Quantum mechanical (QM) and molecular docking methods are used to probe systems of biological and synthetic interest. Probing interactions of nucleobases within proteins, and properly modeling said interactions toward novel nucleobase development, is extremely difficult, and of great utility in RNA interference (RNAi) therapeutics. The issues in…

Science programmes which prepare students to read critically and respond thoughtfully to science-based reports in the media could play an important role in promoting informed participation in the public debate about issues relating to science, technology and society. Evidence based guidance about the practice and pattern of use of science-based…

This book examines learning science from multiple perspectives--especially a child's. The whimsical character of Mary Froggins guides readers through the steps of igniting students' natural sense of wonder, incorporating brain research, integrating science concepts with other subjects, and applying science to daily life. The authors demonstrate…

Discusses processes for change that have been used to introduce innovative learning processes into laboratory courses. In one case the content of the course was not changed, just the order of presentation. In the second example cooperative learning processes were introduced in order to facilitate a change in the course content. (AIM)

1984 marks the implementation in Scottish schools and colleges of Standard Grade courses for the 14 to 16 age group and the 16-18s Action Plan. This review will introduce these two major curriculum changes to non-Scottish readers, and emphasize the changes which will occur in science. (JN)

This paper describes a method that attempts to confront the challenges of developing an environmentally-based earth sciences program. The research scheme includes five stages: (1) predevelopment study; (2) curriculum development; (3) implementation; (4) formative evaluation; and (5) curriculum modification. The research results indicate that the…

Science programs should be such that a child develops a set of skills to explore content, rather than learning the content by rote or by memorizing. (GB)

Describes the Key Stage 3 Strategy and its four main principles-- expectations, progression, engagement, and transformation. Includes an example of a high school science booster program. (DDR)

Summarizes a level in the science education curriculum and identifies some goals to be reached. Examines the scope for future development and speculates on possible obstacles in reaching those goals. (DDR)

Proposes that one way of smoothing the move from primary to secondary science is for year 6 students in primary school to begin work that is continued in secondary school. (DDR)

Introduces a science program that provides an exciting, safe, and interactive educational experience. Describes activities and the impact of this program. (KHR)

Summarizes research findings and policy implications obtained over a 5-year period from the implementation of an In-Depth Expanded Applications of Science (IDEAS) model with average, above average, and at-risk students in grades 2-5. The IDEAS model replaced the time allocated to traditional reading/language arts instruction with a 2-hour time…

The Advanced Physics Project for Independent Learning (Appil) consists of 10 units based on three themes, namely, materials, forces and fields, and waves. Discusses the content and aims of the project, its emphasis on student-centered learning, managerial advantages, characteristics of the teacher's role, resource implications, and other topics.…

Suggested is that geology can contribute significantly to the general education of our students from the point of view of relevance and increasing understanding of the planet we inhabit which should be learned as a series of interacting processes involving a time dimension. Several curriculum projects are outlined. (Author/DS)

Illustrates how teachers designed new science learning environments based on research readings from science and technology studies and studied teaching and learning within these environments. Examples of students' science-related activities include videotaped laboratory activities, taped interviews, and student-produced artifacts collected over…