This brochure provides overview of work accomplished during the one-year planning grant period, and includes a proposed research agenda related to whole body interaction. The Move2Learn planning effort was a collaboration between museum practitioners and researchers in the United States and the United Kingdom, who represented the spectrum of science education, embodied learning, interactive exhibit designers and technology specialists. The overall goal was to begin the process of identifying relevant research questions related to the design of physical and digital exhibits for young children
Dr. Barbara Flagg, Director, Multimedia Research, will conduct exploratory research to assess the feasibility and viability of presenting to the public an on-going review of new findings or issues in major fields of research. This research on the untested idea of providing the public with information about research on a regular, on-going basis through multiple media will provide information about the American public's current science media habits, their awareness of and interest in broad areas of research, and the presentation formats most likely to appeal to and reach the public on a regular basis.
Research on mathematical reasoning and learning has long been a central part of the classroom and formal education literature (e.g., National Research Council, 2001, 2005). However, much less attention has been paid to how children and adults engage with and learn about math outside of school, including everyday settings and designed informal learning environments, such as interactive math exhibits in science centers. With the growing recognition of the importance of informal STEM education (National Research Council, 2009, 2015), researchers, educators, and policymakers are paying more
Making, tinkering, and other informal design and engineering experiences offer rich opportunities to engage
children and adults in mathematics and build mathematical skills, knowledge, and interests. But how can educators
successfully integrate mathematics into these experiences? One approach to answering this question is to better understand how children and adults engage with and think about mathematics outside of school, in every day and informal learning environments. As part of the NSF-funded Math in
the Making project, Pattison, Rubin, and Wright (2016) synthesized the research on
Although there is a growing body of research on mathematics in informal learning environments (Pattison, Rubin, & Wright, 2016; Rubin, Garibay, & Pattison, 2016), less has been done to understand how math can be integrated into other informal STEM education settings or topics, and how this integration might engage those who do not already have positive attitudes about math. Over the last decade there has been a proliferation of out-of-school environments that foster building, making, tinkering, and design activities (Bevan, Gutwill, Petrich, & Wilkinson, 2015; Vossoughi, Escudé, Kong, & Hooper
As part of a focus group exploratory study into the feasibility of presenting to the public an on-going review of new findings or issues in major fields of science research, 128 adult participants noted which two of ten contemporary science research areas they were most interested in. Of note is the fact that all classification variables (except gender) were unrelated to topic appeal. Interest in each research topic was not influenced by age; educational level; minority/majority grouping; total household income; occupational status; and perceived need for science knowledge in one's employment
As Maker and Tinkering programs expand, educators are in need of new ways of noticing and capturing learning. In particular, because maker programs are so facilitation-heavy, and physically active, there is a need for ways for educators to monitor learning in situ. In this paper, Bevan, Gutwill, Petrich and Wilkinson explore how jointly negotiated research led to new insights about what counts as learning in the context of STEM-rich tinkering in ways that can support formative, embedded, and naturalistic assessments.
The fact that inquiry-based science teaching has been defined in various ways makes claims about its effectiveness with students difficult to synthesize. In this meta-analysis, the authors generate a two-dimensional framework to analyze studies of the effectiveness of inquiry-based science instruction in improving student learning outcomes.
Lobato, Rhodehamel, and Hohensee investigated how learners “transferred” knowledge from one situation to another. They found that both individual cognition and the social organization of the class drove the learners’ process of selecting, interpreting, and working with particular features of mathematical information. They also found the social arrangements of the class influenced what pieces of information students noticed and focused on.
The field of informal science learning and communication is comprised of many sectors—after school programs, science center exhibitions and programs, television and film, print and new media, to name just a few. Each of these is understood to make unique contributions, present unique opportunities, and require unique support. Science Live began with the observation that it is time to similarly acknowledge the practice of live public science events.
Public science events are live, in-person programs designed to engage publics with science in a social context that is at least as meaningful as
This poster was presented at the 2016 Advancing Informal STEM Learning (AISL) PI Meeting held in Bethesda, MD on February 29-March 2. The project will provide much needed empirical results on how to promote children’s STEM engagement and learning in informal science education settings. The project will yield useful information and resources for informal science learning practitioners, parents, and other educators who look to advance STEM learning opportunities for children.
This poster was presented at the 2016 Advancing Informal STEM Learning (AISL) PI Meeting held in Bethesda, MD on February 29-March 2. The project's goal is to demonstrate an educational model fully commensurate with the demands of the 21st Century workforce, and more specifically, with the emerging “green-tech” economy.