Presents an overview of a genetics course including explanations of major concepts, principles, and sequencing methods. Describes the typical participating student's background and prior knowledge level. Appendices contain a list of terms and three concept maps. (ML)

Children in grades two and five explained such weather phenomena as wind, clouds, thunder, lightning, rain, snow, and rainbows during interviews. Results indicate that most students in both grades were at a stage of nonreligious finalism and do not use true causality in explanations. Implications for teaching are discussed. (DH)

Investigated the role of "a priori" ideas in planning experiments and data processing leading to inferences. Thirty-one students (ages 11-13) observed a "combustion/candle in a closed container" experiment and were asked to interpret sets of measurements. Findings, among others, show that children preferentially experiment on…

Describes an experiment designed to help students understand the concepts of osmosis and surface area to volume ratio (SA:VOL). The task for students is to compare water uptake in different sizes of potato cubes and relate differences to their SA:VOL ratios. (JN)

The level of meaning (membership, partial association, or generalization) that English-speaking (N=1635) and Hindi-speaking students (N=823) preferred when thinking about each of 16 key concept definitions associated with the theme "the nature of matter" was measured for each concept. Results and implications for science instruction are…

Investigated level of concept attainment of selected energy concepts for possible inclusion in the Nigerian Primary Science Project. Subjects (N=450) were taught energy concepts at descriptive, comparative, and quantitative levels. Suggests the need to describe these levels for particular grades and match curriculum with students' thinking…

Lists 15 commonly encountered misconceptions/misunderstandings in biology, together with specific suggestions to help teachers and textbook authors clarify each misconception. Included are problems related to understanding differences between acellular and multicellular, respiration and photosynthesis, egestion and excretion, and homeostasis and…

Basic concepts are often barriers to acquiring easy insight and satisfying understanding in a discipline. The most difficult task in the teaching of science is the recognition of these critical barriers to the student's thinking process. To make the unobvious less so is the responsibility of the teacher. (BC)

Compares various methods of defining derived quantities, arguing for a definitional formula using base or fundamental units in a word equation, or symbol-equations with the symbols explained. Suggests that fundamental units be defined operationally or left regarded as intuitive as in the case of length and time. (JM)

Interviews conducted with a group of Lebanese children showed that they give physical rather than animistic interpretations to natural phenomena such as rain, clouds, and falling bodies. (MLH)

Discusses solar thermal collectors, solar thermal electric power conversion, photovoltaic power conversion, and wind energy conversion, and discusses implications for industrial arts. (TA)

An applied approach is argued to be a fruitful one for sociology in general and especially for polytechnics. The argument rests on two premises: (1) that the polytechnics ought to distinguish themselves from the universities by a commitment to useful knowledge and (2) that sociology would be enhanced by an increased emphasis on social problem…

A laboratory exercise is described in which students view the environment through a transparent frontal parallel plane. The relationship of projected size to distance can be studied, and other cues to distance based on this geometric relationship can be appreciated. (Author/AV)

Discussed is the role of personal convictions in the development of scientific attitudes in students. (SL)

The main author of this paper (J.W.) wrote the original as two separate essays for a Bachelor of Education unit at Northern Territory University (The Teaching of Science: EBE 483) for the second author (B.P.). This unit contains as a major component student/teacher research on children's ideas (misconceptions) in science. This paper seems very…