An approach is suggested for teaching science history through inquiry training. A series of investigations are given for illustrating to students the manner in which organisms are grouped taxonomically. (SA)

Discusses ways for teachers to help science students understand what makes a good description of a problem in a scientific investigation. (WRM)

Reviews and assesses the effectiveness of the attempts undertaken to improve prospective and practicing science teachers' conceptions of the nature of science (NOS). Categorizes reviews as implicit or explicit. Indicates that the explicit approach was more effective in enhancing teachers' views. Assumes that developing an understanding of NOS is…

Science education reforms consistently maintain the goal that students develop an understanding of the nature of science, including both the nature of scientific knowledge and methods for making it. This paper articulates a framework for scaffolding epistemic aspects of inquiry that can help students understand inquiry processes in relation to the…

In this extended biology, ecology, and earth science activity, students construct hands-on models of natural wastewater treatment and wastewater treatment facilities to achieve an understanding of wastewater treatment process in nature and wastewater treatment facilities. During this simulation activity, students have opportunities to learn…

The purpose of this study was to examine the experiences of three science teachers attempting to transform their practice by conducting action research on feminist science teaching. The teachers engaged in systematic, self-critical inquiry of their own practice and joined 8 other science teachers to engage in collaborative conversations about the…

This paper introduces the biology laboratory as a learning project. Biology laboratories provide unique learning opportunities to students as traditional achievement outcome measures, and play an important role in the development of process skills, manual skills, and attitudes. However, there is insufficient data on undergraduate students majoring…

Analyzes a short excerpt from a high school physics class discussion to consider the value of the students' work as inquiry and to illustrate a teacher's negotiation of the tension between inquiry and traditional content-oriented concerns. (MDM)

Presents an action-research study of student scientific literacy that is analyzed by two metaphors of learning: students working in science as if they follow recipes, and students working in science as if they devise recipes. Considers the usefulness of the metaphors as a framework to provide common ground for otherwise divergent views on…

Discusses ways for teachers to help students understand how to ask questions appropriate for scientific inquiry. (WRM)

Explains the implementation of forensic science in an integrated curriculum and discusses the advantages of this approach. Lists the forensic science course syllabi studied in three high schools. Discusses the unit on polymers in detail. (YDS)

This investigation examines the difficulties encountered by one graduate teaching assistant as she taught "Physics for Elementary Education," a large-enrollment, inquiry-based science course taught at a public Midwestern university. The methodological approach of hermeneutic phenomenology served as the lens to investigate the research question,…

Working from the 1970s to the early 1990s, Walter Alvarez and his research team sought the cause of the mass extinction that claimed the dinosaurs 65 million years ago. The present paper discusses that research in terms of eight puzzling observations, eight episodes of hypothetico-predictive reasoning, enumerative induction, and Jung's…

Science teachers continually search for effective ways to help students make sense of science concepts and principles. For students to learn to think more like scientists, science teachers must decrease the number of lectures and "follow-the-recipe" laboratory experiments and increase the use of activities that incorporate student inquiry.…

Although science is very successful at its business of explaining phenomena, it is not successful at explaining the nature of its own phenomenon: scientific inquiry. Absent understanding, myths, and misconceptions rush in. The author takes a closer look at the process of scientific inquiry, and presents a review of how scientists describe what…