talk and self-regulated learning

   https://doi.org/10.1016/j.jecp.2024.106095  

   Mannweiler, Morgan D; Bierman, Karen L; Liben, Lynn S (January 2025, Journal of Experimental Child Psychology)

   Previous studies document associations between parents’ use of guided play strategies and children’s STEM skills. We extended existing research by exploring mediating mechanisms that may account for these links. Parents played with their preschool children (N=75; 49% girls, 51% boys; 94% White, 3% Black, 1% Biracial, 1% Asian, 1% Native American; Mage = 4.82 years), undertaking a building challenge. Videotaped play was coded for parents’ guiding STEM talk (density of math, spatial, and scientific inquiry language) and management strategy (high- vs. low-directiveness). Mediators included children’s STEM talk during play and self-regulated learning (assessed by executive function tests and examiner’s ratings of children’s task orientation). Structural equation models confirmed hypothesized mediated paths from parent STEM talk to child math (but not spatial) skills via child STEM talk, and from parent STEM talk and directiveness to child math and spatial skills via child self-regulated learning. We discuss implications for future research and intervention design. 

   more » « less