The Learning in Science Project (Primary)--LISP(P)--was designed to investigate the teaching and learning of science in the primary school. This paper summarizes the work undertaken and the findings obtained during the first 9 months of the project. During the first 6 months, an exploratory phase, similar to the original Learning in Science…

This paper, designed to be used in conjunction with a video-tape developed by the Learning in Science Project (Primary)--LISP(P)--shows excerpts from some of the interview schedules used to examine children's ideas about floating and sinking. These interviews involved the use of "interview-about-instances" (IAI) cards (included in an…

This study investigated the meanings and ideas held and questions asked by children (ages 7-14) about floating and sinking (in water). Data were collected from interviews using "interview-about-instances" (IAI) cards (included in an appendix) and 10 objects which either floated or sank. Additional data were collected from classroom…

The Learning in Science Project (Primary)--LISP(P)--investigated the ideas and interests children have about flowering plants (in particular whether these plants have a life cycle). Data were obtained from: individual interviews with children, ages 7- to 14-year-old (10 students for each age level), using the "interview-about-instances"…

This guide is intended for leaders of children's groups and teachers of lower elementary grades. The book is divided into two parts. The first half contains reports by Cub Scout den leaders. The second part gives the entries of the winning 8-, 9-, and 10-year-old participants. In Part I, there are wide margins in which teachers or leaders can make…

Explains miniprojects in high school science courses. Shows the project idea table and five examples with explanations. Discusses the experience and some positive results for students. (YP)

Describes a school-wide science event which focused on the theme of earth in space. Reviews how the teach-in was organized and includes examples of student involvement. Provides a listing of activities and topics for grades K-6. (ML)

This guide to science fair projects is designed for students and provides clear directions on how to complete a successful science project. Real projects are used as examples and information and advice is provided by teachers, judges, and participants and their families about the process. Topics covered in this book include choosing a science fair…

Project REM (Resources, Energy, Mankind) incorporates energy, ecology, and environmental topics into a sixth-grade science curriculum. Various activities of this year-long project are discussed, including those related to Mr. REM (a student-built "robot") and an all day exploration of energy held near the end of the school year. (JN)

Describes physics project of the sixth-year of secondary schools in Scotland. The article also discusses: (1) aims of the Scottish certificate of sixth-year studies (CSYS); (2) teacher's role; and (3) method of teaching physics projects. (HM)

Through the use of science-reading kits, one teacher develops practical application of children's reading skills. Each child designs and builds appropriate materials for science learning kit on the subject of his/her choice. (SA)

Described is a multidisciplinary group project for undergraduate students in astronomy and physics. The students design and build a simple radiotelescope subject to a number of realistic constraints such as fixed cost, use of a standard communications receiver, and buying of supplementary building materials off the shelf. (BT)

Discussed are facts about tort liability in science education and strategies that can be used to avoid liability. Variables such as maturity, size, age, mental capacity of students, and the nature of the activities are addressed. Included are four cases in which teachers were held liable for accidents. (KR)

Presents a many-faceted learning approach to the study of crystals. Provides instructions for performing activities including crystal growth and patterns, creating miniature simulations of crystal-containing rock formations, charcoal and sponge gardens, and snowflakes. (RT)

Describes a multidisciplinary unit which uses 12 varieties of apples. Explains activities for observing, predicting decay, art and science, the process of fermentation, and group and individual projects. Information on description of apples and labeled diagrams are included. (RT)