The link between science education and early childhood education is still blurred. This is so because many science education researchers apparently, but mistakenly, believe that the way young children interrogate and investigate the world around them is not appropriate for their understanding of scientific concepts. Although there is an effort…

Working at scientists' elbows is one suggestion that educators make to improve science education, because such "authentic experiences" provide students with various types of science knowledge. However, there is an ongoing debate in the literature about the assumption that authentic science activities can enhance students' understandings…

Many science educators encourage student experiences of "authentic" science by means of student participation in science-related workplaces. Little research has been done, however, to investigate how "teaching" naturally occurs in such settings, where scientists or technicians normally do not have pedagogical training and generally do not have…

Bringing a greater number of students into science is one of, if not the most fundamental goals of science education for "all", especially for heretofore-neglected groups of society such as women and Aboriginal students. Providing students with opportunities to experience how science really is enacted--i.e., "authentic science"--has been advocated…

Most academic science educators encourage teachers to provide their students with access to more authentic science activities. What can and do teachers say to increase students' interests in participating in opportunities to do real science? What are the discursive "resources" they draw on to introduce authentic science to students? The purpose of…

Many educators and policy makers argue that science literacy and numeracy are vital skills for successfully participating in the economy of this century. But how do educators increase the levels of scientific literacy, let alone make science a subject for all students, when the subject matter itself has been keeping students away? In this article,…

Reviews two dimensions in which science and technology share fundamental similarities: (a) the production and transformation of representations; and (b) the action-oriented language that describes the two domains. Illustrates what and how students know and learn science during technological design activities. (Contains 66 references.) (Author/YDS)

Describes using Vee maps and concept maps to guide student investigations and for student assessment. Technique focuses on following questions: what do I want to find out? what do I know? how do ideas connect? how do I go about finding answer to my question? what can I make of my findings? and what did I observe and measure? (PR)

This male-specific study examined the development of integrated process skill in the context of open-inquiry laboratory sessions. Findings from this qualitative study indicate that male students develop higher-order process skills through nontraditional laboratory experiences that provided the students with freedom to perform experiments of…

Illustrates how teachers designed new science learning environments based on research readings from science and technology studies and studied teaching and learning within these environments. Examples of students' science-related activities include videotaped laboratory activities, taped interviews, and student-produced artifacts collected over…

Describes the use of Vee maps in helping students understand scientific investigations. (PR)

Several types of physics activities that use real-world problems to motivate learners, use computers to assist in developing conceptual understandings, connect problem situations to mathematical models, and use the models to analyze other real-world problems are presented. The topics of racing sports, sailing, and damped harmonic oscillations are…

In this paper, we take up and advance the project of rethinking "scientific literacy" by Eisenhart, Finkel, and Marion (American Educational Research Journal, 1996, 33, 261-295). As part of a project of rethinking science education, we advance three propositions. First, because society is built on division of labor, not everybody needs to know the…

Presented are four activities which are designed to familiarize children with the multiple uses of computers and help them learn about heat and temperature using temperature probes. Included are the tempering effect of water, heat capacity, caloric content of foods, and weather. Hardware and software are discussed. (CW)

The use of concept maps, Vee diagrams, flow charts, and productive questions to increase student understanding of laboratory exercises and to improve student attitudes toward lab classes is discussed. Examples of each are provided. Student responses to these teaching methods are described. (CW)