"A Framework for K-12 Science Education: Practices, Crosscutting Concepts, and Core Ideas" emphasizes that the practice of science is inherently a model-building activity focused on constructing explanations using evidence and reasoning (NRC 2012). Because building and refining is an iterative process, middle school students may view this practice…

A strong, recent movement in tertiary education is the development of conceptual, or "big idea" teaching. The emphasis in course design is now on promoting key understandings, core competencies, and an understanding of connections between different fields. In biochemistry teaching, this radical shift from the content-based tradition is…

Funded by innovative programs at the National Science Foundation and the Howard Hughes Medical Institute, University of Richmond faculty in biology, chemistry, mathematics, physics, and computer science teamed up to offer first- and second-year students the opportunity to contribute to vibrant, interdisciplinary research projects. The result was…

This study was conducted to describe a high school engineering curriculum, identify teaching strategies used to increase math and science literacy, and discover challenges and constraints that occur during its development and delivery, as well as what strategies are used to overcome these obstacles. Semi-structured interviews were conducted with…

The purpose of this study was to determine the impact of using renewable energy data, obtained from a comprehensive data acquisition system, on improving students' learning and developing their higher-order learning skills. This study used renewable energy data available through a data acquisition system installed and tested by the Green Research…

The interrelation of science content and process is discussed in terms of analytic and systemic concepts. Analytic concepts identify the type or form of systemic concepts found in particular disciplines. In terms of analytic concepts, science processes such as observation, deduction, and prediction can be identified and defined as operations…

This is the final report of the Physical Science for Nonscience Students (PSNS) development project. The report includes five major topics and five appendices. The first section, the History of Organizational Activities, discusses the conferences in 1963-64 that initiated the planning of the course. The remaining sections include Administration,…

Provided are the printed instructional materials for the Science Curriculum Improvement Study (SCIS) Unit Position and Motion. This unit is a continuation of the part of the teaching program centering on space-time relations. The principle new idea introduced in this unit is that of the reference frame, a systematic selection of reference objects…

The project represents the efforts of Highline Public School s during 1967-68 to develop an integrated curriculum in mathematics and science for the primary grades. This project prepared teachers to develop scientific attitudes and student understanding of mathematical and scientific concepts. The curriculum was based upon an inquiry system…

Considers the development of science curricula from World War II and how the emphasis has changed to conceptualization of science knowledge in order to encourage intellectual activity. As well, this change has led to an improved climate for curriculum innovation. (Author/RK)

Scientific concepts and processes are best developed in the context of technological problem solving. However, even some of the best secondary science curricula are weak in technology education and visa versa. A goal of technology and science education is to integrate student learning of science and technology. The relationship between science and…

Describes the three phases of the development of the pilot project on science concepts learning which was designed to be implemented nationally by the participating countries of the Southeast Asian Ministers of Education Organization (SEAMEO). (HM)

Common misconceptions of children that may interfere with their learning science are discussed, including three aspects of science programs: complexity, fragility, and unclear learning outcomes. Special attention is given to the Science Curriculum Improvement Study (SCIS). Methods for solving problems dealing with students' misconceptions are then…