Provided are activities focusing on phenomena associated with rotation of a double wheel (two bicycle wheels mounted on a common axis and free to rotate independently of each other) and on the operation of an electromagnetic toy car. (JN)

Explains a projectile motion experiment involving a bow and arrow. Procedures to measure "muzzle" velocity, bow elastic potential energy, range, flight time, wind resistance, and masses are considered. (DH)

Presents a nonmathematical approach to help students understand that there are two types of coherence and to associate coherence as a property of the illumination at an object itself. The approach also lends itself to an introduction to the Fourier approach for analyzing imaging systems. (JN)

Discusses changes in the crystal structure of iron and steel when these materials are heated. Focuses on observations related to an experiment in which a 60-inch length of piano wire (No. 29 steel wire) is heated and then cooled. (JN)

Describes two experiments that illustrate basic ideas but would be difficult to carry out. Also presents activities and experiments on rainbow cups, electrical charges, electrophorus calculation, pulse electrometer, a skidding car, and on the Oersted effect. (JN)

Describes a computer program (for Apple II microcomputers) which simulates motion in a quadratic resisting medium. Descriptive equations, program inputs and outputs, and program evaluation are considered. Program listing and/or program on initialized disk may be obtained by contacting the author. (JN)

Reviews software package consisting of three programs designed to give students practice on V=IR calculations for series, parallel, and network electric circuits. Indicates that the package for Apple II microcomputers is very good for individual practice and that graphics are useful in teaching students how to draw circuits. (JN)

Provides author and subject indexes for material appearing in "The Physics Teacher" during the years 1963 to 1980. Subject index is arranged alphabetically by major and minor topic areas. (JN)

Describes 17 situations in physics which require students to write computer programs to solve. All the projects are general in nature and require students to have a thorough conceptual understanding of the content to apply the algorithm needed to solve the specific type of problem illustrated. (JN)

Presents the listing (TRS-80) for a computer program which derives the relativistic equation (employing as a model the concept of a moving clock which emits photons at regular intervals) and calculates transformations of time, mass, and length with increasing velocities (Einstein-Lorentz transformations). (JN)

Describes three computer programs which operate on Apple II+ microcomputers: (1) a menu-driven graph drawing program; (2) a simulation of the Millikan oil drop experiment; and (3) a program used to study the half-life of silver. (Instructions for obtaining the programs from the author are included.) (JN)

Describes (1) use of VELA (a stand-alone programmable instrument); (2) forced harmonic motion of galvanometers; (3) holographic interferometry and measurement of small angular displacement; and (4) an analogy useful on teaching capacitors at A-level. Also describes a comparison of fuses and circuit breakers using a microcomputer as a storage…

Presents a system that permits students to engage directly in the process of modelling and to learn some important lessons about models and classes of models. The system described currently runs on RML 380Z and 480Z, Apple II and IIe, and BBC model B microcomputers. (JN)

Discusses graviperception and gravitropism by plant roots. Indicates that graviperception occurs via sedimentation of amyloplasts in columella cells of the root cap and that the minimal graviresponsiveness of lateral roots may be due to the intensity of their caps to establish a concentration gradient of inhibitor(s) sufficient to affect…

Suggests that a broad and balanced science education for all up to 16+ is a good thing, that it should be built from the bottom up, be differentiated to accomodate all abilities, and contain within it core streams in the general fields of biology, chemistry, and physics. (JN)