In this chapter we explore how people build new theories in the context of collaborative scientific thinking. As illustrated by many of the chapters in this volume, our default notion of "scientific thinking" has changed from that of the lone scientist or student toiling away on a magnum opus or in the laboratory, to that of people working as part of collaborative groups who negotiate goals for the task, co-construct knowledge, and benefit from the diverse prior knowledge that each collaborator brings to the table. In some ways, conceptualizing scientific thinking as fundamentally
When designing programs for science learning, it is important to consider that children's experiences with science begin years before they encounter science in the classroom. Children's developing understanding of science begins in their everyday activities and conversations about the natural and technical world. Children develop "scientific literacy" as they begin to learn the language of science (e.g., concepts such as "gravity" or "metamorphosis"), the kind of causal explanations that are used in scientific theories (e.g., the day-night cycle results from the rotation of the earth), and the
For children to achieve an understanding of science and of the ways of doing science, and for them to be motivated to use these ways in coping with, understanding, and enjoying the physical, biological, and social world around them, it is not enough that they believe that science is practically important. They must also be curious. Curiosity calls attention to interesting, odd, and sometimes important items in the drama that is revealed to us through our senses. Idle or purposeful, curiosity is the motor that interests children in science; it is also the principal motor that energizes and
This paper describes a framework for studying and evaluating learning environments which contextualize school science content within a larger real-world scientific endeavor, such as carrying on a space mission. A central feature of this framework is its incorporation of recent research on content-specific personal interest. This framework was developed and tested in a pilot evaluation of the Challenger Learning Center's M.A.R.S. (Mission Assignment: Relief and Supply) learning activity. This activity consists of a series of classroom activities which prepare students for a simulated Mars
Field trips are a popular method for introducing students to concepts, ideas, and experiences that cannot be provided in a classroom environment. This is particularly true for trans-disciplinary areas of teaching and learning, such as science or environmental education. While field trips are generally viewed by educators as beneficial to teaching and learning, and by students as a cherished alternative to classroom instructions, educational research paints a more complex picture. At a time when school systems demand proof of the educational value of field trips, large gaps oftentimes exist
This study explored the influence of a Saturday Science program that used explicit reflective instruction through contextualized and decontextualized guided and authentic inquiry on K‐2 students’ views of nature of science (NOS). The six‐week program ran for 2.5 hours weekly and emphasized NOS in a variety of science content areas, culminating in an authentic inquiry designed and carried out by the K‐2 students. The Views of Nature of Science Form D was used to interview K‐2 students pre‐ and post‐instruction. Copies of student work were retained for content analysis. Videotapes made of each
Elementary school children are capable of reproducing sophisticated science process skills such as observing, designing experiments, collecting data, and evaluating evidence. An understanding of the nature of scientific knowledge requires more than teaching and learning the performance of these skills. It also requires an appreciation of how these actions lead to knowledge generation and shape its durable and tentative nature. Our understanding of activities that support the teaching and learning of the nature of scientific knowledge is still growing. This study compares how scientific
In this article, we explore the Programme for International Student Assessment (PISA) with a lens informed by the socioscientific issues (SSI) movement. We consider the PISA definition of scientific literacy and how it is situated with respect to broader discussions of the aims of science education. We also present an overview of the SSI framework that has emerged in the science education community as a guide for research and practice. We then use this framework to support analysis of the PISA approach to assessment. The PISA and SSI approaches are seemingly well aligned when considering
This article explores analogy as a communicative tool used by parents to relate children's past experiences to unfamiliar concepts. Two studies explored how similarity comparisons and relational analogies were used in parent-child conversations about science topics. In Study 1, 98 family groups including 4- to 9- year-olds explored two science museum exhibits. Parents suggested comparisons and overtly mapped analogical relations. In Study 2, 48 parents helped first- and third-grade children understand a homework-like question about infections. Parents suggested relational analogies and overtly
Substantial evidence exists to indicate that outdoor science education (OSE)—properly conceived, adequately planned, well taught, and effectively followed up—offers learners opportunities to develop their knowledge and skills in ways that add value to their everyday experiences in the classroom. Specifically, OSE can have a positive impact on long-term memory due to the memorable nature of the setting. Effective OSE, and residential experience in particular, can lead to individual growth and improvements in students’ social skills. More importantly, there can be reinforcement between the
This research examines the impact of related classroom activities on fourth grade students' science learning from a school field trip. The current study draws upon research in psychology and education to create an intervention that is designed to enhance what students learn from school science field trips. The intervention comprises a set of activities that include 1) orientation to context, 2) discussion, 3) use of field notebooks, and 4) post-visit discussion of what was learned. The effects of the intervention are examined by comparing two groups of students: an intervention group which
DATE:
TEAM MEMBERS:
Journal of Museum EducationMarilyn Petty GlickAla Samarapungavan
EDC’s Center for Children and Technology (CCT), a nonprofit research and development organization (cct.edc.org), conducted the formative evaluation of the BAS project for the last three years. Iridescent has assisted CCT researchers in the successful implementation of the evaluation (e.g., organizing site visits and meetings with partners, administering surveys, collecting consent forms). As discussed in more details below, Iridescent has always taken seriously the evaluation findings and recommendations, and has acted upon them to make program improvements. This research partnership has led