By the 1970s a fundamental shift had taken place in German science education. This was a shift away from the learning of more-or-less isolated facts and facets in Biology, Chemistry, and Physics towards a restructuring of science teaching along the general principles of the respective science domains. The changes included also the addition of…

This paper explores the foundational principles of Problem-Based Learning (PBL) as an integrative teaching strategy designed deliberately to cross discipline boundaries in order to make meaningful and lasting connections. The authors suggest that while PBL has in recent times has largely manifested towards a method of inquiry within a single…

Scientific inquiry involves a variety of abilities scientists use to investigate the natural world. In order to develop students' scientific inquiry, researchers and educators have developed different curricula and a variety of instructional resources, which make features and descriptors of scientific inquiry in teaching and learning even more…

Researchers are skeptical about the role of authoritative sources of information in a constructivist learning environment for fear of usurping students' critical thinking. Taking a social semiotics perspective in this study, authoritative sources are regarded as inscriptions of cultural artifacts, and science learning involves meaning-making of…

While the great scientists of the past recognized a need for a multidisciplinary approach, today's schools often treat math and science as subjects separate from the rest. This not only creates a disinterest among students, but also a potential learning gap once students reach college and then graduate into the workforce. "Cases on…

This book presents a report on the nature and value of scientific research and with the increasing trend in evidence-based education, explains the similarities and differences between scientific inquiry and inquiry in other disciplines. Contents include: (1) "Accumulation of Scientific Knowledge"; (2) "Guiding Principles for Scientific Inquiry";…

Examines pre-college students' understanding of the nature of science and tracks those beliefs over the course of an academic year. Studies students' conceptions of the nature of science using a model developed for use in this study. (Contains 24 references.) (Author/YDS)

General-education science courses should provide students with a foundation of knowledge about how the natural world works, a clear understanding of the nature of science and scientific inquiry, and an appreciation for the relationship between science and society. This chapter suggests a variety of approaches to engage students in their own…

In the Discover Lab, a science education center at the State University of New York at Stony Brook, students learn to investigate, critique, and test big scientific questions and devise their own answers. Students are guided through cyclical processes of inquiry, logic and reasoning, testing and experimentation, and communication. (MLH)

The nature of science is a vital part of students' educational experience. It includes understanding what science is and how it works, in accordance with Content Standard G of the "National Science Education Standards" (NRC 1996). Effective science instruction requires incorporation of science content, science processes, and the nature of science.…

Describes action research on the efficacy of problem-based learning using a hermeneutic dialectic methodology. Focuses on the emergence of students' critical-thinking skills, the relevance of science concepts taught, the interdisciplinary nature of the problems addressed, and the changing roles of the teacher and students. Reports that the course…

This proceedings contains a copy of the conference program and more than 75 papers and presentation summaries from the meeting, placed in order by conference session. Paper topics include science assessment issues; science for special needs students; science teachers' self-efficacy; teaching science to at-risk students; online inquiry…