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Die insig in en toepassing van basiese begrippe in natuur- en skeikunde deur standerd VIII-leerlinge : 'n empiriese studie / Jacobus Lodewikus TheronTheron, Jacobus Lodewikus January 1956 (has links)
Thesis (MEd)--PU vir CHO
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Die insig in en toepassing van basiese begrippe in natuur- en skeikunde deur standerd VIII-leerlinge : 'n empiriese studie / Jacobus Lodewikus TheronTheron, Jacobus Lodewikus January 1956 (has links)
Thesis (MEd)--PU vir CHO
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Die ontwikkeling van 'n skaal vir die bepaling van die houding van eerstejaarstudente aan Afrikaansmediumuniversiteite teenoor die natuurwetenskap en natuurwetenskaplikes / Stephanus Johannes NelNel, Stephanus Johannes January 1978 (has links)
Proefskrif--PU vir CHO
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Die ontwikkeling van 'n skaal vir die bepaling van die houding van eerstejaarstudente aan Afrikaansmediumuniversiteite teenoor die natuurwetenskap en natuurwetenskaplikes / Stephanus Johannes NelNel, Stephanus Johannes January 1978 (has links)
Proefskrif--PU vir CHO
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Learners' conceptual resources for kinematics graphs / Grace DjanDjan, Grace January 2014 (has links)
Various researchers have indicated the importance of graphs in physical sciences and the difficulties that learners may experience with graphs. More specifically, learners’ problems with motion graphs have been reported in literature. Learners’ difficulty in the application of basic concepts in graphs to solve kinematics graphs problems leads to underperformance in physical sciences. Their ability to handle problems in kinematics graphs is enhanced if they have an effective knowledge base or conceptual resources on graphs.
In South Africa there seems to be a gap between the GET [General Education and Training] and FET [Further Education and Training] band’s requirements on graphs. A smooth learning progression is needed. For this reason this study selected to investigate the conceptual resources acquired by grade 10 learners from grade 9 that can be used productively for the learning of kinematics graphs in grade 10. The primary aim of the study was to determine and analyse grade 10 learners’ conceptual resources for learning kinematics graphs in physical sciences.
The use of a mixed method approach was considered appropriate for this study. The mixed method depended on the quantitative method to produce precise and measurable data, while a qualitative method was to enhance the understanding of the data produced by the quantitative method. Data obtained by quantitative methods was drawn into tables and graphs, and the consistency in responses determined. Patterns and trends in learners’ reasoning were probed with the aid of qualitative method. In the study it was reported that the quantitative data in the form of a questionnaire was completed by 201 learners. Qualitative data was also obtained by interviewing three learners with varying abilities.
The results showed that many learners could answer mathematics questions, but struggled with similar questions in kinematics. The results further showed that the learners did not answer the questionnaire consistently, but their responses depended on the context of the questions. In the interviews learners used everyday applications to explain scientific concepts, instead of using scientific principles. Still, some of the everyday applications may be used as resources for teaching the science concepts.
From the results it can be deduced that learners’ conceptual resources can influence their understanding of kinematics graphs in physics. These resources are gained from everyday experiences and previous learning in mathematics and the natural sciences. A constraint is that many learners do not efficiently integrate their mathematics and physics knowledge. iv
In the study some learners did not transfer their mathematics knowledge to physics, while others could not transfer their physics knowledge to mathematics.
From the results recommendations can be made for the teaching of graphs in the GET band for easier progress into the FET band. The strategy to improve understanding of kinematics graphs is to progressively integrate mathematics and physics from grade nine. Line graphs should be treated in more detail in grade 9 to form proper conceptual resources for kinematics graphs in grade ten. / MEd (Natural Sciences Education), North-West University, Potchefstroom Campus, 2014
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Learners' conceptual resources for kinematics graphs / Grace DjanDjan, Grace January 2014 (has links)
Various researchers have indicated the importance of graphs in physical sciences and the difficulties that learners may experience with graphs. More specifically, learners’ problems with motion graphs have been reported in literature. Learners’ difficulty in the application of basic concepts in graphs to solve kinematics graphs problems leads to underperformance in physical sciences. Their ability to handle problems in kinematics graphs is enhanced if they have an effective knowledge base or conceptual resources on graphs.
In South Africa there seems to be a gap between the GET [General Education and Training] and FET [Further Education and Training] band’s requirements on graphs. A smooth learning progression is needed. For this reason this study selected to investigate the conceptual resources acquired by grade 10 learners from grade 9 that can be used productively for the learning of kinematics graphs in grade 10. The primary aim of the study was to determine and analyse grade 10 learners’ conceptual resources for learning kinematics graphs in physical sciences.
The use of a mixed method approach was considered appropriate for this study. The mixed method depended on the quantitative method to produce precise and measurable data, while a qualitative method was to enhance the understanding of the data produced by the quantitative method. Data obtained by quantitative methods was drawn into tables and graphs, and the consistency in responses determined. Patterns and trends in learners’ reasoning were probed with the aid of qualitative method. In the study it was reported that the quantitative data in the form of a questionnaire was completed by 201 learners. Qualitative data was also obtained by interviewing three learners with varying abilities.
The results showed that many learners could answer mathematics questions, but struggled with similar questions in kinematics. The results further showed that the learners did not answer the questionnaire consistently, but their responses depended on the context of the questions. In the interviews learners used everyday applications to explain scientific concepts, instead of using scientific principles. Still, some of the everyday applications may be used as resources for teaching the science concepts.
From the results it can be deduced that learners’ conceptual resources can influence their understanding of kinematics graphs in physics. These resources are gained from everyday experiences and previous learning in mathematics and the natural sciences. A constraint is that many learners do not efficiently integrate their mathematics and physics knowledge. iv
In the study some learners did not transfer their mathematics knowledge to physics, while others could not transfer their physics knowledge to mathematics.
From the results recommendations can be made for the teaching of graphs in the GET band for easier progress into the FET band. The strategy to improve understanding of kinematics graphs is to progressively integrate mathematics and physics from grade nine. Line graphs should be treated in more detail in grade 9 to form proper conceptual resources for kinematics graphs in grade ten. / MEd (Natural Sciences Education), North-West University, Potchefstroom Campus, 2014
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The value, place and method of teaching natural science in the foundation phaseBosman, Linda 31 March 2006 (has links)
ABSTRACT
The study aims at establishing whether Foundation Phase schooling provides a proper
foundation for the promotion of scientific literacy. Natural Science in the Foundation
Phase is understood as scientific knowledge, process skills, and values and attitudes,
which together should foster scientific literacy. Influential perspectives on learning, and
teaching methods appropriate to Natural Science education in the Foundation Phase,
are reviewed, and the Natural Science Learning Area in the RNCS discussed in the
context of global trends in curriculum development. Finally the findings of an empirical
survey on the perceptions of Foundation Phase teachers with regard to Natural Science
teaching and learning, are presented.
Major findings include the following: (1) Scientific literacy is currently not a curriculum
priority in the Foundation Phase, due mainly to meagre time allocation and lack of
applicable Learning Outcomes. (2) Although teachers appear predominantly positive
towards the Learning Area, significant shortcomings need to be addressed before
Natural Science teaching in the Foundation Phase may claim to provide the required
basis for promoting scientific literacy.
OPSOMMING
Die studie poog om vas te stel of Grondslagfase-onderrig `n geskikte basis lê vir die
bevordering van wetenskaplike geletterdheid. Natuurwetenskappe in die Grondslagfase
word beskou as `n kombinasie van wetenskaplike kennis, prosesvaardighede, en waardes en ingesteldhede, wat gesamentlik wetenskaplike geletterdheid ten doel het. Invloedryke perspektiewe op leer, en gepaste onderrigmetodes vir die effektiewe fasilitering van Natuurwetenskappe-onderrig in die Grondslagfase word onder die loep geneem voordat die Natuurwetenskappe-leerarea in die Hersiene Nasionale Kurrikulumverklaring bespreek word binne die konteks van wêreldwye neigings in
kurrikulumontwikkeling. Laastens rapporterr die studie die bevindinge van `n empiriese
ondersoek na die persepsies van Grondslagfase-onderwysers rakende Natuurwetenskaponderrig
en -leer. Belangrike bevinding sluit in: (1) Die bevordering van wetenskaplike geletterdheid word
nie as kurrikulumprioriteit in die Grondslagfase beskou word nie, soos blyk uit die karige
toedeling van tyd en aantal leeruitkomste aan die Natuurwetenskappe-leerarea op hierdie vlak. (2) Alhoewel onderwysers se persepsies rakende Natuurwetenskaponderrig en -leer oorwegend positief blyk te wees, is daar ernstige tekortkominge wat aangespreek moet word voordat Natuurwetenskappe-onderrig in die Grondslagfase die vereiste grondslag sal kan lê vir die bevordering van wetenskaplike geletterdheid. / Educational Studies / M.Ed.
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The value, place and method of teaching natural science in the foundation phaseBosman, Linda 31 March 2006 (has links)
ABSTRACT
The study aims at establishing whether Foundation Phase schooling provides a proper
foundation for the promotion of scientific literacy. Natural Science in the Foundation
Phase is understood as scientific knowledge, process skills, and values and attitudes,
which together should foster scientific literacy. Influential perspectives on learning, and
teaching methods appropriate to Natural Science education in the Foundation Phase,
are reviewed, and the Natural Science Learning Area in the RNCS discussed in the
context of global trends in curriculum development. Finally the findings of an empirical
survey on the perceptions of Foundation Phase teachers with regard to Natural Science
teaching and learning, are presented.
Major findings include the following: (1) Scientific literacy is currently not a curriculum
priority in the Foundation Phase, due mainly to meagre time allocation and lack of
applicable Learning Outcomes. (2) Although teachers appear predominantly positive
towards the Learning Area, significant shortcomings need to be addressed before
Natural Science teaching in the Foundation Phase may claim to provide the required
basis for promoting scientific literacy.
OPSOMMING
Die studie poog om vas te stel of Grondslagfase-onderrig `n geskikte basis lê vir die
bevordering van wetenskaplike geletterdheid. Natuurwetenskappe in die Grondslagfase
word beskou as `n kombinasie van wetenskaplike kennis, prosesvaardighede, en waardes en ingesteldhede, wat gesamentlik wetenskaplike geletterdheid ten doel het. Invloedryke perspektiewe op leer, en gepaste onderrigmetodes vir die effektiewe fasilitering van Natuurwetenskappe-onderrig in die Grondslagfase word onder die loep geneem voordat die Natuurwetenskappe-leerarea in die Hersiene Nasionale Kurrikulumverklaring bespreek word binne die konteks van wêreldwye neigings in
kurrikulumontwikkeling. Laastens rapporterr die studie die bevindinge van `n empiriese
ondersoek na die persepsies van Grondslagfase-onderwysers rakende Natuurwetenskaponderrig
en -leer. Belangrike bevinding sluit in: (1) Die bevordering van wetenskaplike geletterdheid word
nie as kurrikulumprioriteit in die Grondslagfase beskou word nie, soos blyk uit die karige
toedeling van tyd en aantal leeruitkomste aan die Natuurwetenskappe-leerarea op hierdie vlak. (2) Alhoewel onderwysers se persepsies rakende Natuurwetenskaponderrig en -leer oorwegend positief blyk te wees, is daar ernstige tekortkominge wat aangespreek moet word voordat Natuurwetenskappe-onderrig in die Grondslagfase die vereiste grondslag sal kan lê vir die bevordering van wetenskaplike geletterdheid. / Educational Studies / M.Ed.
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Classroom practices of some natural sciences teachers of the Vhembe District, Limpopo ProvinceNetshivhumbe, Ndivhuwo Prudence 07 1900 (has links)
Abstracts in English, Sotho and Afrikaans / The purpose of this study was to explore the classroom practices of Senior Phase
Natural Sciences teachers in some of the schools of the Vhembe District. Qualitative
case study approach was employed and three teachers participated. The following
research questions were explored: What is the level of the teacher’s subject-matter
knowledge in the teaching of Natural Sciences (NS)? What is the nature of the
teacher’s instructional strategies in the teaching of NS? How does the teacher’s
subject-matter knowledge and instructional strategies shape the teachers’
classroom interaction and discourse in the teaching of NS? Interviews, observations
and a questionnaire have been used for data collection. Teachers used their
teaching experiences to teach NS. Results indicated lack of teachers, facilities and
resources. It is recommended that the Department of Education as an arm of
government should see that schools have the facilities, resources and teachers they
need for proper teaching and learning as well as providing sufficient workshops to
improve teachers’ classroom practices. / Sepheo sa thuto ena e ne e le ho hlahloba mekhoa ea litlelase tsa matichere a
Phahameng ea Setsebi sa Tlhaho ea Setsebi tse ling tsa sekolo sa Vhembe. Ho ne
ho sebelisoa mokhoa o nepahetseng oa ho ithuta litsebo le matichere a mararo.
Lipotso tse latelang tsa lipatlisiso li ile tsa hlahlojoa: Mokhoa oa mosuoe oa mosuoe
ke oa mofuta ofe thutong ea Saense ea tlhaho? Mokhoa oa mekhoa ea koetliso ea
tichere ke efe tabeng ea thuto ea saense ea tlhaho? Mosuoe oa mosuoe o tseba
joang le mekhoa ea ho ruta e amanang le ho sebelisana ha tichere le ho bua ka
thutho ea saense ea tlhaho? Lipuisano, litlhaloso le lipotso. E sebeliselitsoe ho
bokella data. Barupeluao ba ile ba sebelisa liphihlelo tsa bona tsa thutho ho ruta
saense ea tlhaho. Liphello li bonst’a ho haelloa ke matichere a saense ea tlhaho,
mehaho le thepa. Ho khothalletsoa hore Muso le Lefapha la Thuto lo bone hore
likolo li na le mehaho, lisebelisoa le matichere bakeng sa thuto le thutho e
nepahetseng hammoho le ho fana ka lithupelo tse lekaneng bakeng sa ho ntlafatsa
mekhoa ea matichere ea tlelase. / Die doel van die studie was om die klaskamerpraktyke van senior Fase
Natuurwetenskappe-onderwysers in sommige skole van skole in die Vhembe-distrik
te ondersoek. Kwantitatiewe gevallestudie-benadering was in diens en drie
onderwysers het deelgeneem. Die volgende navorsingsvrae is ondersoek: Wat is
die aard van die onderwyser se onderwyser kennis in die onderrig van
Natuurwetenskappe? Wat is die aard van onderwyser se onderrigstrategiee in die
onderrig van Natuurwetenskappe? Hoe vorm die onderwyser se kennis en
onderrigstrategiee die onderwyser se klasinteraksie en-diskoers in die onderrig van
Natuurwetenskappe? Onderhoude, waarnemings en vraelys wat gebruik word vir
data-insameling. Deelnemers het hul onderrigervarings gebruik om
Natuurwetenskappe te onderrig. Resultate dui op gebrek aan Natuurwetenskappeonderwysers,
fasiliteite en-bronne. Dit word aanbeveel dat die regering en die
Departement van Onderwys moet sien dat skole fasiliteite, hulpbronne en
onderwysers het vir behoorlike onderrig en leer, asook voldoende werkwinkels om
onderwysers se klaskamerpraktyke te verbeter. / Science and Technology Education / M. Ed. (Natural Science Education)
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