In 2008 the Coalition for Science After School and Afterschool Alliance published an issue brief on STEM in out-of-school time, "Afterschool programs: At the STEM of Learning."
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The Coalition for Science After SchoolThe Afterschool Alliance
Argumentation has become an increasingly recognized focus for science instruction---as a learning process, as an outcome associated with the appropriation of scientific discourse, and as a window onto the epistemic work of science. Only a small set of theoretical conceptualizations of argumentation have been deployed and investigated in science education, however, while a plethora of conceptualizations have been developed in the interdisciplinary fields associated with science studies and the learning sciences. This paper attempts to review a range of such theoretical conceptualizations of
This issue brief illustrates the power of strong, successful partnerships between afterschool programs and STEM-rich institutions. Additionally, the partnerships described offer promising and innovative models that can have a significant impact on both students and their instructors. Afterschool programs have a long and rich history of leveraging community resources to best meet the needs of the youth they serve. They recognize that STEM-rich institutions -- science centers and museums, universities and colleges, corporations and businesses, and government agencies -- have a lot to offer. All
Six museum education and learning researchers discuss the need to study how people learn and behave in museums and what kind of current research studies should be undertaken. Mary Ellen Munley, in "Back to the Future: A Call for Coordinated Research Programs in Museums," describes the differences between the terms "evaluation,""audience research," and "education research" and recommends establishing major systematic programs of museum-based research that are similar to ones initiated in the 1920s and 1930s. In "Educational Exhibitions: Some Areas for Controlled Research," C. G. Screven
The aim of the work reported here has been to give an overview of the support that the informal sector provides for learning and engagement with science. In addressing this goal, we have taken the view that engagement with science and the learning of science occur both within and without schools. What is of interest is not who provides the experience or where it is provided but the nature and diversity of opportunities for science learning and engagement that are offered in contemporary UK society. Thus in approaching the work we have taken a systems perspective and looked at informal
In this article Bell, Tzou, Bricker, and Baines describe how formal and informal educational experiences can merge through three case studies of youth engaged in science and technology. The theory of “cultural learning pathways” reframes our understanding of how, why, and where people learn over time and across spaces that have varying cultural values, everyday practices, and hierarchies of privilege and marginalization.
This paper draws on ethnographic data to bring equity to the fore within discussions of tinkering and making. Vossoughi, Escudé, Kong & Hooper argue that equity lies in the how of teaching and learning through specific ways of: designing making environments, using pedagogical language, integrating students’ cultural and intellectual histories, and expanding the meanings and purposes of STEM learning. The authors identify and exemplify emergent equity-oriented design principles within the Tinkering After-School Program—a partnership between the Exploratorium and the Boys and Girls Clubs of San
What is the relationship between experiences in informal settings and students’ understanding of and attitudes toward science? By analysing existing data sets, Suter finds that science museum attendance has an effect—albeit a small one—on student achievement.
The adoption of the Next Generation Science Standards means that many educators who adhere to model-based reasoning styles of science will have to adapt their programs and curricula. In addition, all practitioners will have to teach modeling, and model-based reasoning is a useful way to do so. This brief offers perspectives drawn from Lehrer and Schauble, two early theorists in model-based reasoning.
Many research interventions may show initial positive results, but studies show that these results tend to fade when research structures and supports are removed from the local contexts. In this paper, Gutierrez and Penuel make the case for rethinking what is meant by “rigor” in educational research. To drive truly meaningful and sustainable educational improvement efforts, there is a need for jointly negotiated research that integrates the perspectives, ideas, work, practical considerations, and analysis of educational practitioners. The authors argue that standards for rigorous research
Researchers have described the inquiry process as involving five Es: engage, explore, explain, elaborate, and evaluate. Designed to facilitate the process of conceptual change in science, the 5E model can help students at almost any level engage in scientific practices. This brief correlates the 5E framework outlined by Bybee and colleagues with the science practices described in the Framework for K–12 Science Education.
This Barron and Bell article provides a foundational overview for how “cross-setting learning” can equitably engage all youth across formal and informal educational contexts. The paper offers: 1) a review of research; 2) descriptions of supports and challenges to cross-setting learning, including learner interest and identity; and 3) suggestions for research and assessments that capture learning for underrepresented youth.