Presents an integrated sequence of courses designed to teach both science content and science teaching methodology to prospective elementary school teachers. Includes courses in physics, chemistry, earth science and biology; describes the chemistry course in detail; and explains how the methods portion is integrated into the course. (JM)

Determined effects of including supplementary readings designed to help students (N=233) relate physics to other fields. Both achievement and attitude were measured and significant improvement differences were found for both due to the treatment. Sources for the supplemental readings are cited. (JM)

Discusses (1) the rationale for teaching college courses in shopping centers; (2) advantages to stores, students, and faculty; and (3) university procedures for the courses. Describes the content of a chemistry course including adaptations to the lack of lab facilities. Student reactions to the course are considered. (JM)

Presents a method for teaching Greek and Latin work forms to promote comprehensive knowledge and improve retention. A self-study text is used in the class (meeting one-hour weekly), with students responsible for teaching creative games which utilize the scientific vocabulary. (JM)

The National Science Foundation (NSF) has recently released a description of a program that will accept proposals and make grants for projects to improve precollege science/mathematics teachers. Examines the program guidelines and comments on a National Science Board report, recommended as a guide in developing proposals. (JM)

Discusses issues related to the status of basic research in our society. Considers views of individuals questioning the value of engaging in more research, including those convinced that major problems result from too much industry/technology, those fostering applied research, and those suggesting that further research will yield no new knowledge…

Argues that much of current science curricula and instructional strategies do not accommodate the thinking and reasoning capabilities of students. Level of capacity for abstract logical reasoning, whether the capacity can be cultivated/enhanced, consequences of mismatched intellectual levels and instructional modes, and what thinking/reasoning…

National Science Foundation (NSF) Chautauqua-type short courses offer undergraduate science teachers the opportunity to absorbe new ideas from highly respected scholars. A complete list of courses, course directors, locations, dates, and registration fees for the 1983-84 program is provided. Subject areas include: instructional composting, cells…

Describes a lecture/laboratory course that stresses physical experience and peer interaction in an inquiry-discovery format. The course is required of all incoming freshmen who are nonscience majors. Highlights of such course strategies as performing experiments that demonstrate physical properties before introducing mathematical concepts or…

Provides a course outline which includes simulation exercises designed as in-class activities related to science and society interactions. Simulations focus on the IQ debate, sociobiology, nuclear weapons and nulcear strategy, nuclear power and radiation, computer explosion, and cosmology. Indicates that learning improves when students take active…

Discusses science education activities at the National Science Foundation (NSF), focusing on a new NSF activity ("Research in Undergraduate Institutions"--RUI) designed to support faculty research in settings where the primary emphasis is on undergraduate education. Related issues and concerns are addressed. (JN)

Reviews several sources of published materials which contain learning objectives for general problem solving as well as problem solving in mathematics, science, and computer science. Lists of objectives are included where appropriate. (JN)

Describes a course which emphasizes all facets of analytical chemistry, including sampling, preparation, interference removal, selection of methodology, measurement of a property, and calculation/interpretation of results. Includes special course features (such as cooperative agreement with an environmental protection center) and course…

Lists and discusses 10 tips to improve science instruction. Areas addressed include questioning techniques, seat assignments, use of chalkboard and overhead projector, communication skills, explaining why a topic is being covered, use of demonstrations, and stopping a lecture on time. (JN)

Describes four components of a packet of materials designed for small-group discussions on alphafetoprotein (AFP) screening for neural tube defects. Components consist of instructional guidelines for group leader, informational packet on AFP, list of specific discussion questions, and student evaluation form. Copies of these materials are…