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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University of PennsylvaniaNancy Peter
STEM Integration in K-12 Education examines current efforts to connect the STEM disciplines in K-12 education. This report identifies and characterizes existing approaches to integrated STEM education, both in formal and after- and out-of-school settings. The report reviews the evidence for the impact of integrated approaches on various student outcomes, and it proposes a set of priority research questions to advance the understanding of integrated STEM education. STEM Integration in K-12 Education proposes a framework to provide a common perspective and vocabulary for researchers
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TEAM MEMBERS:
National Research CouncilMargaret HoneyGreg PearsonHeidi Schweingruber
The purpose of this toolkit is to provide library professionals and library workers who work with and for tweens and teens with materials and resources for professional development, outreach, collections, and programs to successfully integrate Science Technology, Engineering, and Mathematics (STEM) into programs and services.
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Young Adult Library Services Association (YASLA)Erica Compton
This executive summary presents demographic data and survey results from participants in the 2010 SciGirls summer camp. Based on the post survey responses, the majority of the participants felt that the camp had increased their interest in science (78%) and science careers (97%). Those students who did not mention an increased interest said that they already had a high interest in science and STEM careers before camp.
The Museum of Science and Industry, Chicago (MSI) formed the Institute for Quality Science Teaching (IQST) with the goal of improving science achievement of 4th-8th grade students in the Chicago area by creating a series of courses for teachers who lack the background in science or science teaching to teach effectively. This study was designed to evaluate teachers' increased content knowledge in one IQST course, Get Re-Energized (GRE), which focuses on energy topics. The study discovered improvement for teachers who received the course, and those teachers' students scored higher on energy
California's Expanded Learning programs are an integral part of young people's education, engaging them in year-round learning opportunities that prepare them for college, career, and life. This strategic plan was developed by the California Department of Education After School Division (ASD)in collaboration with K-12 educators, program practitioners, and support providers.
This report, commissioned by the Wellcome Trust, provides a review of the value of informal science learning to science education in the UK. The study seeks to provide: a better understanding of the scope of informal science learning, its theoretical base and the types of change it can bring about in the understanding of and attitudes towards science; recommendations for robust methods for evaluating the impact of informal science learning, based on an analysis of practice in the field; recommendations on reaching deprived learners, schools and families; and recommendations based on best
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GHK ConsultingRichard LloydRoss NeilsonSuzanne KingMark DyballWellcome Trust
This checklist provides a step-by-step process for preparing, leading, and ending an after school science project. The document also includes a partner checklist for science coaches and trainers when instructing adult learners.
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National Partnerships for After School Science 2