This review takes a critical position with regards to Treagust and Duit’s article, Conceptual Change: A discussion of theoretical methodological and practical challenges for science education. It is proposed that conceptual change research in science education might benefit from borrowing concepts currently being developed in the sociology of emotions. It is further suggested that the study of social interaction within evolving emotional cultures is the most promising avenue for developing and extending theories about conceptual change.
This paper suggests new strategies for introducing students to robotics technologies and concepts, and argues for the importance of providing multiple entry points into robotics. In particular, the paper describes four strategies that have been successful in engaging a broad range of learners: (1) focusing on themes, not just challenges; (2) combining art and engineering; (3) encouraging storytelling; (4) organizing exhibitions, rather than competitions. The paper describes a new technology, called the PicoCricket, that supports these strategies by enabling young people to design and program
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Natalie RuskMitchel ResnickRobbie BergMargaret Pezalla-Granlund
In responding to the research on conceptual change, this article attempts to make two points. First, scientific concepts are not possessed by individuals; rather, they are part of a culture’s resources, which individuals learn to use for their own or for group purposes. Second, particular concepts are most effectively mastered when the learner is deeply engaged in solving a problem for which they function as effective semiotic tools in achieving a solution. On these grounds, it is argued that the mastering of scientific concepts is best achieved through learning to use them in motivated
Argumentation has become an increasingly recognized focus for science instruction---as a learning process, as an outcome associated with the appropriation of scientific discourse, and as a window onto the epistemic work of science. Only a small set of theoretical conceptualizations of argumentation have been deployed and investigated in science education, however, while a plethora of conceptualizations have been developed in the interdisciplinary fields associated with science studies and the learning sciences. This paper attempts to review a range of such theoretical conceptualizations of
Conceptual change views of teaching and learning processes in science, and also in various other content domains, have played a significant role in research on teaching and learning as well as in instructional design since the late 1970s. An important issue is whether conceptual change can provide a powerful framework for improving instructional practice in such a way that students’ levels of scientific literacy are significantly increased. In this article, the first section provides an overview on the development of conceptual change perspectives. In sections two to six, we examine the
This paper begins with a consideration of some important themes dealt with in the paper by Treagust and Duit. These include the relationship between research on conceptual change and educational practice, the significance of emotion and identity in the process of conceptual change, and role of cognitive conflict in motivating change. I then argue that the authors implicitly assert the importance of spoken dialogue as a motor for conceptual change, but do not give it the proper, explicit recognition that it deserves. I first use their own data of transcribed talk to make this point, and then go
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Neil Mercer
resourceresearchProfessional Development, Conferences, and Networks
In evaluating the success of teacher development programs, valid and scalable measures of teaching practice are needed. We have developed and validated the Science Lesson Plan Analysis Instrument (SLPAI) for quantitative evaluation of teacher-generated multiday lesson plans. This paper presents the SLPAI as a complement to surveys and classroom observation, and demonstrates its use in 2 pilot studies. The SLPAI was used formatively to measure the teaching practices of incoming program cohorts and tailor program instruction. It was also used to track changes in teaching practice and pedagogical
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Christina JacobsSonya MartinTracey Otieno
In what ways do urban youths’ hybridity constitute positioning and engagement in science-as-practice? In what ways are they “hybridizing” and hence surviving in a system that positions them as certain types of learners and within which they come to position themselves often as other than envisioned? To answer these questions, I draw from two ethnographic case studies, one a scientist–museum–school partnership initiative, and the other, an after-school science program for girls only, both serving poor, ethnically and linguistically diverse youth in Montreal, Canada. Through a study of the micro
The story from the museum may not be read by visitors, who come with their own knowledge and understanding and read a different story in the animals. The visitors read a story which makes sense to them and builds on what they already know and interests them. Increasingly, robotics models are being used in natural history museums, science centers, and zoos to attract visitors and tell some kind of story. What do the visitors actually talk about when looking at such robotic animals? The visitors reported on in this paper were primary school groups and families. Do they talk about similar things
This study examined the effectiveness of worksheets while learning about biodiversity in a natural history museum. Despite the frequent use of worksheets by school classes during out-of-school activities, their effectiveness in enhancing knowledge acquisition has been addressed by relatively few empirical studies. 148 Austrian grammar school students aged eleven to fifteen took part in the pre- and post-test questionnaire study which included a one-hour learning phase with worksheets in the museum. Results indicate a high learning effect from pre- to post-test. Further analyses show that
The article offers tips for early childhood educators on planning and implementing field experiences for young learners in natural history museums. It cites that providing children with access to nature could build their science literacy. Moreover, it emphasizes the importance of intrinsic motivation and recommends that teachers should focus on children's interests and provide them the time to relax. Teachers should also encourage active learning and ensure to make the visit memorable.
The purpose of this study was to describe and understand the range of outcomes of class visits to natural history museums. The theoretical framework is based on the multifaceted process of learning in free choice learning environments, and emphasizes the unique and individual learning experience in museum settings. The study’s significance is in highlighting several possible cognitive as well as non-cognitive learning effects in museums class visits, by providing the student’s point of view. Data was collected by semi-structured interviews with 50 students in grades 6–8 on the day following