Electrochemistry is found to be a difficult topic to learn due to its abstract concepts that involve three representation levels. Research showed that animation and simulation using Information and Communication Technology can help students to visualize and thus enhance students' understanding in learning abstract chemistry topics. As a result, an…

Introduces a learning module integrating three disciplines--physics, chemistry, and biology--and based on four elements: carbon, oxygen, hydrogen, and silicon. Includes atomic model and silicon-based life activities. (YDS)

A module that can be incorporated into chemistry or environmental science classes at the high school or undergraduate level is described. The module is divided into a series of segments, each of which incorporates several concepts and results in students making significant predictions about the behavior of organic xenobiotics.

Details are provided of computer-simulated experiments developed by the co-directors of the Learning Research and Development Center (LRDC), University of Pittsburgh. The initial materials were designed to help students learn physics. New materials are being developed along similar lines for elementary mathematics. The views of the creators are…

Describes two secondary school chemistry curriculum supplements which relate art to chemistry, entitled "The Chemistry of Color" and "Chemical Principles and Processes: A Vocational Approach." (CS)

Describes a learning module designed to help students use the factor labeling method in problem solving. (ZWH)

Reports a study examining the effects of cooperative learning and self-instructional packets--"Group Educational Modules" (GEM)--on the achievement of biology students. Significant differences in achievement (as compared to control groups) were found for students using GEM materials and students in cooperative learning situations. (PR)

Presents positive aspects of lesson design models in science instruction. Rebukes arguments made within an accompanying article that argues against lesson design models. States that lesson designs, if correctly viewed as planning guides, are always valuable in science teaching. Mentions an unnamed study that provides evidence of the effectiveness…

A biotechnologist-turned-teacher introduces a series of laboratory modules incorporating concepts from microbiology, cellular biology, molecular biology, biochemistry, and evolution. The Amylase Project aims to distill the biotechnology process into a few short steps using amylase, the easiest enzyme to detect of those commonly produced by…

Argues against the forced use of generic lesson design in science instruction. Asserts that teaching modules are popular among administrators because they seem to provide accountability. However, modules often promote traditional ideas in teaching, and administrators seldom investigate claims of programs. Critiques research cited by the Hunter…

The major objective of this module is to help students understand how water from a source such as a lake is treated to make it fit to drink. The module, consisting of five major activities and a test, is patterned after Individualized Science Instructional System (ISIS) modules. The first activity (Planning) consists of a brief introduction and a…

A series of modules designed for teaching energy concepts in a manner related to the classroom, school, and environmental settings is presented. The unit is seen as able to provide both teachers and students with a concept which has far-reaching implications. (MP)

Designed to address the major conceptual problems associated with respiration and photosynthesis, this module can be used with high school students or college nonscience majors including those in elementary education. It is one in a series developed by the project Overcoming Critical Barriers to Learning in Nonmajors' Science Courses. The…

Designed to address the major conceptual problems associated with evolution and variation and survival in populations, this module can be used with high school students or college nonscience majors including those in elementary education. It is one in a series developed by the project "Overcoming Critical Barriers to Learning in Nonmajors'…

Describes the Warwick Process Science Project (WPSP), which uses teams of teachers for writing a process-oriented science curriculum for students in the 11-16 age category. Discusses the project's philosophy and priorities, and delineates some of the science process skills being integrated into this new British curriculum. (TW)