Describes the development of and activities used with rubber powered paper vehicles as science projects and instructional devices in junior high and high school science classes. Includes plans and instructions for building the "Lou-Vee-AirCar." (CW)

Compares two high school chemistry teachers with two elementary science teachers from case studies from the Exemplary Practice in Science and Mathematics Education Project in Australia. Concludes that both pedagogical and content knowledge are important ingredients for outstanding teaching. (CW)

Calls for increasing the number of women into science and engineering professions, while improving the competitiveness of the United States at the same time. Suggests that more of the current statistics regarding women in these professions be publicized, and programs be initiated to actively recruit more women into these careers. (TW)

Contains evaluations of two computer software packages, "Simulation Experiments 45-48 in Epstein's Laboratory Manual for Chemistry" and "Maps and Legends--the Cartographer (Ver 3.0)." Includes a brief description, applications, and the perceived strengths and weaknesses for each package. (CW)

Reviews six software packages for the Apple II family. Programs reviewed include "Science Courseware: Earth Science Series"; "Heat and Light"; "In Search of Space: Introduction to Model Rocketry"; "Drug Education Series: Drugs--Their Effects on You'"; "Uncertainties and Measurement"; and "Software Films: Learning about Science Series," which…

Describes two methods to teach radioactive decay to secondary students with wide ranging abilities. Activities are designed to follow classroom discussions of atomic structure, transmutation, half life, and nuclear decay. Includes "The Tasmanian Empire: A Radioactive Dating Activity" and an exercise to teach concepts of half life without…

Points out two areas of difficulty in teaching Newtonian dynamics. Describes several alternatives to physics learning using new technology. Details the use of the LOGO computer language in teaching simple Newtonian environments. Suggests the potential for creating new learning experiences in dynamics with new technology. (CW)

Reports on the 9th Biennial Conference on Chemical Education sponsored by the American Chemical Society. The conference theme: "Chemistry: Learning, Instructing, Presenting," was addressed by numerous sessions. Highlighted were presentations calling for an increase in process-oriented chemistry teaching, reduction of "science…

Describes a study which was designed to determine the effect of a 25-hour introductory qualitative analysis course on high school students' understanding of formal concepts related to electrolytes. Suggests that introductory concrete experiences better prepare students to deal with more formal abstract concepts. (TW)

Describes a two-week concentrated laboratory course in chemistry offered by Union College (New York) for middle school students. Provides the objectives of the course and a listing of experiments done by the students. Promotes the use of experiential approaches rather than lengthy lectures and discussions. (TW)

Discusses the use of the Tangent Sphere Model (TSM) in introducing chemical structure to beginning chemistry students at both the secondary school and college levels. Describes various applications of the use of such models, including instruction of the atom's kernel and valence electrons. (TW)

Describes the field work component of a half-term course in environmental chemistry. Discusses the teaching methods used with the students in detecting water pollution. Outlines the activities and experiments in one field trip and presents the results and deductions made by the students. (TW)

Presents a rationale for teaching inquiry skills and describes a learning module which was designed to develop inquiry skills and provides a realistic view of the nature of scientific research for secondary science students. Explains the module's evaluation procedures and results. (ML)

Covers use of cryogenic fluids, discussing physical properties, hazards to personnel, flammability, storage, transfer, and disposal. (JM)

Presents two models and two demonstrations targeted at student understanding of projectile motion as the sum of two independent, perpendicular vectors. Describes materials required, construction, and procedures used. Includes a discussion of teaching points appropriate to each demonstration or model. (JM)