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151.
Robert Knight Barney 《Research quarterly for exercise and sport》2013,84(3):346-360
Abstract During the twentieth century state legislative action has provided a broad base for the positive development of physical education programs in the nation's public schools. State legislation for physical education, extremely limited and often abortive in its infancy during the second half of the nineteenth century, has now reached almost avalanche-like proportions. Prior to the twentieth century few attempts were made by any of the United States to instrument governmental action on the subject of physical education — a subject which, even then, was becoming of increasing concern to educators and certain factions of the lay public. In an investigation of the country's first state laws for physical education, California emerges as the “founding father.” Further, three rather distinct factors underlying the state's pioneer efforts must be considered as having been instrumental in the evolutionary process. They are: (1) John Swett; (2) the early California Turners; and (3) Adele Parot. All three forces combined to lay a foundation and erect a framework for legislation leading to physical education in the nation's public schools. 相似文献
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AbstractWhy has the ‘Philosophy for Children’ movement failed to make significant educational inroads in Australia, given the commitment and ongoing efforts of philosophers and educators alike who have worked hard in recent decades to bring philosophy to our schools? In this article we single out one factor as having particular importance, namely, that, on the whole, teachers consider philosophical inquiry to be futile. We argue that the explanation rests with teachers’ underlying epistemological beliefs and that openness to philosophy depends upon teachers being disposed to engage in the practices of reason-giving and reason evaluation, being aware of the epistemic value of such practices and, concomitantly, having highly developed reasoning skills. Drawing on both anecdotal evidence and wide-ranging research from within cognitive psychology, we go on to make a case for change within teacher education programmes. 相似文献
154.
D.B. Knight D.P. Callaghan T.E. Baldock J.H.F. Meyer 《European Journal of Engineering Education》2014,39(2):125-142
The Threshold Concept Framework is used to initiate a dialogue on an empirically supported pedagogy that focuses on students’ conceptual understanding required for solving application-based problems. The present paper uses a triangulation approach to identify the threshold concept in a third-year undergraduate civil engineering course on open channel hydraulics. Evidence from teachers, students, and assessment data point to ‘critical flow’ as the threshold concept – a concept that is transformative, integrative, and troublesome. Identifying the threshold concept by engaging various course stakeholders in a dialogue about conceptual understanding and capabilities makes learning visible for all participants in the process. Implementing this approach can result in an empirically driven rationale for adjusting pedagogies and assessments to foster enhanced student learning outcomes. 相似文献
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If students are to successfully grapple with authentic, complex biological problems as scientists and citizens, they need practice solving such problems during their undergraduate years. Physics education researchers have investigated student problem solving for the past three decades. Although physics and biology problems differ in structure and content, the instructional purposes align closely: explaining patterns and processes in the natural world and making predictions about physical and biological systems. In this paper, we discuss how research-supported approaches developed by physics education researchers can be adopted by biologists to enhance student problem-solving skills. First, we compare the problems that biology students are typically asked to solve with authentic, complex problems. We then describe the development of research-validated physics curricula emphasizing process skills in problem solving. We show that solving authentic, complex biology problems requires many of the same skills that practicing physicists and biologists use in representing problems, seeking relationships, making predictions, and verifying or checking solutions. We assert that acquiring these skills can help biology students become competent problem solvers. Finally, we propose how biology scholars can apply lessons from physics education in their classrooms and inspire new studies in biology education research. 相似文献
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