National Air and Space Museum, Washington DC
Summative Evaluation for Educational Program, 2016
The National Air and Space Museum (NASM) contracted Randi Korn & Associates, Inc. (RK&A) to conduct a summative evaluation of Science in Pre-K, an onsite and online teacher professional development program that NASM developed for the District of Columbia Public Charter Schools’ (DCPS). The program supports preschool teachers in teaching science through exploration and problem solving. This evaluation is a continuation of a planning and evaluation project initiated in 2013. In 2013, RK&A
PEEP and the Big Wide World/El Mundo Divertido de PEEP is a bilingual, NSF- funded public media project that uses animation, live-action videos, games, mobile apps, hands-on science activities to motivate preschool-age children to investigate the world around them. Online, PEEP extends children’s science and math learning with a mobile-friendly website that offers games, videos, and hands-on activities, as well as a collection of 15 apps. PEEP is also reaching children in preschool classrooms and family/home childcare settings via the PEEP Science Curriculum, which provides resources for a
Tomorrow’s inventors and scientists are today’s curious young children—as long as those children are given ample chances to explore and are guided by adults equipped to support them. STEM Starts Early is the culmination of a deep inquiry supported by the National Science Foundation that aims to better understand the challenges to and opportunities in STEM learning as documented in a review of early childhood education research, policy, and practice and encourages collaboration between pivotal sectors to implement and sustain needed changes. The report features research by the FrameWorks
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TEAM MEMBERS:
Elisabeth McClureLisa GuernseyDouglas ClementsSusan Nall BalesJennifer NicholsNat Kendall-TaylorMichael Levine
Early childhood education is at the forefront of the minds of parents, teachers, policymakers as well as the general public. A strong early childhood foundation is critical for lifelong learning. The National Science Foundation has made a number of early childhood grants in science, technology, engineering and mathematics (STEM) over the years and the knowledge generated from this work has benefitted researchers. Early childhood teachers and administrators, however, have little awareness of this knowledge since there is little research that is translated and disseminated into practice, according to the National Research Council. In addition, policies for both STEM and early childhood education has shifted in the last decade.
The Joan Ganz Cooney Center and the New America Foundation are working together to highlight early childhood STEM education initiatives. Specifically, the PIs will convene stakeholders in STEM and early childhood education to discuss better integration of STEM in the early grades. PIs will begin with a phase of background research to surface critical issues in teaching and learning in early childhood education and STEM. The papers will be used as anchor topics to organize a forum with a broad range of stakeholders including policymakers as well as early childhood researchers and practitioners. A number of reports will be produced including commissioned papers, vision papers, and a forum synthesis report. The synthesis report will be widely disseminated by the Joan Ganz Cooney Center and the New America Foundation.
The Discovery Research K-12 program (DRK-12) 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 project.
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TEAM MEMBERS:
Michael LevineLori TakeuchiElisabeth McClure
This research project builds upon an Advancing Informal STEM Learning (AISL) project (DRL#1114674) that investigated preschoolers' self-directed science, technology, engineering, and mathematics (STEM) related play experiences in outdoor nature-based playscapes. An emerging trend, nature-based playscapes have great potential for exposing young children to STEM-related phenomena, concepts, and processes in a variety of early childhood education settings, including daycare centers, pre-schools, playgrounds, and children's museums. In contrast to traditional playgrounds, playscapes are designed to result in complex, sensory-rich environments in which extensive access to natural materials and resources inspires young children's investigative and exploratory behaviors. This study explores the hypothesis that play in nature provides young children (ages 3-5) with extensive contact with science content and that a play-based curriculum could expand opportunities for STEM learning. This Research-in-Service of Practice project will: 1) design, implement, and evaluate four digital play-based professional development curriculum modules for pre-school educators across multiple partner sites; 2) research the impact of professional training on educators' facilitation of STEM content and activities; 3) examine the impacts of play-based facilitation on young children's understanding of and engagement with STEM; and 4) evaluate the transferability and sustainability of new playscape design principles at three partner sites. This investigation will be led by researchers at the University of Cincinnati in close collaboration with early childhood educators at the Arlitt Center, Cincinnati Nature Center, and two local early childhood organizations that serve children in Head Start programs. The study will use a mixed-methods approach. Data sources include video observations, behavior mapping, teacher self-studies, surveys, interviews, child assessments and children's photo documentation of their experiences. This research project is being funded by the AISL program, which seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments. Research that promotes the understanding of how designed play-based natural environments and related instructional approaches support the development of young children's engagement with STEM could lead to new learning theory, pedagogical approaches, and inform the design of effective informal learning experiences. Understanding the affordances of particular components of playscapes with respect to young children, as well as how pre-school educators could productively facilitate young children's engagement with, and understanding of, STEM would be a contribution to the informal STEM field.
Children are already learning at birth, and they develop and learn at a rapid pace in their early years. This provides a critical foundation for lifelong progress, and the adults who provide for the care and the education of young children bear a great responsibility for their health, development, and learning. Despite the fact that they share the same objective - to nurture young children and secure their future success - the various practitioners who contribute to the care and the education of children from birth through age 8 are not acknowledged as a workforce unified by the common
As part of an overall strategy to enhance learning within maker contexts in formal and informal environments, the Innovative Technology Experiences for Students and Teachers (ITEST) and Advancing Informal STEM Learning (AISL) programs partnered to support innovative models for making in a variety of settings through the Enabling the Future of Making to Catalyze New Approaches in STEM Learning and Innovation Dear Colleague Letter. This Early Concept Grant for Exploratory Research (EAGER) will test an innovative approach to bringing making from primarily informal out-of-school contexts into formal science classrooms. While the literature base to support the positive outcomes and impacts of design-based making in informal settings at the K-12 level is emerging, to date, minimal studies have investigated the impacts of making design principles within formal contexts. If successful, this project would not only add to this gap in the literature base but would also present a novel model for bridging the successful engineering design practices of making and tinkering primarily found in informal science education into formal science education classrooms. The model would also demonstrate an innovative, highly interactive way to engage high school students and their teachers in engineering based design principles with immediate real-world applications, as the scientific instruments developed in this project could be integrated directly into science classrooms at relatively minimal costs.
Through a multi-phased design and implementation model, high school students and their teachers will engage deeply in making design principles through the design and development of their own scientific instruments using Arduino-compatible hardware and software. The first phase of the project will reflect a more traditional making experience with up to twenty high school students and their teachers participating in an after-school design making club, in this case, focused on the development and testing of scientific instrument prototypes. During the second phase of the project, the first effort to transpose the after school making experience to a more formalized experience will be tested with up to eight students selected to participate in two week summer research internships focused on scientific instrument design and development through making at Northwestern University. A two-day summer teacher workshop will also be held for high school teachers participating in the subsequent pilot study. The collective insights gleaned from the after school program, student internships, and teacher workshop will culminate to inform the full implementation of the formal classroom pilot study. The third and final phase will coalesce months of iterative, formative research, design and development, resulting in a comprehensive pilot investigation in up to seven high school physics classrooms.
Using a multi-phased, mixed methods exploratory design-based research approach, this 18-month EAGER will explore several salient research questions: (a) How and to what extent does the design & making of scientific instrumentation serve as useful tasks for learning important science and engineering knowledge, practices, and epistemologies? (b) How engaging is this making activity to learners of diverse abilities and prior interests? What can be generalized to other types of making activities? (c) How accessible is the Arduino hardware and coding environment to learners? What combination of hardware and software materials and tools best support accessibility and learning in this type of digital making activity? and (d) What types of scaffolding (for students and teachers) are required to support the effective use of maker materials and activities in a classroom setting? Structured interviews, artifacts, video recordings from visor cameras, student design logs, logfiles, and ethnographic field notes will be employed to garner data and address the research questions. Given the early stage of the proposed research, the dissemination of the findings will be limited to a few select journals, teacher forums and workshops, and professional conferences.
This EAGER is well-poised to directly impact up to 125 high school physics students (average= 25 students/class), approximately 7 high school physics teachers, 6-8 high school summer interns, nearly 20 high school students participating in the after-school design making club, and indirectly many more. The results of this EAGER could provide the basis and evidence needed to support a more robust, expanded future investigation to further substantiate the findings and build the case for similar efforts to bring making into formal science education contexts.
NatureStart Network brought together early childhood educators and environmental educators to support nature play, exploration, and inquiry for young children and their families within urban environments. Project partners included the Forest Preserves of Cook County and two established Head Start programs in the Chicago area, Mary Crane Center and El Valor. The foundation of the project was a series of three two-day professional learning sessions that took place over an eighteen month period. Through hands-on, collaborative learning and reflection activities, the participating educators
Science from the Start (SFTS) was a two-year early childhood program funded by IMLS, with matching funds from the Sciencenter. The goal of SFTS was to empower teachers, parents, and caregivers to do more science with their students and children. Although the SFTS program continues today,this final summary report describes the results of the initial two-year pilot project only.
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
Omaha’s Henry Doorly Zoo and Aquarium has been a strong and active partner in education for over 40 years, educating 1.7 million visitors annually. The zoo has become a leader in both informal and formal education by pioneering many science, technology, engineering, and mathematics (STEM) initiatives. In 1996 the zoo moved from being a partner with others to becoming a true collaborator with a diverse group of education institutions. The zoo discovered that a successful partnership requires multiple organizations to come together and share resources for a cause. In partnering with school
The Katonah Museum of Art (KMA) contracted Randi Korn & Associates, Inc. (RK&A) to evaluate its early childhood program, ArteJuntos/ArtTogether (ArteJuntos), ArteJuntos is a bilingual art and culture-based family literacy program that introduces low-income, educationally at-risk preschool children and their families to the KMA. Using works of art in KMA’s exhibitions, the program connects parents and their children (ages 3-5) to activities that support children’s emergent literacies—observation, oral and receptive language, and critical thinking skills.
How did we approach this study?
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