This opinion piece paper urges teachers and teacher educators to draw careful distinctions among four basic learning goals: learning science, learning about science, doing science and learning to address socio-scientific issues. In elaboration, the author urges that careful attention is paid to the selection of teaching/learning methods that…

The ultimate goal of "student-centered" education is to empower students to learn beyond educational programs. This means nurturing students' autonomy and fostering the development of their own motivation and mechanisms to become self-directed learners. This idea has been embodied in the "lifelong learning" mantra that pervades contemporary views…

Individual teachers of college level physics sometimes develop deep insights into how their students learn and what elements of classroom instruction are valuable in facilitating the learning process. Yet, these insights rarely persist beyond the individual instructor. Educational methods seem to cycle from one fad to another, rarely cumulating…

Television science programs cover a wide range of science topics, offer a variety of teaching methods, and motivate students. These programs tend to match educational trends, with new programs blending technological advances with speculation to interest students. (DF)

Argues that good science can be enhanced and enlivened, integrated with other curriculum areas, and made more relevant to a student's world through the use of the arts in instruction. Provides examples of art in science through music, poetry, science fiction, and visual art. (DDR)

Supports the use of professional development in environmental education and proposes that it be regarded as vital to learning as classroom instruction. Discusses the use of activities from programs such as Project WET and Project WILD. (DDR)

Uses Laudan's model of scientific change to obtain corresponding features on conceptual change in science learning. Discusses some practical consequences for science education. (MDH)

Argues that writing about physics forces students to come to grips with the material and with what they do and do not understand. Describes the use of writing in an introductory course. Discusses benefits of a decentralized "writing across the curriculum" program. (JRH)

Discusses the use of videodiscs to increase students' comprehension. Benefits of adding visual images to learning activities are discussed, videodiscs as sources of data for students to analyze are considered, and an example is given of using videodiscs to illustrate concepts in a chemistry class. (LRW)

Argues that problem-based learning (PBL) shows students that the best scientists are not those who memorize facts, but rather those who apply facts in a creative manner. Explains that the author, who incorporated group learning into a general education science course, found that PBL led to increased class attendance and participation. (Contains…

Proposes that more cost-effective physics teaching could be achieved if methods of teaching and learning were substantially revised from the point of view of the desired objectives and if teachers recognized the need for continuing professional development in this area. Also recommends more student self-assessment, both as an economical measure…

Argues for the inclusion of ideas specific to urban environments in education reform efforts. Discusses issues such as equality, social and environmental justice, and civil rights. (DDR)

Discusses the differences between problems and exercises in chemistry, and some of the difficulties that arise when the same methods are used to solve both. Proposes that algorithms are excellent models for solving exercises. Argues that algorithms not be used for solving problems. (TW)

Discusses the difference between a generic chemistry problem (one which can be solved using an algorithm) and a harder chemistry problem (one for which there is no algorithm). Encourages teachers to help students recognize these categories of problems so they will be better able to find solutions. (TW)

Discusses the differences between problems and exercises, the levels of thinking required to solve them, and the roles that algorithms can play in helping chemistry students perform these tasks. Proposes that students be taught the logic of algorithms, their characteristics, and how to invent their own algorithms. (TW)