In prior research and development, the project team and partners developed Cyberchase, a multimedia story-based series for students to practice and learn math. Researchers will develop and test a prototype of a mobile app-based fractions game to be integrated within the multimedia series. The prototype will adjust to students of different skill levels, and will present fractions in different representations (pictures, numbers, and words) to support different modes of learning. In the Phase I pilot, researchers will work with two grade 3 classrooms, and will examine whether the prototype functions as planned, if teachers are able to integrate the game into classroom practice, and whether the prototype shows promise for improving student learning of fractions.
In prior research and development, the project team developed PocketLab, a set of web-based hands-on science simulations for middle school classrooms. With this Phase I funding, the team will develop and test a prototype of CloudLab, a classroom management platform to extend the functionality of PocketLab. The prototype will include a portal so that a class of students can collaborate on experiments, a lab notebook to analyze experimental data with graphing tools, and a teacher dashboard to monitor student progress in real time. In the Phase I pilot research, with six middle school teachers and 150 students, the project team will examine whether the prototype functions as planned, whether teachers are able to integrate it within the classroom environment, and whether students are engaged while using the prototype.
Science educators in the United States are adapting to a new vision of how students learn science. Children are natural explorers and their observations and intuitions about the world around them are the foundation for science learning. Unfortunately, the way science has been taught in the United States has not always taken advantage of those attributes. Some students who successfully complete their K–12 science classes have not really had the chance to “do” science for themselves in ways that harness their natural curiosity and understanding of the world around them.
The introduction of
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National Academies of Sciences, Engineering, and Medicine
It’s important to communicate the excitement and value of NSF-funded research. This tool (formatted as a Prezi presentation) helps you do that with assistance from NSF public affairs experts, exploring options for communicating your research and broader impacts.
Learn how to create opportunities for young people from low-income, ethnically diverse communities to learn about growing food, doing science, and how science can help them contribute to their community in positive ways. The authors developed a program that integrates hydroponics (a method of growing plants indoors without soil) into both in-school and out-of-school educational settings.
The development of character is a valued objective for many kinds of educational programs that take place both in and outside of school. Educators and administrators who develop and run programs that seek to develop character recognize that the established approaches for doing so have much in common, and they are eager to learn about promising practices used in other settings, evidence of effectiveness, and ways to measure the effectiveness of their own approaches.
In July 2016, the National Academies of Sciences, Engineering, and Medicine held a workshop to review research and practice
Science researchers and practitioners are often challenged by how best to assess the effectiveness of science activities on young children whose language skills are still emerging. Yet, research has demonstrated the critical importance of early learning on individual potential. Building on evidence that movement is tightly intertwined with thinking, this project will investigate how thought and movement link as embodied learning to accelerate science understanding. Research will be conducted in the United States (US) and the United Kingdom (UK) with the aim to gather evidence for embodied interactions during science learning and articulate design principles about how museum exhibits can most effectively encourage cognitive and physical engagement with science. Such guidelines are largely absent in the field of informal STEM learning, and so this project seeks transformational change in how learning is understood and recognizes that changes in knowledge can be developed and revealed through body-based movements as well as verbally. Such a view is critically important given that many early learners communicate understanding through nonverbal channels before verbal. Research will be conducted with a diverse population of children and will explore the application of embodied learning to communities that are underrepresented in STEM. This project is funded through Science Learning+, which is an international partnership between the National Science Foundation (NSF) and the Wellcome Trust with the UK Economic and Social Research Council. The goal of this joint funding effort is to make transformational steps toward improving the knowledge base and practices of informal STEM experiences. Within NSF, Science Learning+ is part of the Advancing Informal STEM Learning (AISL) program that seeks to enhance learning in informal environments and to broaden access to and engagement in STEM learning experiences. During a 3-year period, researcher-practitioner teams across six museum sites will collaboratively investigate the links between movement and learning outcomes at selected science exhibits designed for young learners. Research activities will involve iteration and refinement of new instruments and protocols, through analysis of observed and automated capture of interaction data, and synthesis and interpretation of data. A design-based research methodology will be applied to address three key questions: 1) What elements of sensory and action experiences are key to informing the design of exhibits that aim to exploit embodied interactions for learning; 2) What is the role of bodily enactment /gestures in assessing children's understanding of science concepts; and 3) What cultural differences in kinds of embodied engagement emerge across diverse museum settings? Video and audio data of 400 children's exhibit interactions will be collected. Pre/post semi-structured interviews will be conducted with a subset of these participants and will focus on children's understanding of relevant science concepts as well as personal reflections on their physical and emotional experience engaging with the exhibit. This project would raise awareness of embodied approaches to learning as well as build stronger collaborations between informal STEM educators and cognitive researchers. Utilization of informal and formal dissemination networks will support wide diffusion of project outcomes. This is critically important given strong evidence pointing to the impact of preschool education in underserved populations, and ongoing national efforts by the US and UK to improve the quality of STEM learning in preschool contexts.
Project partners supported by NSF funding include The Phillip and Patricia Frost Museum of Science, University of Illinois Urbana Champaign, The Children's Museum of Indianapolis, andSciencenter (Ithaca).
Partners supported by the Wellcome Trust include University of Edinburgh, University College London, Glasgow Science Centre, Science Museum London, and Learning through Landscapes.
The goal of this journal—to engage educators from both formal and informal STEM learning settings in areas of mutual activity and interest—involves different forms of “boundary crossing.” We are looking at both research and practice. We are thinking about teaching and learning. We are looking across in-school and out-of-school settings. Although students cross these boundaries every day, we professionals tend to spend a lot of time in just one of them. In each field, we have our own cultural practices—ways of speaking, rules of interaction, tools, and routines.
Abstract
In 2011, Donna DiBartolomeo and Zachary Clark enrolled in the Arts in Education Program at Harvard Graduate School of Education. Harvard Graduate School of Education is home to Project Zero, an educational research group comprising multiple, independently funded projects examining creativity, ethics, understanding, and other aspects of learning and its processes. Under the guidance of Principal Investigator Howard Gardner and Project Manager Katie Davis, the authors were tasked with developing a methodology capable of observing finegrained, objective detail in complete works of
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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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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Michael LevineLori TakeuchiElisabeth McClure
The Bay Area Regional Collaboration to Expand and Strengthen STEM (RECESS) is a regional, unified STEM continuum effort from preschool through graduate school and career. RECESS is based on successful collective impact efforts in other fields and employs a participatory action research (PAR) approach to broaden participation in STEM. In the PAR framework, youth and their families will help to define the issues and develop expertise about community needs through a shared research process.
RECESS introduces participatory action research as an innovative element to the collective impact social agency framework. The intent is to determine the extent to which the engagement and involvement of the students and communities targeted can effectively shape the function of the collective impact network of organizations.
During the two year planning phase, RECESS (a) conducts a comprehensive needs assessment and gap analysis; (b) establishes a functioning organization of stakeholders with a common agenda and governance model; and (c) develops a detailed action plan. It is a significant contribution to the body of knowledge on effective and innovative collective impact structures designed to promote STEM education and participation.