The paper discusses the mathematics and science education of gifted students in grades 7 through 12. Characteristics of students gifted in science and mathematics are described; identification procedures reported in the literature are reviewed including general approaches and those specific to math and science; teaching methods involving…

This guide is designed to provide teachers (grade 2) with a ready resource for planning, organizing, and teaching science to the elementary child. Many suggested activities will provide an enriched science program. Each unit lists estimated time, content, concepts or "understandings," problems to deal with, activities, suggestions for…

Discusses some issues related to chemistry curricula in liberal arts colleges. Among these issues are the nature of a liberal arts curriculum, content of chemistry course, teaching methods, technological aids to teaching, use of the laboratory, and the future of general chemistry teaching in the liberal arts colleges. (HM)

Studies elementary school childrens' abilities in (1) measuring and constructing angles, and (2) interpreting and constructing linear graphs as a result of instructional formats. Partitioned into instructional treatments of (1) science, (2) science-mathematics, (3) mathematics, and (4) control were 161 fourth- and fifth-grade children. Mathematics…

Discusses the chemistry component of a five-week summer program for talented high school juniors and seniors at the Pennsylvania Governor's School for the Sciences. Describes the chemistry core, lab component, team projects, and program results. (CW)

Examines the role of ecology in science instruction and offers suggestions for integrating it into an existing curriculum. Discusses the value of field work and explains the different approaches and difficulties associated with ecological field studies. Highlights the advantages of using the local environment. (ML)

Considers the types of science education interventions at the elementary school level likely to foster equal success of boys and girls. Reviews literature which documents the problem, personality characteristics of girls, girls' career prospects, the masculine image of science, and methods of teaching science. (JDH)

Provides suggestions on how science teachers can, and should, deal with the nuclear weapons debate in a balanced and critical way. Includes a table outlining points for and against deterrence and disarmament. (JN)

How might exemplary practice be represented by teachers' narratives? How might such representations be analyzed? How might theory and practice be related? "Analyzing Exemplary Science Teaching" is a text that seeks to combine educational theory and practice through analysis of a series of teachers' descriptions of "exemplary"…

School students, and their teachers, seldom have opportunities to investigate something in nature. Yet children's development, as perceived by Piaget, and historical scientists' learning, involves investigation. We acted to include these investigative responses and historic resources into our work with new science teachers. We did this in the…

Discusses different kinds of material presentation in the teaching of electromagnetism at the university level, including three "classical" approaches and the Keller personalized proctorial system. Indicates that a general introduction to generators and motors may be useful in an electromagnetism course. (CC)

Provides rationale and objectives for presenting chemical reactions in a unified, logical six-stage approach rather than a piecemeal approach. Stages discussed include: introduction, stable electronic configurations and stable oxidation states, reactions between two free elements, ion transfer/proton transfer reactions, double displacement…

A cooperative lab program between local high schools and the University of Utah was initiated in 1975. Describes reasons for university's interest in such a program, guidelines high school teachers have agreed to follow, and program requirements/operation. Includes student/teacher comments on the program. (Author/JN)

Discusses an audio-tutorial anatomy and physiology course which was no more expensive to establish and operate than a traditional course. Topics include development of audio-tutorial materials, construction of facilities, space use, staffing, development of computer programs, and computer costs. (Author/JN)

Describes a scheme to introduce assignments and encourage use of library resources related to A-level syllabi; study habits in science; modes of recording experimental work in elementary science classes; rationale for doing practical work in 11-13 science; and a strategem to enhance quantity and quality in pupils' discussion in science. (JN)