Kid-focused STEM podcasts have grown in popularity over the years, but the ISE field lacks knowledge of the impact and value of this medium as a means for engaging children and families in science learning and discovery. This research summary shares the results of an exploratory study of the popular children's science podcast, Brains On!, in an effort to being to fill this knowledge gap.
The research was guided by three overarching research questions:
Who is the audience for Brains On! and what are their motivations for listening to children’s science podcasts?
How are Brains On
The Brains On! exploratory research study was guided by three overarching research questions:
Who is the audience for Brains On! and what are their motivations for listening to children’s science podcasts?
How are Brains On! listeners using the podcast and engaging with its content?
What kinds of impacts does Brains On! have on its audiences?
These questions were answered through a three-phase mixed-methods research design. Each phase informed the next, providing additional insights into answering the research questions. Phase 1 was a review of a sample of secondary data in the
In April 2018, FHI 360, under the leadership of Maryann Stimmer and Merle Froschl, convened a meeting of thought leaders in Washington, D.C. to capture a “snapshot” of STEM education. They subsequently conducted additional interviews with more than 50 local and national policy leaders; public and private funders; researchers; PreK-12 and post-secondary educators; parents, and leaders of afterschool programs, science centers and youth-serving organizations. The purpose of this summary report is to identify current trends and gaps to inform research, policy, and practice in order to reinforce
Since 2009 Vetenskap & Allmänhet (Public & Science, VA) coordinates an annual mass experiment as part of ForskarFredag — the Swedish events on the European Researchers' Night. Through the experiments, thousands of Swedish students from preschool to upper secondary school have contributed to the development of scientific knowledge on, for example, the acoustic environment in classrooms, children's and adolescents' perception of hazardous environments and the development of autumn leaves in deciduous trees. The aim is to stimulate scientific literacy and an interest in science while generating
The Art of Science Learning Project (AoSL) is a National Science Foundation (NSF)-funded initiative, founded and directed by Harvey Seifter, that uses the arts to spark creativity in science education and the development of an innovative 21st century STEM workforce. This research was guided by three main hypotheses: (1) Arts-based innovation training, compared to traditional innovation training, improves an individuals creative thinking skills including critical thinking, divergent thinking, problem identification, convergent thinking and problem solving; (2) Arts-based innovation training
Children’s issues have become a greater priority on political agendas since the UN General Assembly adopted the Convention on the Rights of the Child (UNCRC). Each government has agreed to ensure that all those working with and for children understand their duties in relation to upholding children’s rights including the obligation to involve children in decisions that affect them (Article 12). Respecting children’s views is not just a model of good pedagogical practice, but a legally binding obligation. However, there is a limited awareness of Article 12, and how to actualise it. While many
Children's museums represent one of the fastest growing segments of the museum community; however, the evidence base to demonstrate the learning value of these institutions has not kept pace. With funding from the Institute of Museums and Library Services (IMLS), the Association of Children’s Museums (ACM) and the University of Washington’s Museology Graduate Program (UW Museology) are partnering to generate a field-wide research agenda for children’s museums, an agenda that will identify and prioritize the most pressing evidence needed by the field to articulate and demonstrate the distinct
In the past 15 years, Tangible User Interfaces (TUIs) have emerged as an ideal technology for delivering child-computer interaction that is adapted to children’s psychomotor and cognitive skills development. The rapid evolution of these tangible technologies has meant that there has been little or no time to build a foundation for the design of games and learning applications that could offer pleasant and useful experiences to children. Our research group specializes in multimodal and natural human-computer interaction and conducts child-focused research that highlights children’s real needs
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Javier MarcoSandra BaldassarriEva CerezoDiana Yifan XuJanet Read
It is an active time in both developmental psychology and art education. In developmental psychology some interesting new theoretical developments suggest a new level of maturity in the field. In art education there are some productive moves afoot that show that the tendency to emphasize spontaneous production in art class to the exclusion of understanding and appreciation is finally over. These are both welcome sets of changes; indeed, both are changes related to larger shifts in the cultural and intellectual climate of the 1980s.
Progress in understanding cognitive developmental change mechanisms requires methods that yield detailed data about particular changes. The microgenetic method is an approach that can yield such data. It involves (a) observations of individual children throughout the period of the change, (b) a high density of observations relative to the rate of change within that period, and (c) intensive trial-by-trial analyses intended to infer the processes that gave rise to the change. This approach can illuminate both qualitative and quantitative aspects of change, indicate the conditions under which
This research examined the nature of parent–child conversations at an informal science education center housed in an active gravitational-wave observatory. Each of 20 parent–child dyads explored an interactive exhibit hall privately, without the distraction of other visitors. Parents employed a variety of strategies to support their children's understanding of unfamiliar topics, including describing evidence, giving direction, providing explanation, making connections, and eliciting predictions. Parents' education was associated with both the amount of time dyads spent exploring exhibits and
In this paper, we introduce the Exploratory Behavior Scale (EBS), a quantitative measure of young children's interactivity. More specifically, the EBS is developed from the psychological literature on exploration and play and measures the extent to which preschoolers explore their physical environment. A practical application of the EBS in a science museum is given. The described study was directed at optimizing parent guidance to improve preschoolers' exploration of exhibits in science center NEMO. In Experiment 1, we investigated which adult coaching style resulted in the highest level of