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1. Promoting children’s science, technology, engineering, and mathematics learning at home through tinkering and storytelling

   https://doi.org/10.3389/fpsyg.2023.1146063  

   Marcus, Maria; Solis, Graciela; Sellars, Shelby; Haden, Catherine A. (May 2023, Frontiers in Psychology)

   This study examined whether connecting storytelling and tinkering can advance early STEM (science, technology, engineering, and mathematics) learning opportunities for children. A total of 62 families with 4- to 10-year-old ( M  = 8.03) children were observed via Zoom. They watched a video invitation to tinker at home prepared by museum educators prior to tinkering. Then, half of the families were prompted to think up a story before tinkering (story-based tinkering group), whereas the other half were simply asked to begin tinkering (no-story group). Once they had finished tinkering, researchers elicited children’s reflections about their tinkering experience. A subset of the families ( n  = 45) also reminisced about their tinkering experience several weeks later. The story instructions provided before tinkering engendered children’s storytelling during tinkering and when reflecting on the experience. Children in the story-based tinkering group also talked the most about STEM both during tinkering, and subsequently when reminiscing with their parents about their tinkering experience. 

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2. A Month‐Long Parent‐Led Spatial Intervention Failed to Improve Children's Spatial Skills

   https://doi.org/10.1111/mbe.70013  

   Tian, Jing; Bennett‐Pierre, Grace; Tavassolie, Nadia; Zhang, Xinhe; D'Antonio, Emily; Sylverne, Lexi; Newcombe, Nora S; Weinraub, Marsha; Hindman, Annemarie; Newton, Kristie; et al (August 2025, Mind, Brain, and Education)

   The frequency of home spatial activities (e.g., puzzles and blocks) correlates with young children's spatial skills, but causal evidence is limited. We addressed this issue by comparing the effects of a parent‐led intervention aimed at increasing spatial activities to an active control targeting narrative activities (preregistered:https://osf.io/u7qrx). Parents of 80 4‐ and 5‐year‐old children were randomly assigned to either a spatial or narrative condition. Parents learned about the importance and malleability of spatial or narrative skills and engaged their children in spatial or narrative activities provided by the researchers for a month. Unexpectedly, the spatial intervention did not significantly enhance children's spatial skills or parents' motivational beliefs regarding children's spatial abilities. These findings do not support the hypothesis that spatial play causally influences children's skills. However, we note that the families in our sample had high socioeconomic status, and their children may have already benefited from rich spatial environments. 

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3. How does caregiver–child conversation during a scientific storybook reading impact children's mindset beliefs and persistence?

   https://doi.org/10.1111/cdev.14107  

   Haber, Amanda S; Kumar, Sona C; Leech, Kathryn A; Corriveau, Kathleen H (September 2024, Child Development)

   Abstract This study explores how caregiver–child scientific conversation during storybook reading focusing on the challenges or achievements of famous female scientists impacts preschoolers' mindset, beliefs about success, and persistence. Caregiver–child dyads (N = 202, 100 female, 35% non‐White, aged 4–5, ƒ = .15) were assigned to one of three storybook conditions, highlighting the female scientist'sachievements,effort, or, in abaselinecondition, neither. Children were asked about their mindset, presented with a persistence task, and asked about their understanding of effort and success. Findings demonstrate that storybooks highlightingeffortare associated with growth mindset, attribution of success to hard work, and increased persistence. Caregiver language echoed language from the assigned storybook, showing the importance of reading storybooks emphasizing hard work. 

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4. Deal Me in: Playing Cards in the Home to Learn Math

   https://doi.org/10.3390/educsci12030190  

   Scalise, Nicole R.; DePascale, Mary; Tavassolie, Nadia; McCown, Claire; Ramani, Geetha B. (March 2022, Education Sciences)

   Recent meta-analyses have demonstrated a significant association between children’s early math achievement and their experiences with math at home, including their caregivers’ talk about math. However, few studies have investigated the relations between caregiver math talk and children’s learning with experimental designs. Eighty-six children (M = 5.0 years) and their caregivers were randomly assigned to play either a numeracy or a shape card game at home for six weeks. Data were collected on children’s number and shape knowledge and families’ math talk during gameplay. There was substantial participant attrition (42% did not return completed materials), however, both an intent-to-treat analysis of the sample that received study materials and a subgroup analysis of study completers showed that children who played the shape game significantly improved their shape naming and matching skills relative to children who played the number game. Children who played the number game did not significantly improve their numerical skills relative to children who played the shape game. Mathematical talk during gameplay varied between families but was correlated over time within families. Caregivers’ and children’s talk about matching cards by shape or color predicted children’s learning from the shape game. The results suggest that despite receiving uniform instructions and materials, there was significant variability in children’s home math experiences that predicted their learning from the card game. 

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5. Virtual Teaching Together: engaging parents and young children in STEM activities

   https://doi.org/10.3389/fpsyg.2023.1334195  

   Zucker, Tricia A; Mesa, Michael P; Assel, Michael A; McCallum, Cheryl; DeMaster, Dana (February 2024, Frontiers in Psychology)

   IntroductionEarly informal learning experiences are essential for sparking long-term interest in science, technology, engineering, and math (STEM). In a prior study, we found more promising parent involvement outcomes when families of young children were provided with STEM family education events along with home STEM activity kits compared to providing workshops alone. This study was a conceptual replication using the same program—Teaching Together STEM—to deliver educational workshops plus home activity kits; however, we varied the delivery method by using virtual “funshops” to evaluate if parents perceived this modality as feasible and useful. MethodsMuseum informal science educators introduced four units via virtual video chat sessions linked to 12 hands-on STEM activities that were mailed to families randomly assigned to the treatment group. Half of the families were assigned to a waitlist control group that received a portion of the virtual program after the posttest. Participants included 60 families with children aged 3 to 5 years from diverse linguistic and socioeconomic backgrounds. ResultsOur results indicate no significant group differences in the primary outcome of parents’ involvement in informal STEM but a small, positive effect size (ES = 0.18) that was similar in magnitude to the prior, in-person study. Although parents mostly perceived the remote delivery as convenient and the materials as engaging for their child, there were no significant program impacts on children’s general science interests (ES = −0.19). DiscussionDespite the convenience, parents reported time was a barrier to doing STEM activities at home. Parents with lower education levels were less likely to attend, suggesting virtual approaches are not sufficient for ensuring broad access to family engagement programs for populations underrepresented in STEM. 

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