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Towards a new framework for reconstruction of the primary science curriculum in South Africa.Raubenheimer, Carol Dianne. January 1996 (has links)
The purpose of this study is to ascertain, from a review and analysis of the literature, if any
key messages emerge within which curriculum reconstruction of primary science
education in South Africa can be undertaken.
Firstly, three paradigms in education are equated with three philosophies of science and
the compatibility of modes of inquiry are highlighted. It is argued that paradigms can be
used as a form of analysis to locate particular approaches to the teaching and learning of
science.
Thereafter, an overview of major trends in science education is provided. The various
views of and approaches to science education are analysed and located within particular
paradigms. In order to assist in such analyses, a conceptual framework is developed. This
draws on key determinants of curriculum development and locates these within each of the
three paradigms.
The framework is applied to a review and analysis of international emphases in primary
science education, within which five different perspectives are identified. These are located
within different paradigms. Science education in developing countries is considered
thereafter and some recent trends in primary science curriculum development in South
Africa are examined. It is shown that the recent syllabus revision process and the revised
syllabuses in South Africa are still located in a technical approach to curriculum
development.
In seeking an alternative approach, the weaknesses of imported ready made solutions from
more developed contexts are highlighted, and an exploration of alternative approaches that
are more responsive to local contexts is then undertaken. Some innovative examples of
curriculum development in other parts of Africa and South Africa are examined.
From the review and analysis a set of key messages emerge for curriculum development in
primary science education. In selecting appropriate programmes, it is vital that attention is
given to children's' existing abilities and ideas, to the expected role for science in society,
and to a particular society's values and norms. Material provision, of itself, does not bring
about meaningful change, and teachers can and should be involved in the production of
teaching materials. Another key message is that it is crucial for teachers to be involved in
curriculum decision making, although they may need inservice support to make this
possible. Approaches to inservice education must therefore give due consideration to this,
and to developing classroom based teaching competencies. Finally, attention is given to
some of the factors which may contribute to systemic change in science education. / Thesis (M.Ed.)-University of Natal, 1996.
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Primary school teachers' understanding and interpretation of problem-solving : how it is promoted in science lessons, why and why not?Moeletsi, M'aseapa Mookho Violet. January 2005 (has links)
This study explores how Lesotho primary school teachers understand and interpret problem-solving
(PS) and how they teach and support it. Observation schedules and semi-structured interviews were
used to collect data from classrooms, teachers and learners. The findings revealed that teachers have
considerable understanding of (PS) and value it but are not teaching it. Teachers attribute this to their
lack of knowledge, the difficult conditions in their schools, policy constraints (such as assessment) and their own habits and behaviours. However, the data also indicated that teachers, with support, can successfully design and teach appropriate lessons in their schools, raising issues about their knowledge, beliefs, identity and structures. / Theses (Ph.D.)-University of KwaZulu-Natal, Durban, 2005.
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An exploration of teachers' experiences in teaching standard four mathematics and science curriculum in second language : a case study in three selected Lesotho primary schools in rural areas.Thuzini, Mamzwandile Alinah. January 2011 (has links)
This study sought to explore teachers' experiences in teaching Mathematics and Science through second language in Standard 4 at rural primary schools in Lesotho. In addressing this purpose, a qualitative case study method of data production was used. The participants were four Standard 4 Mathematics and Science teachers from three selected schools. Qualitative data were collected through individual semi-structured interviews and lesson observations in the classroom. These were analyzed using a qualitative thematic approach. The study is informed by Vygotsky‟s social constructivist theory and Shulman‟s pedagogical content knowledge theory.
The findings revealed that teachers experienced several challenges in teaching Mathematics and Science through second language in a transitional class. The greatest challenge that the participants experienced was the language that is used for instruction in Standard 4. According to the Educational Policy of the Government of Lesotho, English has been approved as the medium of instruction (MOI) from Standard 4 upwards. In Standards 1-3 pupils are taught in their mother tongue (Sesotho); thereafter the MOI changes to English. The participants reported that the shift from Sesotho to English posed a serious problem in the teaching and learning of Mathematics and Science in Standard 4. They further claimed that most pupils in Standard 4 do not proceed to the next class, since these two subjects are core subjects and the MOI makes passing them problematic. Teachers regularly employed code-switching as a strategy to make meaning for their pupils in their classrooms.
It is recommended that the Government of Lesotho should consider changing the medium of instruction to English from Standard 1. It is also recommended that the inspectorate service should be decentralised and that one teacher at primary level should not teach all the subjects but teach according to specialisation. There should also be more regular in-service training of Mathematics and Science teachers. / Thesis (M.Ed.) - University of KwaZulu-Natal, Edgewood, 2011.
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A case study of the implementation of science process skills for grades 4 to 7 learners in natural sciences in a South African primary schoolAmbross, Johannes Nikolaas January 2011 (has links)
With the publication of the National Curriculum Statement (2002) (NCS) the use and development of science process skills have become a critical part of the teaching and learning of the Natural Sciences in South Africa. This study sought to evaluate the implementation and development of these basic skills by four grade 4-7 educators at classroom level at a primary school in the northern areas of Port Elizabeth. Qualitative data for this evaluation were collected through educator interviews, classroom observation as well as a focus-group interview. Quantitative data were gathered by means of a Science Process Skills Observation Scale and through examining the learners' assessment activities. An Assessment Activity Science Process Skill Rating-Scale was used to evaluate assessment activities. Data generated from this study were carefully analysed and on the basis of their interpretation it was concluded that the implementation and development of science process skills were strongly influenced by the educators' understanding of these basic concepts, the belief held by each educator about their role and how their learners learn, the presence of quality support and effective training programmes as well continuous professional development.
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Integrating a science/language arts curriculum through the use of theme cycles in a first and third grade classroomCarrillo, Mary, Montoya, Lorena 01 January 1995 (has links)
A collaborative science curriculum created by a first and third grade class. The students were provided with the global theme of change and were invited to brainstorm topics of interests that were utilized to create a science theme cycle.
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Using Art to Teach Students Science Outdoors: How Creative Science Instruction Influences Observation, Question Formation, and InvolvementCone, Christina Schull 21 November 2014 (has links)
Elementary education has become increasingly divided into subjects and focused on the demand for high math and reading scores. Consequently, teachers spend less time devoted to science and art instruction. However, teaching art and science is crucial to developing creative and rational thinking, especially for observation and questioning skills. In this study, third grade students attending an urban school in Portland, Oregon received instruction of an art strategy using observational and quantifying drawing techniques. This study examines, "Will an art strategy observing the local environment help students make observations and ask questions?" and "In what ways are student learning and perspectives of science affected by the art strategy?" The independent variable is the art strategy developed for this study. There are three dependent variables: quality of student observations, quality of questions, and themes on student learning and perspectives of science. I predicted students would develop strong observation and questioning skills and that students would find the strategy useful or have an increased interest in science. The art scores were high for relevance and detail, but not for text. There were significant correlations between art scores and questions. Interviews revealed three themes: observations create questions, drawing is helpful and challenging, and students connected to science. By examining science through art, students were engaged and created strong observations and questions. Teachers need to balance unstructured drawing time with scaffolding for optimal results. This study provides an integrated science and art strategy that teachers can use outdoors or adapt for the classroom.
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Teacher thinking: a comparison of science elective and non-science elective primary school teachersSo, Wing-mui, Winnie., 蘇詠梅. January 1996 (has links)
published_or_final_version / Education / Master / Master of Education
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Collaborative learning in science project among primary 5 students using Knowledge Forum (KF)Yang, Shun-shing., 楊順成. January 2004 (has links)
published_or_final_version / abstract / toc / Education / Master / Master of Science in Information Technology in Education
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The meaning of relevant science in townships in Cape Town.Stears, Michele. January 2005 (has links)
This study explores the meaning of relevant science in two townships in Cape Town. Reform in science education, both nationally and internationally has placed much emphasis on the fact that science education should be relevant. The research conducted in this study attempts to interpret different dimensions of relevance. This study explores not only how learners make meaning of their everyday lives, but what 'science' they deem to be relevant and worth learning within this context. It acknowledges the important role of teachers in establishing what learners perceive to be relevant. The theory of social constructivism is suited to this investigation, in its recognition of the roles of children's knowledge, purposes, social groups and interactions in learning. The children in this study often have personal lives steeped in poverty, abuse and violence. The curriculum design is also guided by social constructivist theories. However, a second version of constructivism, critical constructivism, is used to frame the second phase of the study. A critical constructivist approach raises questions about the type of knowledge learners interact with. In critical constructivism, science and its methods, the curriculum and the classroom are opened up to critical inquiry. Teachers' knowledge of their learners is used to design science lessons that are more meaningful, relevant and personalised. The individual lessons, as well as the lesson series that are used in this study are designed as examples of relevant science, while the lesson series also serves as a tool to elicit deeper understandings of what learners in this particular context experience as relevant to their lives. Although the main focus of this research is the relevance of using everyday knowledge in the classroom, bringing everyday knowledge into the classroom allows for the inclusion of a number of dimensions of relevance. The different ways in which learners respond to the science lessons in both phases are discussed as five outcomes. The findings of the research show that the essence of a relevant science curriculum lies in a particular design. This design accommodates many dimensions of relevance, such as relevant content, context and purposes. Such as design helps learners to negotiate the difficult border between the formal school environment and the informal home environment. A relevant curriculum acknowledges that science education is more than only science, but also recognises the implications for science curriculum development. This study is part of a larger project which is a comprehensive evaluation of the Primary Science Programme (PSP). The PSP gave the research its full support as the investigation of relevance may have an influence on curriculum design. / Thesis (Ph.D.)-University of KwaZulu-Natal, 2005.
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Difficulties experienced by educators implementing curriculum 2005 : a case study of grade seven Natural Science educators in a predominantly rural district of one region of the KwaZulu-Natal Department of Education.Oakes, Ivan Alvin James. January 2001 (has links)
The purpose of this study was to establish what difficulties Grade Seven educators were
experiencing in the implementation of Curriculum 2005, a new national outcome-based
curriculum with wide ranging aims.
A qualitative approach, using a case study method, was employed and mainly in-depth
interviews and observations were conducted. Six Grade Seven educators in a variety of
schools were interviewed at length about the wide ranging problems they experienced in
introducing C2005 into the classrooms for the first time in 2000. The interview data was
supplemented by personal observations of most of these educators in their schools.
The research study was undertaken in a predominantly rural district of one region of the
KwaZulu-Natal Department of Education.
The findings of the study are presented and these are interpreted and discussed under two
categories: these being the kinds of difficulties enunciated by the educators and the
researcher's observation of identified features of problems.
The key findings of this research study are the following:
• Educators use inappropriate teaching styles
• Educators lack a conceptual knowledge of Science
• Educators lack the skill to teach practical work
• Educators avoid selected aspects of C2005
• Assessment, recording and reporting is a threat to educators
• Educators are not able to use learners' knowledge
• Educators display a waning interest in the implementation of C2005
• Educators are stressed out
• There is an increased workload on educators Educators lack qualification, training and teaching in outcomes - based approaches
• Educators do not have parental support
• There is a lack of guidance on what to teach
• The lack of resources is a major obstacle for the implementation of C2005
• Educators lack a commitment to teach Natural Science
• There is a lack of support from principals and school management teams
Finally, recommendations are made for the successful implementation of C2005 as well
as suggestions for further research. / Thesis (M.Ed.) - University of Natal, Pietermaritzburg, 2001.
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