Reports on a refresher training program that introduces experienced physics teachers to a reflective lesson-planning model and a more constructivist approach to physics teaching. Three instructional strategies developed by participants in the program and the corresponding suggestions made by their peers are presented and analyzed. (29 references)…

Stresses the importance of teaching physics concepts over having students work on word problems. (MVL)

Presents a series of simple activities involving generalized two-dimensional motion topics to prepare students to study projectile motion. Uses a pair of motion detectors, each connected to a calculator-based-laboratory (CBL) unit interfaced with a standard graphics calculator, to explore two-dimensional motion. (JRH)

Presents four examples of physics problems that can be solved with a graphing calculator. Problems included deal with motion, harmonic oscillations, sound waves, and blackbody radiation. (JRH)

Describes an activity that challenges students to apply their knowledge of motion to designing and constructing roller coasters. Emphasizes the processes students go through to communicate their ideas and the problem-solving skills they develop. (JRH)

Students in their first weeks of secondary school were asked to select from a list those topics they would be interested in studying in science. Gender differences were found in that boys predominately selected topics with a mechanical connection, whereas girls predominantly selected topics related to human biology. (Author)

Examines problems that commonly appear in the definition and discussion of work in physics textbooks. Presents the work-energy theorem, provides examples contradicting erroneous statements often found in textbook, and discusses the inconsistent terminology utilized with respect to force and work. (MDH)

Discusses the science used in the war with Iraq. Explains principles of mechanics and feedback systems, and describes how they were used in war technology. Explains the need for engineers to know physics and chemistry, to understand the capabilities and limitations of their equipment, to make accurate measurements, and to work in teams. (PR)

This article reports on a study that investigated novice students' rules for determining which of two objects exerted the greater force on the other. (PR)

Describes demonstrations to (1) construct an inexpensive static electricity detector; (2) obtain an abundant supply of either negative or positive charge using household items; and (3) create static electricity using a Tesla coil or Van de Graaff generator. (MDH)

Describes the function, management and facilities of the Physics Tutorial Center (PTC) at North Carolina State University. A primary function of the PTC is to provide immediate and individualized response to learning problems identified by the students. The operational philosophy is to guide the student to the solution by asking questions and not…

Uses the context of sports surfaces to discuss the qualities of a surface that will produce a shock-absorbing effect. Discusses experiments to measure the shock-absorbing properties from two theoretical perspectives. Describes necessary equipment for the experiments. (MDH)

Discusses the energy flux-density of two beams of light of equal energy that are intersected at a given angle. Examines an apparent contradiction to the physics law of conservation of energy known as Vavilov's paradox. (MDH)

Presents a collection of inexpensive autumn science activities for elementary students. A full moon activity encourages observational and critical thinking skills. A pumpkin activity teaches physics. A spider activity teaches biology and alleviates unnecessary fears. A student page has children create a bookmark that shows faces in the full moon.…