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.
Researchers and practitioners have identified numerous outcomes of place-based environmental action (PBEA) programs at both individual and community levels (e.g., promoting positive youth development, fostering science identity, building social capital, and contributing to environmental quality improvement). In many cases, the primary audience of PBEA programs are youth, with less attention given to lifelong learners or intergenerational (e.g., youth and adult) partnerships. However, there is a need for PBEA programs for lifelong learners as local conservation decisions in the United States
This report shares the results of a year-long study of the impact of IMLS grants (1998-2003) though programs that served youth aged 9-19. Nearly 400 museum and library programs were surveyed about their goals, strategies, content, audience, and structure, as well as about their impact, effectiveness, and outcomes.
This research examines the Tree Investigators project to support science learning with mobile devices during family public programmes in an arboretum. Using a case study methodology, researchers analysed video records of 10 families (25 people) using mobile technologies with naturalists at an arboretum to understand how mobile devices supported science talk related to tree biodiversity. The conceptual framework brings together research on technological supports for science learning and research on strategies that encourage families to engage in conversations that support observation and
In offering museum active, multi-sensorial experiences, digitally responsive exhibits are an important part of museums' strategy for attracting visitors. Such exhibits are popular, but museums lack understanding of visitors' immediate emotional and physical experience of them. Museums' approach to exhibition evaluation favours the methods of interview and questionnaire, which are not well suited to gathering feedback on the complex mix of audio, kinesthetic and visual experience encountered in digital environments. In addressing a lack of knowledge in the museum studies literature concerning
The paper presents and discusses the Research and Development and related reflective practice process for the design of an approach to STEM school education. It focuses on Future Inventors, an education project of the National Museum of Science and Technology Leonardo da Vinci which aims to design, develop, test, and define an approach for teaching and learning in STEM at junior high school. Through this case study, the authors argue for the need to design for learning activities in which children can learn creatively building on their own potential and, for educators, to develop and maintain
How to determine a sample size for studying your informal learning program
What’s important to consider when selecting a sample size, or participant group size, for studying your informal (science) education program? What value does a small sample size have? If program managers have ample resources for collecting a lot of data, what factors are important to consider?
Here is a collection of guidelines and examples for use in making an informed decision about determining the sample size for studying your informal learning program. To design a study whose findings are more authentic
In this chapter, I offer the National Black Male College Achievement Study (NBMCAS) as an example of how to explore and better understand the enablers of minority student achievement in STEM. Methods employed in the national study are described in the next section, followed by the presentation of an anti-deficit achievement framework for research on students of color at various junctures of the STEM pipeline, from K–12 schools through doctoral degree attainment and transitions into science research and long-term industry careers. Though informed by and conceptually similar to the framework
How can we understand what inclusive informal science education might look like in practice? This research brief provides a short overview of what we do know about inclusive informal science learning from research and covers some of the limitations of that research. Starting with some key issues to consider in terms of informal learning research, this paper outlines some practical points, and briefly reviews the relatively small amount of research that is specifically about inclusive informal science learning. The focus of this paper is on conceptual inclusion and a few, specific social
Making as a term has gained attention in the educational field. It signals many different meanings to many different groups, yet is not clearly defined. This project’s researchers refer to making as a term that bears social and cultural impact but with a broader more sociocultural association than definitions that center making in STEM learning. Using the theoretical lenses of critical relationality and embodiment, our research team position curriculum as a set of locally situated activities that are culturally, linguistically, socially, and politically influenced. We argue that curriculum
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Veronica OguilveWen WenEm BowenYousra AbourehabAmanda BermudezElizabeth GaxiolaJill Castek
Environmental educators have used guided-inquiry in natural and supportive learning environments for decades, but comparatively little programming and research has focused on experiences in urban environments, including in constructed ecosystems like green roofs, or impacts on older youth and adults. To address this gap, we designed a tiered, near-peer research mentoring program called Project TRUE (Teens Researching Urban Ecology) and used a mixed-methods approach to evaluate impacts on undergraduates serving as research mentors. During the 11-week program, undergraduates conducted
Science fairs have a remarkable hold on the public’s attention. President Obama, in his 2011 State of the Union address, said, “We need to teach our kids that it’s not just the winner of the Super Bowl who deserves to be celebrated, but the winner of the science fair.” The 2018 film Science Fair won that year’s Sundance Film Festival favorite award. The 2018 book The Class chronicled a year in a classroom where science fairs are at the center of science education. And a recent GEICO “Science Fair of the Future” television commercial had more than 11 million views on YouTube in its first month