The Discovery Research K-12 program (DR-K12) seeks to significantly enhance the learning and teaching of science, technology, engineering and mathematics (STEM) by preK-12 students and teachers, through research and development of innovative resources, models and tools (RMTs). Projects in the DRK-12 program build on fundamental research in STEM education and prior research and development efforts that provide theoretical and empirical justification for proposed projects. This project scales up the PBS NewsHour Student Reporting Labs (SRL), a model that trains teens to produce video reports on important STEM issues from a youth perspective. Participating schools receive a SRL journalism and digital media literacy curriculum, a mentor for students from a local PBS affiliate, professional development for educators, and support from the PBS NewsHour team. The production of news stories and student-oriented instruction in the classroom are designed to increase student learning of STEM content through student-centered inquiry and reflections on metacognition. Students will develop a deep understanding of the material to choose the best strategy to teach or tell the STEM story to others through digital media. Over the 4 years of the project, the model will be expanded from the current 70 schools to 150 in 40 states targeting schools with high populations of underrepresented youth. New components will be added to the model including STEM professional mentors and a social media and media analytics component. Project partners include local PBS stations, Project Lead the Way, and Share My Lesson educators.
The research study conducted by New Knowledge, LLC will add new knowledge about the growing field of youth science journalism and digital media. Front-end evaluation will assess students' understanding of contemporary STEM issues by deploying a web-based survey to crowd-source youth reactions, interest, questions, and thoughts about current science issues. A subset of questions will explore students' tendencies to pass newly-acquired information to members of the larger social networks. Formative evaluation will include qualitative and quantitative studies of multiple stakeholders at the Student Reporting Labs to refine the implementation of the program. Summative evaluation will track learning outcomes/changes such as: How does student reporting on STEM news increase their STEM literacy competencies? How does it affect their interest in STEM careers? Which strategies are most effective with underrepresented students? How do youth communicate with each other about science content, informing news media best practices? The research team will use data from pre/post and post-delayed surveys taken by 1700 students in the STEM Student Reporting Labs and 1700 from control groups. In addition, interviews with teachers will assess the curriculum and impressions of student engagement.
This project will advance efforts of the Innovative Technology Experiences for Students and Teachers (ITEST) program to better understand and promote practices that increase students' motivations and capacities to pursue careers in fields of science, technology, engineering, or mathematics (STEM) by developing a suite of digital tools designed to support positive messaging around skill-based education and careers and to improve mentors' communication with middle school-aged youth mentees. Maintaining U.S. economic advantage requires attracting talent to high-growth, high-demand skill-based, STEM-related careers that are traditionally attained through Career and Technical Education (CTE). Replacing old negative perceptions with new, more accurate messages about CTE and then reaching youth with these messages before high school is essential. Career-focused mentoring is a vehicle for delivering these messages and supporting youth exploration of CTE as a possible path for their own lives. Investigators will explore the hypothesis that through strong connections between those best positioned to articulate industry needs (mentors) and those most receptive to filling that need (mentees), this project will improve youth awareness and interest in CTE and the rewarding careers that are available to them. Research and development activities will be carried out collaboratively in informal learning environments in Boston and New York City that serve middle school-aged youth from underrepresented communities, through career-focused mentoring programs. The project team, led by media producers of the WGBH Education Foundation, includes market researchers and communications strategists at Global Strategy Group, learning scientists at Education Development Center, and mentorship program partners at SkillsUSA, Learning for Life's Middle School Explorer Clubs, and Boy Scouts of America's Scoutreach. If promising, the career-focused mentoring programs of SkillsUSA, Learning for Life, and Boy Scouts of America will incorporate the messaging roadmap and digital tools to support their mentoring curricula, which impact greater than one million youth in each year.
In the first phase of research, investigators will study perceptions of STEM-focused CTE from a nationwide sample of 800 middle school-aged youth and 30 mentors from skill-based STEM industries. In the second phase, investigators will work with six program leaders and 30 mentors from SkillsUSA, Explorer Clubs, Scoutreach, and other mentoring programs to document the needs of mentors for support as they enter into the mentoring process. The third phase will engage mentorship program leaders and 36 mentors in the iterative development of a suite of digital tools that would support positive messaging around skill-based education and careers and that would improve mentors' communication with youth mentees. In addition, a pre-post mentorship program pilot study will explore the promise of the digital tools for effectively supporting mentor-mentee communications that improve youth awareness and interest in STEM-focused CTE and skill-based, STEM-related careers. Thirty six mentors and 288 of their youth mentees will participate in the pilot study. Data sources for research include interviews and surveys of program leaders, mentors, and mentees, as well as tracking mentor activity within the online digital tool environment. This research would advance knowledge of how mentors influence disadvantaged youth perceptions of and interest in CTE and skill-based, STEM career pathways, in which there is currently little evidence as to how mentor preparation shapes ability to positively impact youth outcomes. Major outcomes will include a) deeper understandings of youth and mentor perceptions of CTE and mentors' needs for supporting their work with mentees, b) a messaging roadmap and digital tools that prepare mentors for their work with middle school youth, and c) empirical findings regarding the potential of the digital tools for effectively supporting mentor-mentee communications that improve youth's awareness and interest in CTE and skill-based, STEM-related careers. Outcomes will be shared widely to research, education, and industry communities, locally and nationally, through social media, partner networks, conference presentations, and research publications. An advisory board will provide independent review on the project activities.
The goals of the project were to build an understanding about the perception of career and technical education (CTE) as an option for middle school students in pursuing skill-based STEM-related careers, and to use that information to develop an innovative suite of digital tools designed to improve mentors’ and school counselors’ communication with middle school–aged students.
“Monkeying Around: Digital Media and Parent/Child Engagement Resources to Increase Preschool Computational Thinking” is a new project that uses animation, live-action videos, and hands-on activities to support joint engagement of children and caregivers around computational thinking concepts and practices. WGBH, a leading producer of educational STEM media, developed prototypes of videos and hands-on activities around the project’s computational thinking learning goals for young children. Education Development Center (EDC), WGBH’s research partner for the project, conducted a small formative
Ruff Family Science is an exploratory project funded by the National Science Foundation (NSF) that aims to foster joint media engagement and hands-on science exploration among diverse, low-income parents and their 4- to 8-year-old children. Building on the success of the PBS series FETCH! with Ruff Ruffman, the project leverages FETCH’s funny and charismatic animated host, along with its proven approach to teaching science, to inspire educationally disadvantaged families to explore science together. More specifically, the project is undertaking a research and design process to create prototype
This workshop is funded by the Advancing Informal STEM Learning (AISL) program, which seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments. This includes providing multiple pathways for broadening access to and engagement in STEM learning experiences, advancing innovative research on and assessment of STEM learning in informal environments, and developing understandings of deeper learning by participants. The project will conduct a two-day workshop that will gather citizen science project leaders to address barriers in citizen science research and infrastructure: The inability to holistically study the movement, engagement, persistence and learning outcomes among volunteers engaged in multiple projects. The past few years have been a time of tremendous growth in awareness of and interest in citizen science projects. The project will address an increasing gap preventing projects in three now-popular categories (apps, projects hosted on government websites, and event-based projects) from adopting the digital tools created and available through SciStarter.com. The workshop will bring citizen science project leaders together to deepen an understanding of their needs regarding the adoption of digital tools, developed by Scistarter, which will result in more comprehensive data in support of research in informal science learning outcomes of volunteers engaged in citizen science across projects and platforms. The in-person and online contributions from participants will guide the development of resources and tutorials to scale adoption.
SciStarter is a repository of hundreds of citizen science projects. Through previous NSF support, SciStarter developed digital affiliate tools which project leaders use on their own websites to enable analytics (statistics gathered from user activity online) to help projects more easily recruit and coordinator volunteers, help volunteers track their contributions across projects and platforms, and help researchers holistically study the movement and learning outcomes across projects and platforms. The proposed workshop will facilitate iteration and adoption of the tools among three classes of projects, not originally accounted for, which have dramatically increased in numbers during the past year: 1) app-based projects, 2) projects hosted on government websites, and 3) event-based projects.. By co-designing and implementing iterative versions of the tools among these projects, the project will address important gaps in research, enable a richer, more comprehensive understanding of volunteer engagement patterns, and discover opportunities to build a stronger community of citizen science practitioners who collaborate to enhance volunteer learning communities. The project will culminate in improved research in this field and improved management of citizen science projects for appropriate recruitment and retention that fosters STEM learning.
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.
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds innovative research, approaches and resources for use in a variety of settings. This project examines the conditions in which families and young learners most benefit from "doing science and math" together among a population that is typically underserved with respect to STEM experiences--families experiencing poverty. This project builds on an existing program called Teaching Together that uses interactive parent-child workshops led by a museum educator and focused on supporting STEM learning at home. The goal of these workshops is to increase parents'/caregivers' self-perception and ability to serve as their child's first teacher by supporting learning and inquiry conversations during daily routines and informal STEM activities. Families attend a series of afternoon and evening workshops at their child's preschool center and at a local children's museum. Parents/Caregivers may participate in online home learning activities and museum experiences. The project uses an experimental design to test the added value of providing incremental supports for informal STEM learning. The study uses an experimental design to address potential barriers parents/caregivers may perceive to doing informal STEM activities with their child. The project also explores how the quantity and quality parent-child informal learning interactions may relate to changes in children's science and mathematics knowledge during the pre-kindergarten year. The project partners include the Children's Learning Institute at the University of Texas Health Science Center at Houston and the Children's Museum of Houston.
The project is designed to increase understanding of how parents/caregivers can be encouraged to support informal STEM learning by experimentally manipulating key aspects of the broader expectancy-value-cost motivation theory, which is well established in psychology and education literatures but has not been applied to preschool parent-child informal STEM learning. More specifically, the intervention conditions are designed to identify how specific parent supports can mitigate potential barriers that families experiencing poverty face. These intervention conditions include: modeling of informal STEM learning during workshops to address skills and knowledge barriers; materials to address difficulties accessing science and math resources; and incentives as a way to address parental time pressures and/or costs and thereby improve involvement in informal learning activities. Intervention effects will be calculated in terms of effect sizes and potential mediators of change will be explored with structural equation modeling. The first phase of the project uses an iterative process to refine the curriculum and expand the collection of resources designed for families of 3- to 5-year-olds. The second phase uses an experimental study of the STEM program to examine conditions that maximize participation and effectiveness of family learning programs. In all, 360 families will be randomly assigned to four conditions: 1) business-as-usual control; 2) the Teaching Together core workshop-based program; 3) Teaching Together workshops + provision of inquiry-based STEM activity kits for the home; and 4) Teaching Together workshop + activity kits + provision of monetary incentives for parents/caregivers when they document informal STEM learning experiences with their child. The interventions will occur in English and Spanish. A cost analysis across the interventions will also be conducted. This study uses quantitative and qualitative approaches. Data sources include parent surveys and interviews, conversation analysis of home learning activities, parent photo documentation of informal learning activities, and standardized assessments of children's growth in mathematics, science, and vocabulary 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.
Due to the dynamic nature of many fields of science, most adults will acquire the majority of their science information after they leave formal schooling. Future public-policy decisions will require adults to have an understanding of the practice and nature of modern science and technology. A major source for continued learning is science media and journalism, which has the capacity to provoke and increase science curiosity and the value of science.
In partnership with Jacobs Media Strategies, the Cultural Cognition Project at Yale Law School and Texas Tech University, KQED, the NPR and PBS
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments. This includes providing multiple pathways for broadening access to and engagement in STEM learning experiences, advancing innovative research on and assessment of STEM learning in informal environments, and developing understandings of deeper learning by participants. This Innovations in Development project will research and produce science media based on the role that interest, motivations, identify, and values play in engaging diverse, millennial audiences in a dynamic media environment. Using a design-based research approach the project team will develop Millennial Science Media Engagement Profiles (a set of categories describing different audience types who engage with science media in different ways). It will design and test science media content (text, audio, graphics, video), placement and platform use for millennials; and make conclusions around science media storytelling and outreach tactics that spark interest and engagement, the precursors to learning. Broader impacts include contributing significant new knowledge about millennials interest and engagement in science while they are at a stage in life making critical career decisions. It will also provide a model for other science media producers providing new protocols for creating targeted digital media for this specific audience. And further impacts include reaching a large national audience through social media. The project is a collaboration between KQED and researchers at Texas Tech.
The research will focus on the distinctive experience and interest of "millennial" science consumers. It builds on a previously funded national survey and series of focus groups with millennials looking at their science media preferences versus other generations. With these survey results this project will build profiles of millennial audiences based on two factors: level of science curiosity and level of science media engagement. The researchers will use a previously validated Science Curiosity Scale. The Millennial Profiles will be validated in two ways: through performance-based survey questions and through internet audience behavior analysis using existing digital analysis tools. KQED will produce different science media content and send it to certain groups conducting A/B testing to validate profiles online. The profile assumptions will continue to be tested until the team can effectively predict the kinds of science content that different profile groups prefer. The research will use a study protocol used in other domains to bridge the gap between lab and real-world settings. The protocol involves four steps: initial hypothesis development; ante experimental simulation; real-world communication; and ex post experimental simulations. Following the profile validation, the protocol will be used to test the efficacy of new KQED Science content, testing the variables that contribute to millennial engagement.
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.
Previous research has identified parental involvement—the ways parents and other caring adults interact with children in and outside of the home, and the kinds of learning materials with which parents surround children—as key to helping children develop knowledge and skills in literacy and math (Bassok, Finch, Lee, Reardon, & Waldfogel, 2016; Burgess, Hecht, & Lonigan, 2002; Niklas, Nguyen, Cloney, Tayler, & Adams, 2016; Sénéchal & LeFevre, 2002; Skwarchuk, Sowinski, & LeFevre, 2014). Parental support may be critical to children’s developing knowledge and understanding in science as well.
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TEAM MEMBERS:
Megan SilanderTodd GrindalNaomi HupertElisa GarciaKea AndersonPhilip VaheyShelley Pasnik
The concept of connected learning proposes that youth leverage individual interest and social media to drive learning with an academic focus. To illustrate, we present in-depth case studies of Ryan and Sam, two middle-school-age youth, to document an out-of-school intervention intended to direct toward intentional learning in STEM that taps interest and motivation. The investigation focused on how Ryan and Sam interacted with the designed elements of Studio STEM and whether they became more engaged to gain deeper learning about science concepts related to energy sustainability. The
This CAISE report is designed to track and characterize sector growth, change and impact, important publications, hot topics/trends, new players, funding, and other related areas in Informal STEM Education (ISE) in 2017. The goal is to provide information and links for use by ISE professionals, science communicators, and interested stakeholders who want to discover new strategies and potential collaborators for project and proposal development. Designed as a slide presentation and divided into sectors, it can be used modularly or as a complete report. Each sector reports on research, events