3. Electronic Theses and Dissertations (ETDs) - All submissions
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Item South African physical science teachers’ classroom language for enhanced understanding of science concepts(2016) Kurwa, Govero MemoryThe study reported in this research report was motivated by the continuous poor performance by South African learners in physical sciences. This poor performance is evidenced by the below expectations year in, year out grade 12 physical science final examinations results. Several factors may be contributing to this poor performance such as lack of resources (both financial and human resources), overcrowding, ineffective teaching methods, and the language of teaching and learning. The assertion for this study was that teacher’s oral classroom instructional language impacts on learning of classroom science. The study, hence investigated how South African physical science teachers use their oral instructional language to enhance the understanding of science concepts. The raw data was gathered through naturalistic observation and video recording of physical science lessons by two participant South African physical science teachers drawn from two different high schools located in the Gauteng Province. The two school were chosen on the basis of their matric results that are also below average. Follow up educator interviews were also conducted and video recorded. The videos of the lesson observations and educator interviews were transcribed verbatim and analysed. The study revealed that the participant educators were not explaining the meanings of all technical and non-technical words that were used in the observed lessons. Teachers did not distinguish between the everyday meanings and scientific meanings of non-technical words used. Participant educators did not seek and make use of the participant learners’ pre-instructional meanings of non-technical words to help learners understand better the new scientific meanings of these words. One of the participant educators did not engage learners in the ongoing lesson talk. The findings of this study will sensitise physical science teachers to important role of their oral instructional language to successful learning of science concepts in the classroom. This might help in ensuring science teachers use their oral instructional language effectively to enhance understanding of science concepts, by adopting teaching approaches that facilitate shared meanings of vocabulary used in science classrooms. Key words: technical and non-technical words, instructional language, science language.Item Grade 11 learners' and teachers' conceptions of scientific inquiry in relation to instructional practices.(2013-09-30) Dudu, Washington TakawiraThis exploratory, descriptive and interpretive study investigated the interactions among learners’ conceptions of the nature of scientific inquiry (NOSI), teachers’ conceptions of NOSI and teacher instructional practices when teaching investigations in Physical Science. The participants were South Africa, Grade 11 learners (n= 167) and teachers (n=5), from five schools in the Johannesburg region of South Africa. The schools were conveniently and purposefully sampled. Learners’ and teachers’ conceptions on six NOSI tenets were investigated. These tenets are: difference between laws and theories; difference between observation and interpretation; there is no one method in science; accurate record keeping, peer review and replicability in science; socially and culturally embeddedness nature of scientific knowledge; and the role of human creativity and imagination in the development of scientific knowledge. Data on learners’ and teachers’ conceptions of the NOSI was obtained through; questionnaires, probes and interviews. Teacher instructional practices were determined using laboratory class observations, questionnaires, teacher and learner interviews, and analysis of instructional materials. The data was quantitatively analyzed using mainly, descriptive statistics, correlations, Regression Analysis and Multivariate Analysis of Variance (MANOVA). Qualitative data was analyzed using a combination of analytic induction and interpretive analysis. The results show that learners’ NOSI conceptions were inconsistent, fragmented and fluid, with the majority of the learners displaying naïve conceptions. Teachers were found to hold mixed NOSI conceptions ranging from static, empiricist-aligned to dynamic, constructivist-oriented. Teacher instructional practices were found to be a repertoire of contrasting methodological approaches lying along a continuum ranging from close-ended inquiry to open-ended inquiry. The study found the interactions between and among the investigated variables to be weak and not direct and simple, but complex and under the governance of a variety of factors in the instructional milieu. Curriculum and assessment demands were found to be major factors possibly responsible for weakening the interactions. For the investigated variables, it is posited that the interaction between variables is under the governance of both the context in which the instruction takes place and some factors already embedded in the teacher’s or learner’s conceptual ecology. Recommendations and implications for the practice of science education and future research are raised and discussed.