This study examines how researchers can better understand the instructional and practical realities of teachers through collective sensemaking. Traditional approaches to curriculum design engage learning models without accounting for the needed flexibility of teachers. This approach has resulted in tension and gatekeeping--inhibiting the…

Curriculum materials are important resources with which teachers make pedagogical decisions about the design of science learning environments. To become well-started beginning elementary teachers capable of engaging their students in inquiry-based science, preservice elementary teachers need to learn to use science curriculum materials…

Project-based science curricula can improve students' usable or meaningful understanding of the science content underlying a project. However, such curricula designed around "performances" wherein students design or make something do not always do this. We researched ways to design performance project-based science curricula (pPBSc) to better…

Earth Systems Science (ESS) is emerging rapidly as a discipline and is being used to replace the older earth science education that has been taught as unrelated disciplines--geology, meteorology, astronomy, and oceanography. ESS is complex and is based on the idea that the earth can be understood as a set of interacting natural and social systems.…

Reform efforts in science education emphasize the importance of rigorous treatment of science standards and use of innovative pedagogical approaches to make science more meaningful and successful. In this paper, we present a learning-goals-driven design model for developing curriculum materials, which combines national standards and a…

Discusses the challenges of scaling out university-developed, project-based science curricula. Investigates what constitutes and why implement inquiry-based, project focused learning environments; the role of integrating technology to support their implementation; the value of engaging in design experiments for their development; the importance of…

Described is an instrument which provides local schools with a means of assessing and/or revising their science curriculum. It is also designed to aid schools in developing a sequential, articulated curriculum based upon community, student, and staff needs. (DS)

Uses examples related to a head of cabbage to discuss: (1) sensory development in children; (2) the integration of sensory and cognitive involvement; and (3) a child's mode of exploring and discovering. Also discusses why science curricula need to be organized around a paradigm that is holistic. (JN)

Described is how an elementary teacher established an environment conducive to learning in her classroom by implementing her own integrated science and mathematics curriculum. The implications for change on the county and state levels are discussed. (KR)

Describes the background and 38 steps of the development of the Australian Science Education Project (ASEP) Curriculum. Discusses some implications and eight points using formative evaluation to improve science curriculum materials. (YP)

Described is a systematic plan for implementing a national curriculum development effort in science education in Pakistan. The stages, curriculum tasks, and evaluation tasks of the six-year program are included. Implications for other developing countries are addressed. (KR)

Presented are the background, conference charge, organization, and results from the "Planet Earth" conference. Discussed were the goals and concepts that every high school senior should know when completing a pre-college education. The issues, goals, and concepts of a curriculum are suggested. (KR)

Discusses the dangers of quick-fix solutions to the current crisis in science education and the need for a philosophical base and theoretical teaching strategies. Proposes science and mathematics study as requirements for grades K-14 and implementation of a vertically articulated curriculum. Concludes by calling for pluralistic response to the…