In this study, the researchers investigated opportunities and challenges English language learners (ELLs) faced while learning the scientific practices of argumentation and communication of findings (NGSS practices 7 and 8; NGSS Lead States, 2013). Specifically, they asked how the teacher engaged ELLs in argumentation and communication and how the ELLs actually used these practices.
This article describes how two inquiry games promoted student science skills in a museum setting while minimizing demands on teachers, fostering collaboration, and incorporating chaperones. Students who played these games engaged in more scientific inquiry behaviors than did students in control groups.
This paper describes a model developed by education researchers seeking to bridge the gap between formal and informal learning contexts. The model matches organisational, cognitive, affective, and social-environmental aspects of learning with four key design principles to create 16 practical steps to help formal and informal educators communicate and cooperate more effectively.
Despite increasing interest in the educational potential of outdoor learning experiences, limited research has focused on assessing and identifying “good” outdoor education practice. In this paper, the authors propose a theoretically based practical framework for assessing field trips in nature parks and other outdoor settings. The framework was developed and refined during the course of observations of 22 field trips and interviews with 41 students.
Traditionally, collaborative technologies are intended to directly support joint, collaborative activity, taking their cues from communication and media. Here, empirical findings are presented about the types of information needs associated with the formation of a knowledge-building community among professional learning technology researchers. Several issues are outlined in designing, facilitating, supporting, and measuring knowledge-building activity in such as community of practice. It is argued that, rather than communication tools, a knowledge-building community is better served by
This chapter discusses learning through the manipulation of three-dimensional objects. The opportunity to touch and interact with objects is helpful for young children as they attempt to understand abstract concepts and processes. How might parents guide children in coming to understand the complex and abstract symbolic nature of representational objects?
"Let's Talk" will bring together professionals who are engaged in facilitating, evaluating or studying dialogue in STEM and history-based institutions for a symposium in Summer of 2015 structured as a 'meta-conversation' about what we know about dialogue. The project addresses the lack of a generalizable body of knowledge about dialogue, the need for instructional models and theory to inform the use of Dialogue programming, and the opportunity to prepare future museum professionals. Co-PI's: Kris Morrissey and Robert Garfinkle. Key activities include: Research Synthesis Paper; Symposium of professionals across STEM and history-based museums; Development of theory-based resources.
Knowledge building, as elaborated in this chapter, represents an attempt to refashion education in a fundamental way, so that it becomes a coherent effort to initiate students into a knowledge creating culture. Accordingly, it involves students not only developing knowledge-building competencies but also coming to see themselves and their work as part of the civilization-wide effort to advance knowledge frontiers. In this context, the Internet becomes more than a desktop library and a rapid mail-delivery system. It becomes the first realistic means for students to connect with civilization
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
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