This report presents the findings of a qualitative study that asked 38 secondary science teachers, ‘How can natural history museums effectively support science teaching and learning?’ A partnership of four natural history museums across England, teachers from their local areas and a university education department were involved. The museums work in partnership to support school science at 11–18. In-depth focus groups held at the museums and questionnaires were used.
Across the country many schools and communities are trying to create and support efforts to institutionalize partnerships for learning, including those that rethink the use of time across the school day and year, and across the developmental continuum. These partnerships are not merely transactional in nature but rather transformative: partnering entities work together to integrate and complement their services with the shared goal of supporting children’s learning. Referred to by different terms—integrated, expanded, or complementary learning—the concept has one critical element in common
This report focuses on the use of games as resources to support the educational aims, objectives, and planned outcomes of teachers who understand that games are an important medium in contemporary culture and young people's experiences. The report provides an assessment of game-based learning in UK schools. It is intended to test out the hype and enthusiasm for using games in education and to identify a sensible rationale and practical strategies for teachers to try out games in the classroom.
This guide grew out of the Institute of Museum and Library Services’ Museums and Libraries Engaging America’s Youth initiative and draws on the wide body of research and knowledge from the fields of youth development and informal learning, as well as from the rich experience of museum and library professionals and volunteers. The specific goals of the initiative are: to examine what works, to share best practices to encourage effective programming to build bridges with policy makers.
This research study reports on the evaluation of the outcome and impact of learning as a result of the implementation of Education Programme Delivery Plans in 69 museums in the nine regional museum hubs in England during September, October and November 2005. This is the second study of the impact of learning achieved through museum school services which have been funded through the Renaissance in the Regions programme, which provides central government funding to museums in the English regions. The first study 'What did you learn at the museum today?' was carried out in 2003. The findings of
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Eilean Hooper-GreenhillJocelyn DoddLisanne GibsonMartin PhillipsCeri JonesEmma Sullivan
Based on the premise that one component of NASA's pre-college education program is intended to support and enact school reform, the Committee for the Evaluation and Review of NASA's Pre-College Education Program requested an analysis of how the NASA Explorer School (NES) Model aligns with other national models of school-wide improvement and reform. The purpose and focus of this paper is to summarize key elements of major school improvement and reform models as well as specific content reform models from the literature, and to analyze the extent to which there is alignment between these models
The purpose of this paper is to explore and discuss the role of practical work in the teaching and learning of science at school level. It emphasizes practical work as a means for students to learn about the nature of science.
Reports from the NSF, NRC, AAAS, and others urge over and over that we must teach "science as science is done," that "science is a way of knowing," that our goal should be to impart "scientific habits of mind," and that learning must be learner-centered and oriented toward process. Fine. But what does this really mean for science education, and especially laboratory education?
This paper explores the role of laboratory and field-based research experiences in secondary science education by summarizing research documenting how such activities promote science learning. Classroom and field-based "lab work" is conceptualized as central components of broader scientific investigations of the natural world conducted by students. Considerations are given to nature of professional scientific practice, the personal relevance of student's understanding of the nature of empirical scientific research, and the role of technology to support learning. Drawing upon classroom learning
The goal of this article is to provide an integrative review of research that has been conducted on the development of children's scientific reasoning. Scientific reasoning (SR), broadly defined, includes the thinking skills involved in inquiry, experimentation, evidence evaluation, inference and argumentation that are done in the service of conceptual change or scientific understanding. Therefore, the focus is on the thinking and reasoning skills that support the formation and modification of concepts and theories about the natural and social world. Major empirical findings are discussed
This paper will review literature on learning science in K-8 classrooms by asking and answering three major questions: Who learns science in classrooms? How is science learned in classrooms? What science is learned in classrooms? These questions will be addressed from a sociocultural perspective, which means that the unit of analysis (both theoretically and methodologically) should include both the individual and the social world. Thus, the proposed connections between causes and outcomes must include contextual as well as psychological factors.
The purpose of this paper is to review what is known about informal science learning and to recommend areas for further research. The review is intended to support an examination of how children's science learning experiences in designed informal environments like science museums and zoos relate to science learning activities in K-8 schools.