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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TEAM MEMBERS:
Eilean Hooper-GreenhillJocelyn DoddLisanne GibsonMartin PhillipsCeri JonesEmma Sullivan
This review conducted by the National Institute on Out-of-School Time (NIOST) explores the current discussion and research findings on STEM (Science, Technology, Engineering, and Math) in out-of-school time and reflects on the ways the INSPIRE program model (see Appendix A) incorporates research-based practice in implementing STEM education experiences in out-of-school time. The purpose of the literature review and analysis project is to inform the INSPIRE program managers during the planning and implementation stage of INSPIRE.
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.
To begin, this paper describes the climate in science education in the United States, and describes and defines formative assessment. Next, Black & Wiliam’s review and two other important empirical studies will be summarized. Then, a framework characterizing different forms of formative assessment is presented. Non-empirical studies are organized according to this continuum. Finally, the paper describes limitations in the implementation of formative assessment in K-8 science, and summarizes assessment practices that show promise for improving student learning. The important contribution of the
Research in the out-of-school time (OST) field confirms that there is a strong connection between professional development (PD) for staff and positive outcomes for youth. According to Heather Weiss, Founder and Director of the Harvard Family Research Project (HFRP), professional development for those who work with children and youth is fraught with challenges and ripe with opportunity and specifically, the opportunity to increase staff quality, which experts agree is critical to positive experiences for children and youth (Weiss, 2005/2006). However, as Thomas Guskey (1998) states, "For many
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TEAM MEMBERS:
University of PennsylvaniaNancy Peter
Young people’s participation in science, technology, engineering and mathematics (STEM) is a matter of international concern. Studies and careers that require physical sciences and advanced mathematics are most affected by the problem and women in particular are under‐represented in many STEM fields. This article views international research about young people’s relationships to, and participation in, STEM subjects and careers through the lens of an expectancy‐value model of achievement‐related choices. In addition it draws on sociological theories of late‐modernity and identity, which situate
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TEAM MEMBERS:
Maria Vetleseter BoeEllen Karoline HenriksenTerry LyonsCamilla Schreiner
“Science for All” is a mantra that has guided science education reform and practice for the past 20 years or so. Unfortunately, after 20 years of “Science for All” guided policy, research, professional development, and curricula African Americans continue to participate in the scientific enterprise in numbers that are staggeringly low. What is more, if current reform efforts were to realize the goal of “Science for All,” it remains uncertain that African American students would be well-served. This article challenges the idea that the type of science education advocated under the “Science for