Attempts to determine, using estimations and current power-law relationships, whether a newspaper report concerning the statement that a single 40,000-kg truck does as much damage to the highway as 9,600 cars is true. Provides a mathematical and graphical possible solution. (MVL)

Suggests 12 activities for students to ask family members at the dinner table. Activities include pendulum motion, friction, harmonics, wave action, heat, and the piezoelectric effect. (MVL)

Describes a photogate electronic flash trigger that synchronizes flash discharge with high-speed events. Presents a photographic study of a high-speed collision demonstrating the passage of a BB through an elastic strip. Provides the schematic of the delay circuit utilized in the trigger. (MDH)

Tested children 18 months to 4 years for their ability to relocate a hidden object after self-produced movement around an array of 4 locations. Children encountered no specific difficulty in coordinating dimensions, or they solved the task without recourse to such a system. They also appeared to change strategy when the problem requires more…

Describes an activity that helps motivate students to learn motion equations by allowing them to observe and analyze their own sports performances. (ZWH)

Uses a blackboard eraser to illustrate solutions to three problems commonly posed to students. The problems are determining (1) the frictional force acting on a stationary body; (2) the maximum acceleration a truck can have without sliding a tray of eggs sitting on the truck bed; and (3) the distance a horizontally thrown object will travel. (MDH)

Studies magnetic oscillation using an air track. Ceramic magnets are attached to the cart and also are used as dampeners in place of the springs. The resulting oscillations are fairly sinusoidal and is a good example of simple harmonic motion. (MVL)

Presents the plans for y-suspension, coupled, and double pendula and explains in detail why they move as they do. The mathematics that describes the motion is examined. (DDR)

Describes a safe but qualitative alternative to an experiment in which bullets are shot into wooden blocks from below, with some bullets hitting the blocks in the center and others off-center. Explains why the off-center blocks reach greater heights in spite of the fact that the bullet's energy is divided between translational and rotational…

Explains the strange effect a crosswind has on motion. (WRM)

Proposes that introductory physics courses extend the analysis of one-dimensional motion to a more sophisticated level. Gives four experimental setups and graphical analysis of the distance, velocity, and acceleration in the vertical and horizontal directions. (WRM)

Reports on the extent to which the Principle of Relativity was employed by students when dealing with various phenomena. Concludes that the Principle of Relativity is not used as an heuristic tool in students' answers, and that the situations presented were not regarded as "problematic" by the students, who primarily used interpretive…

Presents some elementary-level science activities that can be used to study moving and falling objects. Provides background information on motion and force for elementary teachers. (WRM)

Contends that the large vocabulary used for precise purposes in physics contains many words that have related but potentially confusing meanings in everyday usage. Analyzes the treatment of Newton's Laws of Motion in several well-known introductory textbooks for evidence of inconsistent language use. Makes teaching suggestions. (Contains 11…

Models the motion of a gymnast around the high bar first as swinging around a rigid rod, then more accurately when the rod is considered to be elastic. Also considers how the gymnast should best move his hips. (Author/ASK)