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Applied competence in a distance learning programme for the professional development of foundation phase teachers / Corné Gerda KrugerKruger, Corné Gerda January 2015 (has links)
The ongoing debate about the capacity of distance learning (DL) to assist in the development of teaching skills and to improve teaching practice is the focus of many inquiries in the field of teacher education. The practice-based nature of Foundation Phase teaching poses unique challenges for professional development of teachers through DL programmes. In order to address inadequacies identified in the literature and previous research, a practical component was designed and included in the revised version of the Advanced Certificate: Education - Foundation Phase, as part of a bursary project. In 2011 the Northern Cape Department of Education (NCDoE) enrolled 50 practising Foundation Phase teachers for this distance learning programme as the first of three cohorts in the bursary project.
A learning portfolio and audio-visual resources, designed according to principles derived from previous research and related literature, formed part of this practical component. The aim was to support teacher applied competence through developing pedagogical content knowledge, self-directedness, and a professional attitude, and through guiding the application of new knowledge and skills in practice. The completed portfolios further served as an instrument for the assessment of teacher performance with regard to applied competence.
The purpose of this study was to evaluate the value of the practical component of the revised Foundation Phase ACE programme delivered by the NWU via distance learning with specific focus on the way this component facilitates the development of applied competence and the way the portfolio provides for the assessment of professional classroom competencies of practising Foundation Phase teachers. The study further aimed to put forward a model for the development of applied practice based on the findings of the study.
In order to attain the aims of the study, the literature was explored to firstly determine the elements which contribute to applied competence in effective teacher professional development programmes. The literature was further explored to determine what the body of scholarship indicates with respect to programme design features that support applied competence in DL programmes for teacher professional development.
An implementation evaluation study was then conducted on the programme by collecting data from 50 Foundation Phase teachers as the first of three cohorts enrolled for the bursary project. Data were primarily collected through multiple qualitative methods including a focus-group interview, individual interviews, written expectations as well as open ended questions of questionnaires. Descriptive data were also collected through semi-structured questionnaires. Qualitative data were analysed through content analysis to determine the theoretical and conceptual implications of the profile and teaching context of the Northern Cape Foundation Phase teacher enrolled for the DL Foundation Phase ACE programme, the expectations of these teachers regarding the way the practical component would support their applied competence in their contexts, and the teachers’ experiences of the way the programme component supported the development of their applied competence. The study further determined the extent to which the learning portfolios interrogate the elements of applied competence. Quantitative data collected through semi-structured questionnaires were statistically analysed and served to support the interpretation of qualitative data.
The investigation was approached from a constructivist paradigm; an approach that falls under an interpretivist philosophical orientation. Although quantitative methods were used to gather descriptive statistical data in support of the qualitative data, the study is grounded in qualitative research methodology where the concern is with the formative evaluation of the DL programme component
The findings strongly confirm the value of such a practical component as part of a DL programme to support the elements of applied competence. However, the way the programme accommodates teacher profiles and teaching contexts will greatly influence the sustainability of the programme outcomes in practice. The findings further show that the portfolio as instrument for the assessment of applied competence requires careful planning and should provide strong guidance in the reflective process to support sustained outcomes of the programme in practice. A suggested model for a DL programme for the professional development of Foundation Phase teachers is based on the findings of the study. / PhD (Curriculum Development Innovation and Evaluation), North-West University, Potchefstroom Campus, 2015
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Applied competence in a distance learning programme for the professional development of foundation phase teachers / Corné Gerda KrugerKruger, Corné Gerda January 2015 (has links)
The ongoing debate about the capacity of distance learning (DL) to assist in the development of teaching skills and to improve teaching practice is the focus of many inquiries in the field of teacher education. The practice-based nature of Foundation Phase teaching poses unique challenges for professional development of teachers through DL programmes. In order to address inadequacies identified in the literature and previous research, a practical component was designed and included in the revised version of the Advanced Certificate: Education - Foundation Phase, as part of a bursary project. In 2011 the Northern Cape Department of Education (NCDoE) enrolled 50 practising Foundation Phase teachers for this distance learning programme as the first of three cohorts in the bursary project.
A learning portfolio and audio-visual resources, designed according to principles derived from previous research and related literature, formed part of this practical component. The aim was to support teacher applied competence through developing pedagogical content knowledge, self-directedness, and a professional attitude, and through guiding the application of new knowledge and skills in practice. The completed portfolios further served as an instrument for the assessment of teacher performance with regard to applied competence.
The purpose of this study was to evaluate the value of the practical component of the revised Foundation Phase ACE programme delivered by the NWU via distance learning with specific focus on the way this component facilitates the development of applied competence and the way the portfolio provides for the assessment of professional classroom competencies of practising Foundation Phase teachers. The study further aimed to put forward a model for the development of applied practice based on the findings of the study.
In order to attain the aims of the study, the literature was explored to firstly determine the elements which contribute to applied competence in effective teacher professional development programmes. The literature was further explored to determine what the body of scholarship indicates with respect to programme design features that support applied competence in DL programmes for teacher professional development.
An implementation evaluation study was then conducted on the programme by collecting data from 50 Foundation Phase teachers as the first of three cohorts enrolled for the bursary project. Data were primarily collected through multiple qualitative methods including a focus-group interview, individual interviews, written expectations as well as open ended questions of questionnaires. Descriptive data were also collected through semi-structured questionnaires. Qualitative data were analysed through content analysis to determine the theoretical and conceptual implications of the profile and teaching context of the Northern Cape Foundation Phase teacher enrolled for the DL Foundation Phase ACE programme, the expectations of these teachers regarding the way the practical component would support their applied competence in their contexts, and the teachers’ experiences of the way the programme component supported the development of their applied competence. The study further determined the extent to which the learning portfolios interrogate the elements of applied competence. Quantitative data collected through semi-structured questionnaires were statistically analysed and served to support the interpretation of qualitative data.
The investigation was approached from a constructivist paradigm; an approach that falls under an interpretivist philosophical orientation. Although quantitative methods were used to gather descriptive statistical data in support of the qualitative data, the study is grounded in qualitative research methodology where the concern is with the formative evaluation of the DL programme component
The findings strongly confirm the value of such a practical component as part of a DL programme to support the elements of applied competence. However, the way the programme accommodates teacher profiles and teaching contexts will greatly influence the sustainability of the programme outcomes in practice. The findings further show that the portfolio as instrument for the assessment of applied competence requires careful planning and should provide strong guidance in the reflective process to support sustained outcomes of the programme in practice. A suggested model for a DL programme for the professional development of Foundation Phase teachers is based on the findings of the study. / PhD (Curriculum Development Innovation and Evaluation), North-West University, Potchefstroom Campus, 2015
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Historieintresse och historieundervisning : Elevers och lärares uppfattning om historieämnet / History interest and history teaching : Students' and teachers' views on the subject of historyHansson, Johan January 2010 (has links)
This thesis studies teachers’ and students’ conceptions of history and history teaching and aims to explain the importance of an interest in history among teachers and students of the subject. Research on teachers’ conceptions (e.g. Martin 2005) shows that the didactical question “Why?” influences the “How?” and “Why?” questions and that teachers’ thinking about their own practice is mainly influenced by their background and their experiences from teaching. Research on students’ opinions (e.g. Youth and History, 1997) shows that they enjoy history shown in films, that they appreciate museums, and that the preferred topic is 20th century history. In this thesis learning is envisaged as something individual but it is the learners’ social context that defines what is important, meaningful and interesting to learn. The research methods consist of a survey study concerning the pupils’ attitudes towards history and history education, and an interview study with their teachers about their teaching and their opinions about history in general. Nine teachers and their 217 pupils participated. It is mainly topics from 20th century that are described as interesting by both students and teachers. The teachers had different views on the didactical whyquestion, which they described either as student oriented or subject oriented. Their views on why history is important influenced their teaching methods. The student oriented teachers stated that their pupils’ needs and wishes affect their methods while the subject oriented teachers said that they give varying lessons, and have a more student active teaching, but decide for themselves what teaching methods are to be used. The subject matter is influenced by the teachers’ personal interest in history, in most cases a Eurocentric political history. This choice of content, and the teachers own interest, are explained by the historical culture of Swedish society rather than the curriculum. The teachers state that exciting stories and dramatic events related in books or films were, and still are, important to their interest in history. Their individual interpretation of what is important and meaningful in their historical culture influences teachers’ personal interest, their knowledge, and the content of their history teaching. The students’ attitudes to history are also influenced by various factors, of which history education at school is merely one.
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Exploring the nature of teachers' experiences of their beliefs, subject content knowledge and professional development and how they shape classroom practicesDhurumraj, Thasmai 11 1900 (has links)
The National Senior Certificate Diagnostic Reports for the 2014 and 2015 National Senior Certificate Examinations for the subject Physical Sciences reported that many candidates lacked understanding of basic concepts in the subject.
Most basic concepts are introduced and taught to learners as early as grade 10. Grade 10 provides learners with the foundation required to build a more intricate, and critical understanding of science. Critically, teachers have to drive this process. The nature of the experiences of the teachers would therefore be of primary influence during classroom practices to assist these learners. Teachers have to provide meaningful learning. Teacher experiences are derived from professional development, beliefs and subject content knowledge.
This was a qualitative study which made use of a case study design. It involved three cases from one of the districts of the Kwa-Zulu Natal Department of Education, South Africa. Data was collected using multimethod strategies and analysed using the typology approach.
This study was guided by the following main research questions: What are the nature of the experiences of teachers in implementing the Physical Science curriculum in a grade 10 class? The study sought to answer the following sub-questions, how does teacher knowledge influence classroom practice in the implementation of grade 10 Physical Sciences curriculum? What is the nature of the professional development received by the grade Physical Sciences teacher? and What are the teacher’s beliefs with regard teaching and learning of Physical Sciences in a grade 10 class?
The findings of the study revealed that the status quo of traditional teaching of Physical Sciences still exists in the grade 10 classroom practices of teachers. Teacher generally displayed some good subject matter knowledge. A lack of professional development for grade 10 Physical Sciences teachers’ negatively impacted on classroom practices of the teacher. Teacher beliefs had major influence on classroom practices of the teacher. This study recommends teachers have to undergo meaningful, ongoing professional development to assist them improve their classroom practice skills. A Model of Intensive Professional Development is recommended for teachers in the South African Classroom. / Curriculum and Instructional Studies / D. Ed. (Curriculum Studies)
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Continuing professional teacher development: a case of mathematical literacy teaching in Soutpansberg North Circuit of Vhembe DistrictRaluswinga, Fhumulani Suzan 21 September 2018 (has links)
MEd (Curriculum Studies) / Department of Curriculum Studies / The purpose of this study was to investigate how continuing professional teacher
development can improve learners’ achievement and schooling in Mathematical
Literacy. This study adopted a qualitative research design. The qualitative research
method was used to collect data. Semi-structured interviews were used to collect data.
The population comprised of all Mathematical Literacy teachers, heads of departments
and principals of schools in the Soutpansberg North Circuit. Purposive sampling was
used to the select participants. The sample consisted of 3 school principals, 3 heads of
departments’ and 9 teachers. Data was analysed thematically. The study revealed that
continuing professional teacher development improves learner achievement, teacher
skills and knowledge. The study recommended that teachers should be supported by
the community, schools and the department of Basic Education, in order to improve
their knowledge, skills and learner achievement. In addition, Learners’ needs, engaging
parents, assessment strategies and teacher practice were used to measure the impact
of CPTD on learner achievement. Of equal importance, teachers should further their
studies and engage themselves in reading materials relevant to their profession. / NRF
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Exploring the use of computer simulations as a technological pedagogical reasoning tool in the teaching and learning of electromagnetism in a whole-class rural settingTsoka, Maxwell 03 June 2021 (has links)
This study, Exploring the Use of Computer Simulations as a Technological Pedagogical
Reasoning Tool in the Teaching and Learning of Electromagnetism in a Whole-Class
Rural Setting, documents a journey of a digital immigrant, physical sciences teacher in a
secondary school in a rural area who sought to integrate computer simulations as reasoning
tool to enhance instruction and learning. The study employed an action research
methodology and used Smart’s model of technological pedagogical reasoning and action
(MTPRA) as a theoretical framework to guide the processes of teaching. The study utilised
multiple methods of data collection: the documentation of my planning for teaching the
topics of magnetic field and electromagnetic induction, reflective journals, feedback from
critical friends, video-recordings of my lessons and focus group discussions with learners.
Findings from the study revealed teaching with technology is a paradigm shift, change of
mindset and culture that requires teachers to consider how the affordances of technology
can be harnessed to create opportunities for learners to engage in meaningful learning.
These opportunities for learning are created through the matrix of interaction between the
teacher, learners, content and computer simulations as informed by the teachers’
technological pedagogical reasoning (TPR) sub-process (i.e., comprehension,
transformation, instruction, and evaluation). Each TPR cycle was a professional learning
experience which meant that the teacher collected data that could be used to frame and
reframe his practice. The process of learning was interactive and facilitated by reflecting
on how the elements (content, learners, computer simulations, the teacher) interacted with
the actions of comprehension, transformation, instruction, and evaluation.
The study found evidence to suggest that computer simulations had an influence on what
was learnt, how it was learnt and the effect of these on the learners. Thus, computer
simulations can be used as a curriculum resource/material to create potential learning
experiences that have cognitive, affective, and conative dimensions. The learning
experiences were among others, influenced by the following factors: context, prior
learning experiences and the perceptions of the learners. The cognitive dimension resulted
in the learners attaining knowledge of the relation between electricity and magnetism and
the application of electromagnetism. The affective dimension created in learners a sense
of enjoyment, wonder(surprise) and practical relevance of the lessons while the conative
dimension created interest in the subject and learning in general. / Curriculum and Instructional Studies / D. Ed. (Curriculum Studies)
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Jigsaw co-operative learning strategy integrated with Geogebra : a tool for content knowledge development of intermediate Calculus for first year undergraduate learners of two public universities in EthiopiaSirak Tsegaye Yimer 08 1900 (has links)
Intermediate calculus bridges secondary school and advanced university mathematics courses. Most mathematics education research literatures indicated that the conceptual knowledge in intermediate calculus has challenged first year undergraduate mathematics and science learners to a great extent through the lecture method. The content knowledge attained by them has been tremendously decreasing. Negative attitude exhibited by students toward calculus was highly influenced by the lecture method used. Generally, students have not looked at the learning of all mathematics courses offered in universities as normal as other courses. Due to this lack of background conceptual knowledge in learners, they have been highly frustrated by the learning of advanced mathematics courses. Taking the understanding of teaching and learning challenge of conceptual knowledge of calculus into consideration, Ethiopian public universities have been encouraging instructors to devise and implement active learning methods through any professional development training opportunity. The training was aimed to enhance learners’ content knowledge and attitude towards calculus. This is one of the main reasons for the motivation of this study that experimental group learners were allowed to be nurtured by the lecture method in their mainstream class, and then also the active learning intervention method integrated with GeoGebra in the mathematics laboratory class. Only conventional lecture method was used to teach the comparison group in both the mainstream and mathematics laboratory class. The purpose of the study was to explore the Gambari and Yusuf (2016) stimulus of the jigsaw co-operative learning method combined with GeoGebra (JCLGS) on statistics and chemistry learners’ content knowledge improvement and change of their attitude towards calculus. The post-positivism mixed methods tactic was used in a non-equivalent pre- and post-test comparison group quasi-experimental design. The population of the study was the whole freshman mathematics and science degree program learners of two public universities in Ethiopia in 2017. Samples of the size 150 in both the experimental and comparison groups were drawn utilizing two-stage random sampling technique. A questionnaire using a Likert-scale on attitudes and an achievement test were sources used for data collection. Data analysis employed descriptive statistics conducting an independent samples t-test and a Two Way ANOVA for repeated measures using SPSS23. Each of the findings on content knowledge, conceptual knowledge, and procedural knowledge development produced through the TWO-Way ANOVA, respectively as F(1,148)=80.917; 𝜂2=.353; p<.01, F(1,148)=106.913; 𝜂2=.419; p<.01, and F(1,148)=7.328; 𝜂2=.047; p<.01, revealed a statistically significant difference between the treatment and comparison groups from pre-test to post-test. These findings show that the experimental group participants were highly beneficial in developing their content knowledge and conceptual knowledge through the active learning approach and technology-based learning strategy using Vygotsky’s socio-cultural learning theory. The JCLGS learning environment representing Vygotsky’s socio-cultural learning theory modestly influenced the procedural knowledge learning of the experimental group learners’. Although the lecture method affected the comparison group students’ knowledge development in calculus during the academic semester, the impact was not comparable to that of the active learning approach and technology-based learning strategy. The major reason for this was the attention and care given to the active
learning intervention integrated with GeoGebra by the researcher, data collectors, and research participants. Overall findings showed that the active learning intervention allowed the experimental group students to considerably enhance their conceptual knowledge and content knowledge in calculus. Learners also positively changed their opinion towards calculus and GeoGebra. The intervention was a group interactive environment that allowed students’ to be reflective, share prior experience and knowledge, and independent learners. As a matter of fact, educators are advised to model such a combination of active learning approach and technology-based learning strategy in their classroom instructional setting and practices. Consequently, their learners will adequately benefit to understand the subject matter and positively change their opinion towards university mathematics. / Mathematics Education / Ph. D. (Mathematics, Science and Technology Education)
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An exploration of mathematical knowledge for teaching for Grade 6 teachers in the teaching of fractions : a case study of three schools in Capricorn South DistrictMoloto, Phuti Margaeret 26 May 2021 (has links)
Abstract in English, Tswana and Northern Sotho / The study aimed to explore teachers’ mathematical knowledge in respect of teaching the
concept of fractions to Grade 6 learners. To that end a qualitative study was done, using a case
study design. Data were collected through the observation of, and interviews with, three
teachers at three schools in the Capricorn South district. Rooted in the theory of constructivism,
the study was supplemented by the conceptual framework of mathematical knowledge for
teaching (MKT) (Ball et al., 2008) and Shulman’s (1986) notion of pedagogical knowledge for
teaching (PCK). The key finding of this investigation revealed that, of the three teachers, two
did not develop the concept of fractions for their learners, but merely followed the traditional
method of teaching the concept by encouraging their learners to memorise rules without
understanding. Only one teacher emphasised an understanding of mathematical concepts. The main observation which the researcher made, was that teachers require a great deal of
knowledge and expertise, in carrying out the work of teaching subject matter related to
fractions. / Maikaelelo a thutopatlisiso e ne e le go tlhotlhomisa kitso ya dipalo ya barutabana malebana le
go ruta barutwana ba Mophato wa 6 mogopolo wa dikarolwana. Go fitlhelela seo, go dirilwe
thutopatlisiso e e lebelelang mabaka, go dirisiwa thadiso ya thutopatlisiso ya dikgetsi. Go
kokoantswe data ka go ela tlhoko le go nna le dipotsolotso le barutabana ba le bararo kwa dikolong tsa kgaolo ya Capricorn Borwa. Thutopatlisiso eno e e theilweng mo tioring ya kago
ya kitso e ne e tshegeditswe ke letlhomeso la sediriswa sa tokololo sa kitso ya dipalo ya go ruta
(MKT) (Ball et al. 2008) le mogopolo wa ga Shulman (1986) wa kitso e e kgethegileng ya go
ruta (PCK). Phitlhelelo ya botlhokwa ya patlisiso eno e senotse gore mo barutabaneng ba le
bararo, ba le babedi ga ba a tlhamela barutwana ba bona mogopolo wa dikarolwana, mme ba
latetse fela mokgwa wa tlwaelo wa go ruta mogopolo ka go rotloetsa barutwana go tshwarelela
melawana kwa ntle ga go tlhaloganya. Ke morutabana a le mongwe fela yo o gateletseng go
tlhaloganngwa ga megopolo ya dipalo. Temogo e kgolo e e dirilweng ke mmatlisisi ke gore
barutabana ba tlhoka kitso le boitseanape jo bogolo go tsweletsa tiro ya go ruta dithuto tse di
amanang le dikarolwana. / Dinyakišišo di ikemišeditše go utolla tsebo ya dipalo ya baithuti mabapi le go ruta kgopolo ya
dipalophatlo go baithuti ba Kreiti ya 6. Ka lebaka la se go dirilwe dinyakišišo tša boleng, go
šomišwa tlhamo ya dinyakišišo tša seemo. Tshedimošo e kgobokeditšwe ka go lekodišiša, le
go dira dipoledišano le, barutiši ba bararo ka dikolong tše tharo ka seleteng sa Borwa bja
Capricorn. Ka ge di theilwe go teori ya gore baithuti ba itlhamela tsebo, dinyakišišo di
tlaleleditšwe ke tlhako ya boikgopolelo ya tsebo ya dipalo go ruteng (MKT) (Ball le ba bangwe,
2008) le kgopolo ya Shulman (1986) ya tsebo ya diteng tša thuto (PCK). Kutollo ye bohlokwa ya dinyakišišo tše e utollotše gore, go barutiši ba bararo, ba babedi ga se ba ba le kgopolo ya
dipalophatlo go baithuti ba bona, eupša fela ba no latela mokgwa wa setlwaedi wa go ruta
kgopolo ye ya dipalophatlo ka go hlohleletša baithuti ba bona go tsenya melawana ye ka
hlogong ka ntle le go e kwešiša. Ke fela morutiši o tee yo a gateletšego gore go swanetše go ba
le kwešišo ya dikgopolo tša dipalo. Temogo e tee yeo monyakišiši a bilego le yona, ebile gore
barutiši ba hloka tsebo ye kgolo le botsebi, go phethagatša mošomo wa go ruta diteng tša thuto
tšeo di amanago le dipalophatlo. / Mathematics Education / M. Ed. (Mathematics Education)
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Case study of comptencies of technology education e-tutors in construction of design process at an open and distance e-learning institution / Case study of competencies of technology education e-tutors in construction of design process at an open and distance e-learning institutionSedio, Mpipo Zipporah 29 March 2021 (has links)
Abstract in English, Sesotho and Zulu / The occurrence of Open Distance and e-Learning revolutionized Higher Education Institutions for students to access instruction at anytime and anywhere. Students benefitted instruction of anytime and anywhere in one of the Technology Education courses in ODeL from the e-tutors. As a result of the support from the e-tutors, the curriculum was designed to place a strong emphasis on the design process as the core around which the teaching of the curriculum should revolve. However, it is still not clear how effective is the content knowledge which relates to the design process from the e-tutors.
In acknowledgment from such a gap, this study aimed to determine the relationship between the e-tutors’ technological, pedagogical, content knowledge of teaching design process within Technology Education specialization. In order to achieve this purpose, two theories, namely Transactional distance and Connectivism were coined together with the Technological Pedagogical Content Knowledge (TPACK) framework to underpin the study. The philosophical worldview is pragmatism having employed mixed method. Participants in this study were 145 students who registered a year programme for two modules in the Bachelor of Education (B.Ed.) programme at a Higher Education institution were surveyed to collect the quantitative data. Data from the face-to-face semi-structured interviews were collected with five e-tutors from the research sites. Online observations data were collected from the e-tutor sites of the institution’s learning management system (LMS). The results suggest that e tutors still lack the technology knowledge in order to deliver the content aimed for the design process in an ODeL environment. Also, it was evidenced that the e-tutors have not acquired pedagogical strategies for driving the pedagogy for the design process in an ideal context of ODeL. It should also be borne in mind that findings for the content knowledge indicated that the e-tutors still lack the knowledge for exploiting content knowledge of the design process to suit an ODeL environment. These findings highlight a need for technology to support e tutors’ pedagogical strategies towards a meaningful understanding of the design process and its implications across ODeL contexts. / Ketsahalo ea Open Distance le e-Learning e ntlafalitse litsi tsa thuto e phahameng bakeng sa baithuti ho fihlella taeo nako efe kapa efe le kae kapa kae. Baithuti ba ile ba rua molemo taelong ea nako efe kapa efe le kae kapa kae ho e 'ngoe ea lithuto tsa Technology Technology ho ODeL ho tsoa ho li-tutors. Ka lebaka la ts'ehetso e tsoang ho li-tutors, kharikhulamo e ne e etselitsoe ho hatisa ka matla ts'ebetso ea moralo e le khubu eo thuto ea kharikhulamo e lokelang ho potoloha ho eona. Leha ho le joalo, ha ho sa hlaka hore na tsebo ea litaba e sebetsa hantle hakae e amanang le tšebetso ea moralo ho tsoa ho li-tutors.
Ho ananela lekhalo le joalo, phuputso ena e ne e ikemiselitse ho tseba kamano lipakeng tsa theknoloji ea "e-tutors", thuto ea thuto, tsebo ea litaba ea ts'ebetso ea moralo oa ho ruta ka har'a tsebo ea thuto ea Technology. Bakeng sa ho fihlela sepheo sena, ho ile ha qaptjoa likhopolo tse peli, e leng Transactional distance le Connectivism hammoho le sebopeho sa Technological Pedagogical Content Knowledge (TPACK) ho tšehetsa thuto. Pono ea lefatše ea filosofi ke pragmatism e sebelisang mokhoa o tsoakaneng. Barupeluoa thutong ena e ne e le baithuti ba 145 ba ngolisitseng lenaneo la selemo bakeng sa li-module tse peli lenaneong la Bachelor of Education (B.Ed.) setsing sa Thuto e Phahameng ba ile ba hlahlojoa ho bokella lintlha tse ngata. Lintlha tse tsoang lipuisanong tsa sebopeho sa sefahleho li ile tsa bokelloa le barupeli ba bahlano ba tsoang libakeng tsa lipatlisiso. Lintlha tsa tlhaiso-leseling ka inthanete li ile tsa bokelloa ho tsoa litsing tsa e-tutor tsa sistimi ea taolo ea ho ithuta ea setheo (LMS). Liphetho li fana ka maikutlo a hore barupeli ba ntse ba haelloa ke tsebo ea mahlale a morao-rao molemong oa ho fana ka litaba tse reretsoeng ts'ebetso ea boqapi tikolohong ea ODeL. Hape, ho ile ha pakoa hore li-e-tutors ha li e-so fumane maano a thuto ea ho khanna lithuto tsa thuto bakeng sa moetso oa moralo ka mokhoa o loketseng oa ODeL. Hape ho lokela ho hopoloa hore liphuputso tsa tsebo ea litaba li bontšitse hore li-e-tutors li ntse li haelloa ke tsebo ea ho sebelisa tsebo ea litaba tsa moralo oa moralo ho latela tikoloho ea ODeL. Liphuputso tsena li totobatsa tlhoko ea mahlale a morao-rao ho ts'ehetsa maano a thuto a barupeli ho fihlela kutloisiso e hlakileng ea ts'ebetso ea moralo le litlamorao tsa ona maemong a ODeL. / Ukutholakala kwe-Open Distance ne-e-Learning kuguqula izikhungo zemfundo ephakeme zabafundi ukuthi bathole imfundo nganoma yisiphi isikhathi noma kuphi. Abafundi bahlomule ngokufundiswa nganoma isiphi isikhathi noma kuphi kwesinye sezifundo zeTechnology Education ku-ODeL kubafundisi be-e. Njengomphumela wokwesekwa okwenziwa abafundisi be-e-tutors, ikharikhulamu yakhelwe ukugcizelela kakhulu inqubo yokwakhiwa njengongqikimba okumele kufundiswe ngayo ikharikhulamu. Kodwa-ke, akukacaci ukuthi lusebenza kangakanani ulwazi lokuqukethwe oluphathelene nenqubo yokwakha evela kubafundisi be-e.
Ngokwazisa ngaleligebe elinje, lolu cwaningo luhlose ukucacisa ubudlelwano phakathi kwezobuchwepheshe be-e-tutors, ubuchwepheshe bokufundisa, ulwazi lokuqukethwe lwenqubo yokwakhiwa kokufundisa ngaphakathi kobuchwepheshe be-Technology Education. Ukufeza le njongo, imibono emibili, okungukuthi iTransactional distance neConnectivism yahlanganiswa kanye nohlaka lweTechnological Pedagogical Content Knowledge (TPACK) ukusekela ucwaningo. Umbono wezwe wefilosofi yi-pragmatism esebenzisa indlela exubile. Ababambe iqhaza kulolu cwaningo bekungabafundi abayi-145 ababhalise uhlelo lonyaka lwamamojula amabili kuhlelo lweBachelor of Education (B.Ed.) esikhungweni seMfundo ePhakeme bahlolisiswa ukuqoqa imininingwane yobungako. Imininingwane evela ezingxoxweni ezihlelekile ezenziwe ubuso nobuso zaqoqwa nama-e-tutors amahlanu avela kumasayithi ocwaningo. Idatha yokubuka eku-inthanethi yaqoqwa kusuka kumasayithi e-e-tutor ohlelo lokuphatha lokufunda (LMS). Imiphumela iphakamisa ukuthi abafundisi be-e basenalo ulwazi lobuchwepheshe ukuze bakwazi ukuletha okuqukethwe okuhloselwe inqubo yokwakhiwa endaweni ye-ODeL. Futhi, kufakazelwe ukuthi abafundisi be-e abakawatholi amasu okufundisa okushayela inqubo yokuqamba ngendlela efanelekile ye-ODeL. Kumele futhi kukhunjulwe ukuthi okutholakele kolwazi lokuqukethwe kukhombisile ukuthi ama-e-tutors asenalo ulwazi lokusebenzisa ulwazi lokuqukethwe kwenqubo yokwakhiwa ukuze ivumelane nemvelo ye-ODeL. Lokhu okutholakele kugqamisa isidingo sobuchwepheshe ukuxhasa amasu e-tutors 'pedagogical maqondana nokuqonda okunenjongo kwenqubo yokwakhiwa nemithelela yayo kuzo zonke izingqikithi ze-ODeL. / Curriculum and Instructional Studies / Ph. D. (Science and Technology Education)
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Teaching difficulties of natural sciences educators in the planet, earth and beyond strand in the Sekgosese East Circuit of LimpopoNkanyani, Tebogo Edwin 12 1900 (has links)
This study aimed to explore teaching difficulties of Natural Sciences teachers
when offering lessons in the Planet, Earth and Beyond strand. The aim was to
understand their teacher knowledge, type of instructional strategies, and
classroom discourse and interactions in their Natural Science classroom. The
following question guided the study: What are the teaching difficulties of Planet,
Earth and Beyond strand? A qualitative case study design was used for the study.
The data was collected through semi-structured interviews and observations. The
study revealed that NS educators: carry misconceptions to class; show poor
knowledge of context in specific aims and assessment strategies while also
choosing poor and irrelevant instructional strategies and; still see themselves as
authority in class by applying a one- way approach. It is recommended that:
educators be trained on how to implement active and critical learning, while
empowering them with knowledge on NS specific aims and assessment
strategies; departmental heads, SMTs, and subject advisor should engage in
regular class visits in the NS educators` classes, reviewing lesson plans that
educators prepared; schools should provide educators with CAPS relevant
documents; the DoE should provide more education to educators on the
importance of following the curriculum as prescribed in the CAPS document; the
department should provide educators with relevant teaching aids and practical
apparatus and in the absence advice educators on how to improvise and; the
subject advisors should assist educators in identifying misconceptions. / Science and Technology Education / M. Ed. (Natural Sciences Education)
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