Faculty of Education - Theses

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    Does hands-on experience promote autonomous use of computer pods in science teaching ?
    Weller, Jacolyn ( 2009)
    We have ingrained into our teaching ideology that Information and Communication Technology (ICT) is an essential component of modern education. The computer pod was suggested in the early 2000's by the Department of Education, Employment and Training (DEET) as the means of providing students with access to ICT, but neither the method to harness nor how to direct innovation for best practice were indicated. A literature review by Hennessy and Osborne (2003) provided information on the available ICT tools for Science teaching and suggestions exist for the merits of using computer pods in Culbertson's (1999) reflections on nine studies and Owen's (2003) discussions of English teaching, but rarely was there a merger between the fields of computer pods and Science teaching. Professional development within a department where teachers create their own tasks provides a method of computer pod integration when slotting the tasks into the curriculum. This provides a future teaching document incorporating computer pod usage. The process of creating activities provides a training opportunity for developing accessible resources. The hands-on experience of Science teachers developing their own tasks for sharing aligns with self-help and effective resource management. Impediments exist for teachers in the form of time, equipment, availability, booking requirements, a philosophy that a 1:1 student: computer ratio is essential, comfort zone, student management and supervision. Incentives such as: students being keen, comfortable, suited to this learning style and capable users in this environment, who knowledge share with their teachers provide balance to the impediments. This artefact (the computer pod) is acknowledged as a rich component of learning, particularly in promoting group work, where students build their knowledge together. The results of interviewing five Year 8 Science teachers before and after the research year, where pro-noun analysis was used, generated the findings that Science teachers automatically expand their comfort zone in this environment and acquire the desire to experiment via a transition into the classroom with the activities they have specifically created. Individual teachers ventured further and used tasks developed by others for shared use, while others limited their involvement. This research provided a spectrum of responses, which exhibits variability of success and enhances the reliability of the results when presenting individuals as a range within a small sample. A broad picture even though it had a small focus group. The generated direction was an ownership component was generated in what an individual has created for themselves, which gives the incentive to test it out and simultaneously motivates autonomous integration into teaching strategies. This process has potential applications to others; whether it is other Science teachers, faculties within schools, individual teachers or more broadly, where ownership of the artefact enables the individual to confidently step forward with what becomes part of their skill acquisition and comfort zone.
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    A cross-age comparative investigation of students' attitudes towards computers as a tool to support learning in years 7-12 science classes
    Waddington, Carolyn ( 2000)
    This thesis documents a cross-age comparative investigation of students' attitudes towards computers as a tool to support learning in Years 7 - 12 science classes. The study was set at the secondary school campus of an independent girls' school in Victoria. The secondary school is broken into three relatively autonomous groups, the Junior Secondary School (JSS), the Middle School (MS) and the Senior School (SS). Data was collected by a survey administered to 1215 students in Years 7 -12 science classes. Results of the survey were analysed using Analysis of Variance (ANOVA) and post hoc Bonferonni analyses. This study aimed to investigate the ways computers are used in science classes. Word processing and the internet were the most common computer uses across the school. A comparison of students in JSS, MS and SS's preferred frequency of use of computers in science classes was undertaken. JSS students preferred to use their computers more frequently in science classes when compared to MS and SS students. An investigation of the uses of computers in science classes that students found beneficial to their learning of science concepts was undertaken and compared across the three school groups. Students' attitudes towards computers as tools to support learning in the science classroom was investigated. The majority of students in all school groups felt the computer was a beneficial support for learning when completing assignment work and was a beneficial tool for presentation. However, it depended on the number of years of computer experience in science classes as to whether students felt the computer was of benefit to their learning of theory or practical work. Aspects of computer use at school in general, that students liked or disliked was determined. The stage of the curriculum that students were currently in, was the major determinant for the students' attitudes towards the use of computers as a support for learning.
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    What are the blockers/facilitators for a science coordinator to integrate datalogging into science teaching
    Weller, Jacolyn ( 2002)
    This project investigates a coeducational Secondary College Science Department that decided to introduce datalogging as a teaching tool. Datalogging is the electronic recording of data during an experiment using sensor probes. Decisions concerning the introduction of datalogging involved the science teaching staff, the laboratory technician and the Science Coordinator, all stakeholders in this process. This investigation was developed with the hindsight of a Literature Review, which provided the advice of others' experiences and catalogues the introduction in a case study format. Action research strategies were invoked through a series of focus interview questions, which provide a 'snap-shot' of the perceptions. From here a collaborative Change Management strategy of introducing datalogging into science teaching was produced. The factors that inhibited or prevented the use of datalogging in teaching were considered to be 'blockers'. Through interview questions the teachers and the laboratory technician were asked what they felt blocked their use of datalogging. The time required to become comfortable, familiar, confident and experiment with the equipment arose as the major concern for all teachers prior to using datalogging in science teaching, while the laboratory technician had more physical impediments. The technology capable participants did not encounter major hindrances. There was a constant limitation of equipment due to its expense, which was a factor accepted by all and where innovation in teaching style was required to overcome this impediment. However, all felt that visual 'memory-jogs' of the availability and uses of the equipment would encourage use. The factors that contributed to datalogging use were the 'facilitators'. These included a well rounded, informative and ongoing professional development strategy involving all staff members sharing knowledge combined with a laboratory technician who was conversant with the equipment, constantly promoting and encouraging usage and aiding the process. Throughout the project constant active problem solving emerged as a strategy by teachers whenever a 'blocker' was suggested. The advantage of collegial sharing through professional development was also recognised by staff and thought to integrate well when developing technology as a teaching tool. The process overall was time intensive due to lack of time in the working week when people are at different stages in embracing change and technology. Consequently whatever was learnt by individuals was regarded as worth sharing professionally.