Science, Technology, Engineering, and Mathematics (STEM) instruction in the United States has been a major focus of educational reform since the release of the PISA rankings in 2000, which showed that the U.S. was behind many other countries on the international stage in the areas of Science and Math. Students are also leaving the "STEM…

Youth are introduced to STEM topics through informal settings like science camps, aquaria, and zoos. In these interactive and sensory-rich environments, a well-designed programme can help participants to acquire knowledge and cultivate interest through experiential learning. Given the importance of informal activities in environmental education,…

The summer provides a unique opportunity for children to further their interests in science, especially science in the out-of-doors. Once school is out for the summer, there is seemingly unlimited time, with no strict curriculum guidelines to follow. For students with a passion for the out-of-doors, summer science camps and school-based summer…

Quality science programs extend well beyond the classroom or school yard. A local shoreline is a great place for inquiry-based "science activities". Students can explore seaweed clumps, conduct a gull census, or implement an investigation of their own design.

Synthesizes literature on apprenticeship learning, the sociology of science, and K-12 science education to develop a set of characteristics for designing/evaluating participatory science learning experiences. Clarifies and illuminates the value of these characteristics for science educators by using them as evaluative criteria for characterizing…

Describes how a science challenge program was modeled after the Olympics to offer a variety of science events in a competitive setting. Reviews organizational factors, suggests sources for events, and identifies rules and scoring procedures. (ML)

Describes a course for nonscience students which aims to teach quantitative modes for investigating natural phenomena by specific oceanographic applications to Long Island Sound. Highlights aspects of the course's lecture series and field study program. Identifies resources needed for the course and discusses problem areas and student evaluation.…

Describes the approach and programming emphasis of the National University of Distance Education (UNED). Specifically explains the university's summer residential workshops that focused on basic physics phenomena that were laboratory oriented. Includes examples of the course requirements and samples of the participants' opinions about the course.…

Discusses the teaching method of students studying a topic, then explaining the meaning of the concept to each other in their own words using examples from their everyday lives. The instructor acts as a coordinator, mediator, and a resource person. Concludes with the disadvantages of this interactive learning technique on a habitat tour, among…

Described is a science program in Hawaii for high school students in which students are trained in a variety of tasks at a local zoo during the morning hours and then return to campus for coursework. The program offers opportunities to develop responsibility and self-esteem. (SA)

Presents six case studies of EARTHWATCH expeditions which provide teachers with opportunities to work with scientists, participate in scientific discovery, and employ new technology. Educators join EARTHWATCH teams to explore tropical and dry forests, monitor ecosystems and species, unearth remains, and consequently develop innovative classroom…

The concept of experiential education has gained increasing popularity among many types of institutions and organizations. Experiential education is an interactive learning process between student, instructor, subject, and environment where the student becomes actively involved with the subject at hand through discussion, activity, and creative…

Stresses the importance of hands-on science in elementary schools. Gives tips on designing your own excellent science program. Lists resources for hands-on activities. (RT)

Provides listings of general and specific recommendations that can be used by individual teachers, curriculum specialists, and school districts wishing to develop Science-Technology-Society materials adaptable to the needs of urban students. (RT)

Examines whether participation in physical experiments together with social interaction with adults and school-mates favor the development of causal knowledge and the understanding of a complex physical subject. Concludes that the treatments can lead students to give up pre-causal explanations and to resort to physical ones. (Author/YP)