The support of academics, professionals, and researchers from the most diverse scientific areas to STEAM education is due to the strong impact it has on preparing citizens for a world of continuous scientific and technological development. Among its benefits, we highlight the improvement of critical, innovative, and creative thinking; the…

Summarizes the early discussion results in the development of a physics project in higher education. Indicates that the first-year experience concentrates on the following aspects: laboratory work, tutorial programs, and individualized instruction. (CC)

Describes a physics laboratory course which operates without written instructions and with no required experiments. Course is based upon one- or two-week topics in mechanics, heat, electromagnetism and optics with a student-designed experiment in modern physics as an extended project. (DF)

Discusses a teaching program for introductory chemistry laboratories that allows for differences in student background and ability. The flexible program involves self-pacing and a classification of experiments; this permits slower students to proceed through remedial loops while advanced students proceed to more difficult experiments. (MLH)

A set of ions is selected (by computer program available from author) for each student in this qualitative analysis course. Students work out a separation scheme based on results of their experimentation and using selected references. Course methodology, preparation of solutions/unknowns, grading, and student responses are discussed. (Author/SK)

Describes the difficulties that arise from teaching science to mixed ability groups where individualized instruction is emphasized. (BR)

Describes a course based on three levels of student performance (achievement, rationalization, creative). Students work on the achievement level at their own rates with lectures available, but not mandatory. Laboratory exercises are required. Grading is dependent on the amount of fulfillment of all three levels. Year-end assessment was determined…

Article discusses the best way to build a background of familiarity and an attitude of readiness for science learning. (Author/RK)

Describes a self-taught optical mineralogy course which uses eleven 40-60 minute color videocassettes. Laboratory exercises, instructional strategies, and development of graphical manipulation and display exercises are considered. Content of each tape is listed. (BC)

An independent study project is launched for eighth graders which allows students to perform various activities including laboratory experiments, laboratory search, and interpretation of data. Program is well received by people involved. (PS)

This is the final report of the evaluation of Project CAUSE, a three year project to improve the laboratory portions of undergraduate physics courses at North Texas State University. The report is divided into six sections. Included in the overview are goals and purposes, the instructional format, and the evaluation plan. Demographic profiles…

The major objective of this module is to help students understand how water from a source such as a lake is treated to make it fit to drink. The module, consisting of five major activities and a test, is patterned after Individualized Science Instructional System (ISIS) modules. The first activity (Planning) consists of a brief introduction and a…

The Intermediate Science Curriculum Study Spanish language science instruction manual for the intermediate grades focuses on energy of many types. The soft bound volume uses self-pacing and individualized learning to guide the students through a series of experiments. Basically, the students are asked to think about what they do and see, evaluate…

Describes the technical and pedagogical characteristics of the ESSOR system simulation on minicomputers, which allow the simulation of science experiments in the laboratory. Reflects on several years of use and development in the field of chemistry. (Author/DS)

This 21-chapter methods textbook provides essential information, practical applications, and resource materials for prospective, beginning, and experienced science teachers, professional science educators, science coordinators, and science supervisors. Major topic areas addressed in the chapters include: the scientific enterprise and science…