Parents exert a strong influence on the development of foundational science, technology, engineering, and mathematical (STEM) skills in early childhood. This influence occurs, in large part, through playful parent-child interactions and conversations that expose children to mathematical and spatial concepts in interesting and useful ways. Prior research suggests that guided play is effective in building the STEM knowledge, reasoning, and interests of preschool children. Guided play requires adults to strategically present and scaffold STEM play in ways that support child initiative and
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TEAM MEMBERS:
Karen BiermanLynn LibenJessica MenoldMeg SmallScarlett MillerJennifer Connell
This guidebook will help you plan your action project. The initial brainstorm pages will help you consider where to start, and the Action Project Framework will navigate you through steps to get to your destination: the completion of your project!
The Museum of Science in Boston, Massachusetts is one of the world’s largest science centers and the most visited cultural institution in New England. Located in Science Park, a piece of land that spans the Charles River, the museum is conveniently situated close to Boston and Cambridge. The museum has more than 700 interactive exhibits and a number of live presentations offered daily. One of these daily shows include live animal presentations, where museum visitors can learn more about some of the many animals that the museum cares for in its live animal center. An evaluation of these live
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TEAM MEMBERS:
Sarah RosenthalKristina OhlSadia Sehrish IslamMaría José Brito Páez
Over the last year we have been able to take a few hours each week to step back from our current work, reflect on our assumptions, learn from others, and explore new ways that our research could both uncover and help dismantle inequities and racism in the STEM education system. This eBook, and the series of blog posts on which it is based, is the result of these conversations and this reflective process. Our goal is to explore the themes and ideas that emerged from the year and how these might fundamentally change the way we think about STEM, work with families and children, and conduct
The National Federation of the Blind (NFB), in partnership with scholars from Utah State University and educators from the Science Museum of Minnesota (SMM), has developed the Spatial Ability and Blind Engineering Research (SABER) project to assess and improve the spatial ability of blind teens in order to broaden their participation in STEM fields. The goals of the project include: 1. Develop and investigate the reliability of a tactile instrument to test blind and low vision youths’ spatial ability levels. 2. Contribute to the knowledge base of effective practices regarding informal STEM
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TEAM MEMBERS:
Gary TimkoTheresa GreenDaniel KaneWade GoodridgeLaura Weiss
Children’s and parents’ spatial language use (e.g., talk about shapes, sizes and locations) supports children’s spatial skill development. Families use spatial language during playful construction activities. Spatial language use varies with construction activity design characteristics, such as the activity’s play goals. What is the connection between the building materials used and the spatial conversations families have during a construction activity?
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TEAM MEMBERS:
Evan VlahandreasClaire MasonNaomi PolinskyDavid UttalCatherine Haden
Hands-on tinkering experiences can help promote more equitable STEM learning opportunities for children from diverse backgrounds (Bevan, 2017; Vossoughi & Bevan, 2014). Latine heritage families naturally engage in and talk about engineering practices during and after tinkering in a children’s museum (Acosta & Haden, in press). We asked how the everyday practice of oral stories and storytelling could be leveraged during an athome tinkering activity to support children’s informal engineering and spatial learning.
Informal educational activities, such as tinkering, can be beneficial for children’s engineering learning (Bevan, 2017; Sobel & Jipson, 2016). Storytelling can help children organize and make meaning of their experiences (Brown et al., 2014; Bruner, 1996), thereby supporting learning. Digital storytelling, in which narratives and reflections are combined with photos and videos in order to be shared with an audience, has become a familiar, enjoyable activity for many children (Robin, 2008). We examine whether digital storytelling activities during tinkering and reflection will be related to
Informal educational activities, such as tinkering, can be beneficial for children’s engineering learning (Bevan, 2017; Sobel & Jipson, 2016). Storytelling can help children organize and make meaning of their experiences (Brown et al., 2014; Bruner, 1996), thereby supporting learning. We examine whether digital storytelling activities during tinkering and reflection will be related to more engineering talk.We also explore whether children with previous digital storytelling experience will produce higher quality narratives than children without.
Many youth programs seek to understand their influence over time on participant outcomes. This paper offers a methodology for measuring a participant’s perception of a program’s contribution amid their perception of other youth influences such as those from family, school, peer groups, hobbies, and other organized activities. The instrument built on the large body of work on youth influences in order to capture the dominant factors in development of the item bank. In addition to item development, the paper documents face validity followed by content assessment of items using a research panel
Introducing young children to STEM is critical for cultivating early interests and understanding that ultimately contribute to broader participation in the STEM fields. However, while there is substantial research around early childhood mathematics and a growing body of literature related to early childhood science, early childhood engineering continues to be the focus of only a few studies. To address this need, we conducted a design-based research (DBR) study focused on both (b) iteratively developing and improving home-based, engineering design activities for families with preschool-age
Interest is a critical motivating factor shaping how children engage with STEM inside and outside of school and across their lives. In this paper, we introduce the concept of interest catalyst that emerged from longitudinal research with preschool-age children and their families as critical to the process through which each family developed unique interest pathways through their experience with a family-based informal engineering education program. As defined by the team, an interest catalyst is an instance or moment in which an element of the program (or other learning resource or experience)