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
Awareness of a STEM discipline is a complex construct to operationalize; a learner’s awareness of a discipline is sometimes viewed through the lens of personal identity, use of relevant discourse, or knowledge of career pathways. This research proposes defining engineering awareness through a learner’s associations with engineering practices - fundamental processes involved in engineering such as identifying criteria and constraints, testing designs, diagnosing issues and assessing goal completion. In this study, a learner’s engineering awareness was determined by examining 1) their ability to
This document provides a brief story about how the Designing our Tomorrow team explored some of their questions about exhibit features by using the C-PIECE Framework: Framework of Collaborative Practices at Interactive Engineering Challenge Exhibits.
This exploratory line of inquiry looked at relationships between exhibit features and visitor groups’ Informed engineering design practices. This brief includes an Introduction, Methods and Findings, Summary, and Implications.
This exploratory line of inquiry was conducted to inform the development of the Designing our Tomorrow exhibit and
The purpose of this research was to explore associations between engineering practices included in the C-PIECE framework. In this work, we took particular interest in practices under the Defining a Problem proficiency. Practices under Defining a Problem have great potential to influence the entire exhibit interaction and early observations indicated that visitor groups did not engage frequently in these practices at the informed level, therefore they were seen as an opportunity ripe for study. Through observations, interviews, and video analysis, the DOT research team investigated the
The goal of this NSF-funded RAPID research project was to advance understanding of how children’s science podcasts can provide families with information to help ease children’s worries during a pandemic by increasing children’s understanding of pandemic-related science concepts and supporting pandemic-related family conversations. Our research was guided by the following questions:
1. How and to what extent do Brains On!’s coronavirus-based episodes help children and their families understand and talk about science-related pandemic topics?
2. What kinds of conversations are
Over the course of the COVID-19 pandemic, caregivers were seeking out information to address the questions, worries, and information needs their children had about this unique moment in their lives. Our NSF-funded RAPID research project has helped to uncover some of these questions, worries, and needs by talking to caregivers of listeners of the children’s science podcast Brains On!. This aspect of our research was guided by two overarching quesitons:
What kinds of worries and questions do Brains On! listeners have about the coronavirus and related aspects of the pandemic? How do
A year into the COVID-19 pandemic, the world continues to struggle with the many ways our lives have changed and the uncertainty that remains about the future. Vaccines are being widely administered, but how and when life will return to “normal” remains unknown. During this time, caregivers continue to seek out information to address the questions, worries, and information needs their children have about this unique moment in their lives. Our NSF-funded RAPID research project has helped to uncover some of these questions, worries, and needs by talking to caregivers of listeners of the children
A year into the COVID-19 pandemic, the world continues to struggle with the many ways our lives have changed and the uncertainty that remains about the future. Vaccines are being widely administered, but how and when life will return to “normal” remains unknown. During this time, caregivers continue to seek out information to address the questions, worries, and information needs their children have about this unique moment in their lives. Our NSF-funded RAPID research project has helped to uncover some of these questions, worries, and needs by talking to caregivers of listeners of the children
This NOVA multiplatform media initiative consisted of a 2-hour nationally broadcast PBS documentary, Polar Extremes; a 10-part original digital series, Antarctic Extremes; an interactive game, Polar Lab; accompanying polar-themed digital shorts, radio stories, text reporting, and social media content; a collection of educational resources on PBS LearningMedia; and community screening events and virtual field trips for science classrooms. Across multiple media platforms the project’s video content had nearly 13 million views.
The research explored the potential for informal STEM learning
Through Project BUILD, a STAR Library Network (STAR Net) program funded by the National Science Foundation, the American Society of Civil Engineers (ASCE) and the Space Science Institute’s National Center for Interactive Learning (NCIL) offered the virtual Dream, Build, Create program which consisted of (1) the award-winning documentary Dream Big: Engineering Our World and (2) five live-streamed panels of diverse engineers (Dream Teams) who shared their stories of what it means to be an engineer.
The external evaluation, conducted by Education Development Center (EDC), aimed to examine how
This project is a Smart and Connected Communities award. The community is part of Evanston, Illinois and is composed of the lead partners described below:
EvanSTEM which is a in-school/out of school time (OST) program to improve access and engagement for students in Evanston who have underperformed or been underrepresented in STEM.
McGaw YMCA which consists of 12,000 families serving 20,000 individuals and supporting technology and makerspace activities (MetaMedia) in a safe community atmosphere.
Office of Community Education Partnerships (OCEP) at Northwestern University which provides support for the university and community to collaborate on research, teaching, and service initiatives.
This partnership will develop a new approach to learning enagement through the STEAM (Science, Technology, Engineering, Arts, and Mathematics) interests of all young people in Evanston. This project is entitled Interests for All (I4All) and builds upon existing research results of the two Principal Investigators (PIs) and previous partnerships between the lead partners (EvanSTEM and MetaMedia had OCEP as a founding partner). I4All also brings together Evanston school districts, OST prividers, the city, and Evanston's Northwestern University as participants.
In particular the project builds on PI Pinkard's Cities of Learning project and co-PI Stevens' FUSE Studios project. Both of these projects have explicit goals to broaden participation in STEAM pursuits, a goal that is significantly advanced through I4All. In this project, I4All infrastructure will be evaluated using quantitative metrics that will tell the researchers whether and to what degree Evanston youth are finding and developing their STEAM interests and whether the I4All infrastructure supports a significantly more equitable distribution of opportunities to youth. The researchers will also conduct in depth qualitative case studies of youth interest development. These longitudinal studies will complement the quantitative metrics of participation and give measures that will be used in informing changes in I4All as part of the PIs Design Based Implementation Research approach. The artifacts produced in I4All include FUSE studio projects, software infrastructure to guide the students through OST and in-school activities and to provide to the students actionable information as to logistics for participation in I4All activities, and data that will be available to all stakeholders to evaluate the effectiveness of I4All. Additionally, this research has the potential to provide for scaling this model to different communities, leveraging the OST network in one community to begin to offer professional development more widely throughout the school districts and as an exemplar for other districts. These research results could also affect strategies and policies created by local school officials and community organizations regarding how to work together to create local learning environments to create an ecosystem where formal and informal learning spaces support and reinforce STEAM knowledge.
This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.