107 research outputs found

    Good supervision and PBL:Reflections and insights from Master students at the Faculty of Social Sciences at Aalborg University

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    Reflections on algorithmic thinking for video analysis:sorting out complex human activities

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    Dialogic approaches to the study of subjectivity

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    Book Review Sullivan, P. (2012). Qualitative Data Analysis: Using a dialogic approach. Los Angeles: SAGE Publications Ltd. ISBN 978-1-84920-609-

    The Educational Battle:Report about development, evaluation and dissemination of a teaching intervention

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    Multimodal ways of eliciting students' voice.

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    For some time researchers have been exploring how students might best be supported to express their ideas, opinions and feelings and to demonstrate what they know and can do. In this paper, we discuss some of the implications of sociocultural view of learning for how classroom research is conducted and describe some of the approaches we have used to generate information on student classroom experiences. Over the course of our work we have found that the use of multiple and multimodal data generation methods allows student with different interests and abilities to take an active part in research. We then detail some of the challenges and rewards involved in working with students in these ways as part of a research agenda focused on enhancing teaching and learning

    What determines perseverance in studying science?

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    This article explores the issue of university student recruitment and retention beyond the first and second year of studying science. The research investigated the 'image' students have of science, the demands they face in studying science and student self-efficacy, and the relative importance of these factors as perceived by 140 returning New Zealand year two science and engineering students, using questionnaires and focus group interviews. Results indicate that returning students are generally confident in their ability to cope with their science studies. However, a significant minority of students was unsure or not coping with issues such as course workloads, and findings suggest that during their first year science students need to be reassured that they are valued, and that their education is taken very seriously by the institution and their lecturers. Student commentary suggests this can be achieved by personalising lectures, ensuring personal contact with lecturers and monitoring how students are coping with the challenges and stresses that affect workload issues and subsequently their academic progress

    Taking video cameras into the classroom.

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    Research into the communication and interactions in classrooms need to take the multimodal nature of classrooms into account. Video cameras can capture the dynamics of teaching and learning, but the use of videos for research purposes needs to be well thought through in order to accommodate the challenges this tool holds. This article refers to three research projects where videos were used to generate data. It is argued that videos allow the researcher to hone in on the micro-details and, in contrast to other data generation tools, allows researchers who were not present at the time to view what has been witnessed. A video recording is a data source but not data by itself and the information that is discerned from a video is framed and shaped by the research paradigm and the questions asked

    Collaborative practices using computers and the internet in science classrooms.

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    Investigations that allow for students to self-direct their inquiries in science classrooms involve building on existing understanding, problem solving and reasoning. The process of explaining complex problems means that students work with multiple sets of data including online resources and information from the Internet. Outcomes of such activities are often in written form, frequently prepared on the computer, representing a collage of negotiated ideas. This article presents primary science classroom investigations about changes of state and landforms and argues that inscription practices were shaped by the functional and social affordances students imbued with the computer and information from the Internet. Findings from the qualitative study with a year 7 teacher, Clara, and her students illustrate how the Internet provided social and collaborative opportunities for scientific meaning making. The argument is made that access to the computer and information from the Internet can open up and constrain opportunities for social thinking and inscription practices. Talking, thinking and composing were observed to constitute the nature of science inquiries as a collaborative effort of meaning making

    Augmenting primary teaching and learning science through ICT

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    This study explored how information communication technologies (ICTs) in primary classrooms can enhance the teaching and learning of science. By building on teachers’ and students’ prior knowledge and experience with ICTs, we investigated how ICT use can structure activities to offer enhanced opportunities for active participation in science. The project generated examples of how ICTs can support subject-relevant ways of exploring and communicating science, and evaluating what has been learnt. The major implications from the key finding, found in the Summary report are that; ICTs amplify science learning if teachers unpack the scientific ideas to identify specific pedagogical strategies that exploit the opportunities of each ICT. Visually recorded data present instant, immediate and context-rich information that teachers and students can use as a repository for evaluation, analysis and communication. For ICT-supported activities to meet the needs of diverse learners, students and teachers need “sandpit” time to develop competencies to participate in various tasks. Teachers who use ICTs require support tailored to the specific pedagogical, content and technology needs of the topic they are teaching
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