Emergency remote and hybrid instructional approaches during the COVID-19 pandemic presented new challenges to science teachers, including how to incorporate authentic, hands-on, and collaborative learning experiences via Zoom™ instruction. Through a school-university partnership, a first-year middle school science teacher, an assistant professor,…

[This paper is part of the Focused Collection on Curriculum Development: Theory into Design.] This paper discusses the theoretical framework and curriculum materials that form the basis of the Investigative Science Learning Environment (ISLE) approach to learning and teaching physics. ISLE, as a philosophical approach to learning, has two core…

The effects of two types of two well-established microcomputer-based teaching methods were examined for their effect on teaching high school students kinetics. The use of data acquisition probeware and digital video analysis were studied for their impact on students' conceptions and ability to interpret graphical relationships to real world…

In spite of numerous calls for action, e.g., Executive Office of the President (2010), there have been few efforts nationally to promote engineering education in the elementary grades. Of these, hardly any have targeted underrepresented populations (National Academy of Engineering, 2009, p. 74). The collaboration described in this paper is a…

Guided by Piaget's constructivist theory on how children learn, this book explores an innovative approach to teaching physical knowledge in preschool. Part 1 differentiates between "science education" and "physical-knowledge" activities, noting that physical-knowledge activities involve primarily movements of objects and changes in objects. This…

Discusses the emergence of chaos as a major scientific subject and its place in historical, scientific, and technological context. Three sections provide (1) an overview of the scientific paradigm; (2) a review of the ideology of classical mechanics; and (3) examples of classical systems behaving in peculiar, nonintuitive manners. (MDH)

This CD-ROM consists of simulation software that allows students to conduct countless experiments using 20 Java simulators and curriculum units that explore light and color, forces and motion, sound and waves, static electricity and magnetism, current electricity, the nature of matter, and a unit on underpinnings. Setups can be designed by the…

This booklet provides suggestions for student activities appropriate for introducing ideas about forces and their relationship to motion at the Form 1 to 4 level. The overall program is divided into five parts and is based on knowledge of views about force, friction, and gravity which children bring with them to science classrooms. An overview of…

Suggests that intuition and visualization are effective methods of introducing engineering principles to pre-engineering students. Describes the development of computer simulation software as part of a "Pre-Engineering College On Disk" course. The computer game helps students visualize the relationship between shell trajectory and its…

In 1990, the New Jersey Department of Education awarded the Randolph Township Board of Education a grant to evaluate the effectiveness of an existing technology learning activity called the "Magic Box", as part of the Teacher Developed Technology Education for the Nineties grant project. This document is comprised of three publications:…

Describes an interdisciplinary kinesiology course which incorporated a minicourse on the physics of sports. Outlines the topics treated in the minicourse and reports findings of student gains in both the affective and cognitive domains. (GS)

Describes some of the general principles involved in the planning of a teaching sequence. Discusses in more detail one example of a complete syllabus including major concepts and experiments. (Author/TS)

This article is the first of a two-part review of research on children's and adults understanding of gravity and on how best to teach gravity concepts to students and teachers. This first article concerns free fall--how and why objects fall when they are dropped. The review begins with a brief historical sketch of how these ideas were developed in…

This guidebook consists of 11 chapters. Chapter 1 provides information on organizing a physics course, considering such topics as types of physics programs, laboratory work, curriculum selection, and computers/calculators. Chapters 2 to 11 focus, respectively, on the topic areas of forces, motion, dynamics, energy, heat, the atomic structure of…

Suggests the development of curriculum materials on the applications of physics to traffic accident investigations as a theme for teaching mechanics. Describes several standard investigation techniques and the physics principles involved, along with some sample exercises. (TW)