The average American produces around 1,600 pounds of garbage every year, and it is estimated that 50 percent of that waste is material that could be composted (Clean Air Council, 2012). Instead, most is sent to landfills and incinerators. In technology and engineering education, a great deal of time is spent in talking, teaching, and thinking…

The number of students majoring in science, technology, engineering, and math (STEM) is declining due in part to a lack of student interest (Fairweather 2008; NRC 2012; PCAST 2010). One reason may be the difference between how science is done in school and how it is done in the field (Osborne, Simon, and Collins 2003). An interdisciplinary…

Describes a project where students visit, evaluate, and report on chemistry web sites. Discusses implementing the project, problems with the process, and results and rewards. Includes the evaluation form used and lists students' top chemistry sites. (JRH)

One author shares the unique opportunity to be immersed in the science of "sound at work" through participation in NOAA's (National Oceanic and Atmospheric Administration) Teacher at Sea Program. A third- through fifth-grade learning outcome within the Nature of Science section of the "Next Generation Science Standards"…

Describes a project that enables students to apply their chemical knowledge and business sense in a real-world activity. Involves forming companies that compete against each other to produce two pounds of the best quality soap. (JRH)

Outlines and illustrates the Dartmouth approach to developing a science project. This problem-solving approach, promoted by the Thayer School of Engineering at Dartmouth College, helps teachers in guiding students in all phases of project work. (JRH)

Describes the organizational framework, didactic and methodological considerations, and the content of a four-day astronomy project in a secondary West German school. Presents information on the media used and related literature. Appended are the instruments of observation. (DB)

This article about science fairs provides a list of topics children can research and suggestions for evaluating the possibilities of project ideas before children invest much work in them. Ideas for selecting a fair date and location, choosing judges, and involving parents and the community are included. (PP)

This article offers quick, inexpensive activities for teaching concepts in three basic areas of the elementary science curriculum (air, sound, and light) with instructions for assembling more sophisticated laboratory tools (e.g., an electroscope and a balance scale). Hands-on science activities that use household items are described. (SM)

Students should have some experience with science carried out over time periods of several months or an entire school year. Presents suggestions to help teachers start their own bank of ideas for long-term science activities. (PR)

Presents detailed descriptions and diagrams for having students build their own hot air balloons. Describes the educational benefits of the balloon building. (PR)

Presents detailed descriptions and diagrams for having students build their own miniature box kites. Describes the educational benefits of the kite building. (PR)

Describes a six-week project, in which students ground their own mirror, built a working telescope, and learned how and why it all works. (PR)

Provides insights for college-level teachers beginning their tasks of directing student research. (PR)