An Integrated approach to technology education as a means of enhancing achievement in mathematics and science

Sithole, Khulekani Elliot Stephen

01 1900

The purpose of this study is to formulate guidelines upon which Technology Education can be put into operation in the South African schools with specific reference to standard eight students. The objective is to formulate Technology Education guidelines suitable for and within the broad framework of the South African curricula. In attempting to translate Technology Education curriculum to South Africa, the author explores the state of advancement in Technology Education in various developed and developing countries. The status, principles and theoretical assumptions of Technology Education are also explored. The role of the teacher in the Technology Education programme is also discussed. Guidelines for Technology Education, including Technology Education teaching strategies, guidelines for Technology Education assessment standards and guidelines for integrating Technology Education, Science and Mathematics are also formulated. The author qualifies the significance of Technology Education in South Africa through a pilot study over a year. The subjects of this (pilot) empirical study consisted of a total of 175 standard eight students, 77 of who were in a control group, who had received no tuition in Technology Education. A group of 98 received tuition in Technology Education for a year. The normal end of the year examination in 1994 measured academic performance of the two groups. Performance in 1993 is also used in the statistical analysis. The Univariate Analysis of Variance (ANOVA) is applied in the analysis of data. Statistically significant differences are found between the academic performance of these two groups in relation to the overall Examination marks, English, Science and Mathematics marks. Statistically significant differences are also found between the 1993 and 1994 performance of the experimental group after receiving Technology Education tuition in standard eight in terms of the overall Examination, marks, English, Science and Mathematics marks. In the control group, no statistically significant differences were evidenced in Mathematics, English and Science when comparing marks in 1993 and in 1994. It is only applicable in the average Examination mark. These results confirm the role that Technology Education plays in enhancing performance in Science and Mathematics including English. / Curriculum and Institutional Studies / D. Ed. (Didactics)

Technology

Technology education

Educational technology

Vocational education

Industrial arts

Mathematics achievement

Science achievement

Academic achievement

Technological literacy

Technology methods

Previous performance

Holistic approach

Teaching activities

Technology 2000 Project

510.71268

Technology education and curriculum 2005 : staff development through INSET

Maluleka, Jan Khazamula

08 1900

Curriculum 2005 together with its learning areas has been introduced in South Africa in 1998. All learning areas, except Technology Learning Area, are not new. Technology is growing so rapidly that it gives so many challenges to people. These challenges include making technology part of our curriculum, formulating and adapting technological solutions to problems people may experience. We have to ask ourselves what technology or Technology Education means. Therefore, this study provides the meaning and the rationale for Technology Education in our curriculum. This study also attempts to shed light on the form of training educators should attend for Technology Education. Although there are different methods of training, for example PRESET and INSET, this study concentrates on various forms of INSET. INSET is chosen because it is a means through which the present need for Technology Education educators can be solved. The percentage of educators involved in part-time study will increase in relation to the number in full-time education. The closing down of some of colleges of education in South Africa reduces the use of PRESET and increases INSET as a means of educator training. The advantages of using INSET instead of PRESET are provided in this study. The National Teacher Audit of 1995 has shown that the quality of INSET in South Africa is poor. In addition, it seems the present ad hoc way of running INSET will not cope with challenges of training educators for Curriculum 2005 and Technology Education. Normally, INSET is the prime strategy for addressing problems in PRESET. Unfortunately, INSET has to train educators for Technology Education (Technology Learning Area) which was never touched by PRESET before. For this reason, this study provides an INSET model, guidelines and recommendations to make the suggested model of INSET work successfully. / Educational Studies / M. Ed. (Comparative Education)

Technology Education

Staff development

Teacher centres

School-based INSET

INSET Model

Curriculum 2005

In-service education

Distance education

School-focused INSET

Technology 2005

Outcome-based education

Pre-service education

Cascade training

Course-based INSET

Appraisal

370.7150968

Teachers -- Training of -- South Africa

The teaching practice of senior phase technology education teachers in selected schools of Limpopo Province : an action research study

Mapotse, Tomé Awshar

08 1900

This is an Action Research (AR) study with the senior phase Technology teachers at selected schools of Limpopo Province. The study was motivated by the fact that Technology Education is a foreign concept to many teachers and a new learning area in school curriculum both nationally and internationally. This was exacerbated by the many educational changes that took place in South Africa in the last 18 years. These changes include the overhauling of curriculum, which was the strategic and symbolic change since the first democratic election of 1994, but followed by its review. Thus, a new curriculum known as Curriculum 2005 (reviewed twice already) was developed in which Technology was introduced as a new subject. These changes drastically affected Technology Education and teachers’ coping demands on both the subject content and pedagogy escalated. In this study, AR, a strategy for a systematic, objective investigation with Technology teachers’ who are un- and under- qualified to teach Technology was considered. The study aimed at establishing intervention strategies to empower and emancipate senior phase Technology teachers in Mankweng Circuit from the said challenges above. Thus, the study sought to address the question: How could action research intervention be used to improve the teaching of senior phase Technology teachers who are un- and/or under-qualified? The intervention strategies were implemented through the AR cycles in spiral activities of planning, implementation and observation, action and reflection, whose principles were operationalized to develop participants from the situations that they face in their Technology teaching contexts. The study was designed from both critical theory perspective and participatory paradigm. The following instruments were used as a means to gather data: observations, interviews, questionnaires, field notes, video recording of lesson plans and logs of meetings. The study managed to come up with guidelines to develop and kick start AR with teachers. From the ii findings an AR model was developed to emancipate the un- and under-qualified Technology teachers. Themes from the challenges and AR were used to draft a six weeks plan to empower incapacitated Technology teachers. This investigation was shaped by the initial reflection or preliminary study conducted with the participants called reconnaissance study which revealed specific challenges that Technology teachers encountered daily in their classes. These challenges were turned into the themes, which together with the findings from the preliminary study and interview reflection per cycle were used to design the intervention strategies for the next main cycle. The findings of the study from both the preliminary investigation (presented in Chapter Two) and main AR (presented in Chapter Five) reveal an improvement in the teachers’ understanding and implementation of Technology – they were emancipated to a greater extent from the challenges prior to the AR intervention and post the AR intervention. It is true that coming together as AR co-researchers was the beginning of Technology teaching practice problem identification; keeping together was progressive in Technology teaching; but working together remains our success in Technology teaching then, now and in the future – post doctoral studies. / Curriculum and Instructional Studies / D. Ed. (Curriculum Studies)

Technology (learning area/subject)

Technology education

Emancipation

Empowerment

National Curriculum Statement

Action research

Action research cycle

Critical theory

Emancipatory paradigms

Ethical protocol

Interim analysis

Data set

Limpopo Province

607.126825

Association of College and Career Readiness Indicators on Hispanic College Enrollment and Postsecondary Resiliency

Parker, Patricia

05 1900

This investigation was a post-hoc, quantitative analysis of secondary academic performance and participation choices of Hispanic students. Three years of longitudinal student-level data was collected to examine the likelihood of college enrollment based on college and career readiness (CCR) factors. At the time of the study, CCR was defined as qualifying exam scores, credit for at least two advanced/dual enrollment courses, or enrollment in a career and technology education (CTE) coherent sequence of courses. Research participants (N = 803) consisted solely of Hispanic high school graduates from the 2014 cohort. Frequency statistics indicate 45.5% (n = 365) attended an institute of higher education (IHE) within 2 years of high school graduation. Findings reveal Hispanic females were more likely than Hispanic males to meet CCR indicators as well as postsecondary resiliency outcomes. Analysis of chi-square tests of independence suggests a moderately strong association exists between CCR indicators and postsecondary participation among high school graduates. Differences were found in terms of gender and postsecondary enrollment, x^2(6) = 24.538, p < .001. Differences were also found in terms of type of IHE and postsecondary resiliency, x^2(3) = 34.373, p < .001. More Hispanic CCR graduates enrolled at 2-year and 4-year IHE than expected by chance. While non-CCR graduates enrolled in IHE, they were less likely to meet postsecondary resiliency outcomes. CCR graduates who initially enrolled at 2-year IHE were also less likely to persist. Furthermore, the greatest contribution to differences in resiliency existed for Hispanic CCR graduates who enroll at 4-year IHE.

college and career readiness

postsecondary enrollment

postsecondary resiliency

Hispanic graduates

high school graduates

college graduates

higher education

2-year college

4-year college

state accountability

college entrance exams

advanced level courses

dual credit courses

career/technology education

chi-square

Hispanic American high school students.

Resilience (Personality trait)

Hispanic Americans -- Education (Higher)

School-to-work transition.

<b>EDUCATION OF QUALITY MANAGEMENT SYSTEMS IN ENGINEERING TECHNOLOGY PROGRAMS</b>

Rebekah Lais McCartney (18445788)

28 April 2024

<p dir="ltr">Engineering Technology (ET) programs are pivotal in preparing graduates for the demands of the modern workforce, particularly in quality management systems (QMS). This study examines the alignment between QMS knowledge and experience gained by graduates in ABET-accredited ET programs and the expectations of industry. Through a dual-survey approach, targeting both industry leaders and academic educators, the research elucidates current QMS practices in industry, the scope of QMS education, and the resulting preparedness of graduates for professional roles. Findings indicate a discernible gap between industry expectations and current academic offerings in QMS education. While industry professionals rely on established QMS frameworks such as ISO 9001 and Lean Six Sigma, academic programs often limit their coverage to theoretical underpinnings rather than hands-on, practical applications. This discrepancy highlights the need for a more robust, application-oriented curriculum that bridges theoretical knowledge with real-world practice. Recommendations include a call for greater integration of practical QMS training within academic programs and stronger partnerships between academia and industry to foster educational content that aligns with professional QMS applications.</p>

Quality management

Education policy

Continuing and community education

Higher education

Professional education and training

Education assessment and evaluation

Engineering education

Engineering practice

Industrial engineering

Engineering Education

Engineering Technology Education

Quality Management Systems (QMS)

Quality Management Systems Education

Workplace Training

Lean Six-Sigma principles

Lean Six Sigma Education

ISO 9000 quality management systems

Total Quality Management

Teachers and Technology: A Qualitative Program Evaluation of Technology SkillsDevelopment in a Teacher Preparation Program

Donnelly, David M.

16 September 2022

No description available.

Adult Education

Curricula

Curriculum Development

Education

Education Policy

Educational Evaluation

Educational Leadership

Educational Technology

Educational Software

Elementary Education

Higher Education Administration

Information Technology

Instructional Design

Organization Theory

Organizational Behavior

Pedagogy

Preschool Education

Reading Instruction

School Administration

Secondary Education

Special Education

Teacher Education

Teaching

Technology

technology fluency

technology integration

technology infusion

instructional technology

teachers and technology

technology training

professional development for teachers

teacher preparation programs

program evaluation

technology curriculum

technology skills

educational technology

ISTE

technology standards

technology education

The integration of indigenous graphics knowledge and skills to enhance Grade 9 learners’ understanding of graphic designs in Technology Education

Blose, Princess

05 August 2020

Abstract in English, Swati and Ndebele / This single descriptive case study explored the integration of indigenous graphics knowledge and skills into the Technology curriculum of a school in the Ehlanzeni District of the Mpumalanga Province with a Grade 9 Technology teacher and the learners. The integration of indigenous knowledge and skills can help promote Grade 9 learners’ understanding of graphic design, which forms part of the content taught in Technology Education. The graphics knowledge and skills existent in the indigenous contexts from which most of learners come can make the learning of graphic design relevant and more understandable to learners. Hence, there was a need to research this issue. One Grade 9 Technology teacher was purposively selected for an interview and observed while teaching the class. Seven learners from this teacher’s class were also selected to be interviewed. The data analysed in the present study were obtained from the teacher and seven learners. The constructivist theory of learning framed this study. The findings revealed that, although the teacher had some understanding of technology, (i) she battled with the concept of indigenous knowledge; (ii) she was unaware that indigenous knowledge is even mentioned in the subject’s Curriculum, Assessment Policy Statement (CAPS); and, (iii) her limited understanding of the concept of indigenous knowledge meant that she did not to know how she could integrate indigenous knowledge into the teaching of graphic design. She also did not capitalise on indigenous knowledge as a resource in a resource-hungry teaching environment that she faced. While she acknowledged the importance of the learners’ culture, she did not take full advantage thereof in her teaching. Her adoption of demonstration as her predominant teaching approach provided an opportunity for integrating indigenous knowledge and skills but, again, she did not capitalise on that opportunity fully. This study can help transform the teaching of Technology by ensuring the integration of indigenous knowledge into the teaching of graphic design, a much-needed approach to education in the (South) African context. / Lesifundvo sinye, lesichazako sihlola kufakwa kwelwati lwebuchwepheshe nemakhono eluhlelwenitifundvo Lwebuchwepheshe esikolweni seSigodzi saseNhlanzeni eSifundzeni saseMpumalanga. Kuloku, thishela nemfundzi wesifundvo sebuchwepheshe welibanga 9 babe nencenye kulesifundvo lesifuna kubona kutsi kufakwa kwelwati lwendzabuko nemakhono kungatfutfukisa kuvisisa kwemfundzi likhono lekuhlanganisa titfombe nemfanekiso, lokuyincenye yengcikitsi lefundziswa eSifundvweni seBuchwepheshe Technology teacher and learners participated in a study seeking to determine how the integration of indigenous knowledge and skills can help to promote learners’ understanding of graphic design, which forms part of the content taught in Technology Education. Lwati lwebuchwepheshe nemakhono losekuvele kukhona encenyeni yendzabuko leyo linyenti lebafundzi lebeta, baphindza bayisebentisa lokwenta kufundza ngemakhona etitfombe nemifanekiso kwekubili kufaneleke kuphindze kuvisiseke kakhulu. Ngenca yalesizatfu, thishela munye wesifundvo seBuchwepheshe weLibanga 9 wakhetfwa ngenhloso kute ahlolwe ngemibuto, aphindze acashelwe lapho afundzisa. Bafundzi labaSikhombisa kuleliklasi lalothishela bakhetfwa kute bahlolwe ngemibuto, lokwatsi emva kwaloko ledatha yahlatiywa. Ngekusebentisa ithiyori yemcambititayela yekufundza kute kwetiwe luhlaka lwalesifundvo, lokutfoliwe kuveta kutsi, nakuba thishela anekuvisisa lokutsite ngebuchwepheshe, (i) unebumatima ngemcondvo welwati lwendzabuko; (ii) bekangati nekutsi lwati lwendzabuko kukhulunywa ngalo esifundvweni seCurriculum Assessment Policy Statement (CAPS); nekutsi (iii) lwati lwakhe lolulinganiselwe ngemcodvo welwati lwendzabuko kusho kutsi akakwati kukufaka lapho afundzisa likhono lekuhlanganisa titfombe nemifanekiso. Amange asebentise lwati lwendzabuko kutsi lumsite njengemtfombo wesimondzawo sekulambela kufundzisa lebekabukene naso. Nakuba akuvuma kubaluleka kwemasiko ebafundzi bakhe, amange akusebentise kutsi kumsite ekufundziseni kwakhe. Kusebentisa kufanekisa njengendlela legcame kakhulu ekufundziseni kwakhe kumnike litfuba lekufaka lwati lwendzabuko nemakhono, kodvwa, futsi, amange akusebentise kute kumsite. Lokutfolwe kulesifundvo kungasita ekushintjeni kufundzisa sifundvo seBuchwepheshe, ngekuciniseka kutsi kufakwa lwati lwendzabuko ekufundziseni emakhono ekuhlanganisa titfombe nemifanekiso – lokuyintfo ledzingeka kakhulu emfundvweni nemcodvo we (Ningizimu) ne-Afrika. / Leli rhubhululo elilodwa elihlathululako elisasibonelo beliphenya ngokuhlanganiswa kwelwazi kanye namakghonofundwa wendabuko asagrafu kukharikhyulamu yeThekinoloji yesikolo esisesiPhandeni seHlanzeni esiFundeni seMpumalanga. Ukufika lapha. utitjhere wakwaGreyidi 9 kanye nabafundi bazibandakanye kurhubhululo elifuna ukuthola ukobana ukuhlanganiswa kwelwazi namakghonofundwa kungasiza bunjani ekuthuthukiseni ilwazi labafundi malungana nokudizayinwa kwamagrafiki (graphic design), okuyinto eyingcenye yommongo ofundiswa eFundweni yeThekonoloji. Ilwazi kanye namakghonofundwa wegrafiki sele akhona ngaphakathi kobujamo bendabuko, kukulapho abafundi abanengi beza khona, kanti bangasebenza ukobana benze ukufundwa kwedizayini yegrafiki ukobana kukhambisane neendingo zabafundi begodu kuzwisiseke. Yeke-ke ngalesi sizathu, utitjhere munye wakwa Greyidi 9 weThekinoloji wakhethwa ngehloso ukobana abuzwe ngehlolombono, ngemva kwalokho idatha yoke yahlathululwa. Ngokulandela ithiyori i-constructivist theory yokufunda ngokwesakhiwo serhubhululo leli, okutholakeleko kwaveza ukobana, nanyana utitjhere bekanelwazi lethekinoloji, y, (i) bekakalukana nokuzwisisa amagama amalungana nelwazi lendabuko; (ii) bekangakatjheji ukobana ilwazi lendabuko khelavezwa kuSitatimende soMthethomgomo seKharikhyulamu yezokuHlola (Curriculum Assessment Policy Statement (CAPS)) yesifundo; begodu (iii) ukuzwisisa kwakhe kancani igama lelwazi lendabuko bekutjho ukobana bekangazi ukobana ilwazi leli bekangalihlanganisa bunjani nokufundisa ukudizayinwa kwegrafiki. Njengombana wabuka ukuqakatheka kwesikopilo labafundi, akhange asebenzise ngokuzeleko ithuba eliveleko lokha nakafundisako. Ukulandela kwakhe indlela yokufundisa ngokukhombisa njengendlela ejayelekileko yokufundisa kulethe ithuba lokuhlanganisa ilwazi kanye namakghonofundwa wendabuko, kanti, begodu, akhange abambelele kilokho. Okutholakeleko kileli rhubhululo kungasiza ukutjhugulula ukufundiswa kweThekinoloji, ngokuqinisekisa ukuhlanganiswa kwelwazi lendabuko ngokudizayinwa kwegrafiki – okuyindlela edingeka khulu efundweni ngaphasi kobujamo beSewula Afrika. / Curriculum and Instructional Studies / M. Ed. (Curriculum Studies)

Indigenous knowledge

Integration

Graphic design

Culture

Skills

Technology Education

Kufakwa

Emasiko

Lwati lwendzabuko

Emakhono

Imfundvo Yebuchwepheshe

Isikopilo

Ilwazi lendabuko

Ukuhlanganiswa

Kudizayinwa kwegrafiki

Amakghonofundwa

iFundo yeThekinoloji

607.1268273

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 institution

Sedio, Mpipo Zipporah

29 March 2021

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)

E-tutor

E-tutoring

Design process

Distance Education

Open Distance and e-learning

Technology Education

Technology

Moralo oa ts'ebetso

Thuto ea hole

Sebaka se bulehileng le e-learning

Thuto ea Theknoloji

Theknoloji

I-E-tutor

Ukufundiswa nge-E

Inqubo yokuklama

Ukufunda amabanga

I-Open Distance ne-e-learning

Imfundo Yezobuchwepheshe

Ubuchwepheshe

378.17344678

University of South Africa

A pedagogy for technology education : an indigenous perspective

Maluleke, Richard

07 1900

The promotion of Afrocentric education is a current issue in Africa. This study aimed to establish the role of indigenous knowledge (IK) in the development of Senior Phase learners' design skills in Technology Education (TE). The study was guided by the constructivist theory, which is based on the assumption that prior learning can play a role in learning. When learning new things in a TE class, learners can benefit from their daily experiences in deriving meaning. Three schools from the Vhembe district in Limpopo Province participated in this study. The purposive sampling technique was used to select Technology teachers, heads of departments, TE specialists, learners and parents from these schools to participate in the study. Data were collected by way of individual and focus group interviews, participant observations and the analysis of documents and artifacts. The findings revealed that IK can increase learners' understanding and acquisition of design skills. However, this study revealed that the integration of IK can be hampered by factors such as the teachers' inability to use indigenous artifacts, the use of unvaried assessment methods, and a negative attitude towards culturally relevant pedagogy and IK. This study ultimately contributed an indigenous knowledge-based design process (IKBDP). Unlike the current conventional approach, an IKBDP has the potential to transform the teaching of Technology, thereby giving recognition to IK and accommodating learners from indigenous backgrounds. / Ku yisa emahlweni dyondzo yo vona swilo hi tihlo ra Xiafrika, i mhaka leyi nga le mahlweni eAfrika. Ndzavisiso lowu wu na xikongomelo xa ku vona ndzima ya vutivi bya ndhavuko ku nga indigenoous knowledge (IK) eka nhluvuko wa vadyondzi va xiyimo xa le henhla hi swikili swa dizayini ya dyondzo ya theknoloji ku nga Technology Education (TE). Ndzavisiso wu leteriwe hi constructivist theory, leyi yi seketeriweke hi mianakanyo kumbe vonelo ra leswo dyondzo leyi vanhu va taka na yona ya khale (prior learning) yi nga tlanga ndzima eku dyondzeni. Loko ku dyondziwa leswintshwa eka klasi ya TE, vadyondzi va nga vuyeriwa hi ku landza ntokoto wa vona wa masiku eku kumeni tinhlamuselo. Swikolo swinharhu eka distriki ya Vhembe eka Xifundzhankulu xa Limpopo swi ve na xiavo eka ndzavisiso lowu. Xikongomelo xa thekniki ya ku endla sampuli xi tirhisiwe ku langa mathicara ya Technology, tinhloko ta tindzhawulo, vatokoti va TE, vadyondzi na vatswari eka swikolo leswi va ve na xiavo eka ndzavisiso. Ku hlengeletiwe data eka munhu hi wun'we wun'we na le ka mintlawa ya xikongomelo lexi hi ku endla mimburisano ya ti-interview, ku xiyaxiya leswi swi endliwaka hi vateki va xiavo na nxopanxopo wa tidokumente na swilo leswi swi endliweke hi mavoko (artifacts). Vuyelo bya ndzavisiso byi kombe leswo IK yi nga pfuneta ku twisisa ka vadyondzi na ku kuma swikili swa dizayini. Kambe, ndzavisiso lowu wu kombise leswo ku katsiwa ka IK swi nga kavanyetiwa hi swilo swo fana na ku tsandzeka ka mathicara ku tirhisa swiendliwa swa mavoko swa ndhavuko, ku tirhisiwa ka tindlela to ka ti nga cinciwi ta nkambelo, na mianakanyo leyi nga ri ku leyinene mayelana na ndlela ya madyondziselo na IK. Ndzavisiso lowu ekuheteleleni wu pfunete fambiselo ra leswi vuriwaka indigenous knowledge-based design process (IKBDP). Hi ku hambana na fambiselo ra ntolovelo, IKBDP yi na ntamo wo cinca madyondziselo ya TE, no pfuneta ku amukela IK no angarhela vadyondzi lava va humaku eka fambiselo ra vutivi bya ndhavuko. / Tsweletso ya thuto ya Seaforika ke ntlha e e tsweletseng ga jaana mo Aforika. Maikaelelo a thutopatlisiso e ne e le go lebelela seabe sa kitso ya tshimologo (IK) mo tlhabololong ya bokgoni jwa thadiso jwa barutwana ba Legato le Legolwane mo Thutong ya Thekenoloji (TE). Thutopatlisiso e kaetswe ke tiori e e elang tlhoko ka moo batho ba ikagelang bokao ka gona (constructivist theory), e e ikaegileng ka mogopolo wa gore thuto e e ntseng e le gona e ka nna le seabe mo go ithuteng. Fa barutwana ba ithuta dilo tse dintšhwa mo phaposiborutelong ya TE, ba ka ungwelwa go tswa mo maitemogelong a bona go bona bokao. Dikolo di le tharo go tswa kwa kgaolong ya Vhembe kwa Porofenseng ya Limpopo di nnile le seabe mo thutopatlisisong eno. Go dirisitswe thekeniki ya go tlhopha sampole go ya ka maitlhomo a thutopatlisiso go tlhopha barutabana ba Thekenoloji, ditlhogo tsa mafapha, baitseanape ba TE, barutwana le batsadi go tswa kwa dikolong tseno go nna le seabe mo thutopatlisisong. Data e kokoantswe ka tsela ya go dirisa dipotsolotso tsa batho bongwe ka bongwe le ditlhopha tse di tlhophilweng, go ela bannileseabe tlhoko le tshekatsheko ya dikwalo le dilwana tsa tiro ya diatla. Diphitlhelelo di senotse gore IK e ka oketsa go tlhaloganya ga barutwana le go iponela bokgoni jwa go thadisa. Le fa go le jalo, thutopatlisiso eno e senotse gore go akarediwa ga IK go ka sitisiwa ke dintlha di tshwana le fa barutabana ba sa kgone go dirisa dilwana tsa tiro ya diatla tsa tshimologo, tiriso ya mekgwa ya tlhatlhobo e e sa farologanang, le megopolo e e sa siamang e e lebisiwang kwa katisong e e maleba mo setsong le IK. Kwa bokhutlong, thutopatlisiso eno e tshwaetse ka thulaganyo ya thadiso e e ikaegileng ka kitso ya tshimologo (IKBDP). Go farologana le mokgwa wa tlwaelo, IKBDP e na le kgonagalo ya go ka fetola go rutwa ga TE, mme ka go rialo e lemoga IK le go akaretsa barutwana ba ba nang le lemorago la tsa tshimologo. / Curriculum and Instructional Studies / D. Ed. (Curriculum Studies)

Design

Design process

Design skills

Indigenous knowledge

Technology

Technology education

Procedural knowledge

Conceptual knowledge

Dizayini

Prosese ya dizayini

Swikili swa dizayani

Vutivi bya ndhavuko

Theknoloji

Dyondzo ya theknoloji

Tthadiso

Thulaganyo ya thadiso

Bokgoni jwa to thadisa

Kitso ya tshimologo

Thekenoloji

Thuto ya thekenoloji

Kitso ya thulaganyo

Kitso ya megopolo

607.1268257

Teaching -- Methodology

An evaluation of the effectiveness of a cognitive load based teaching method in a mixed ability grade 9 class, with special attention to learners' attitudes and engagement / An evaluation of the effectiveness of a cognitive load based teaching method in a mixed ability grade nine class, with special attention to learners' attitudes and engagement

David, Joanne Munro

11 1900

Mathematics Education / M. Ed. (Mathematics Education)

ANA (Annual National Assessment)

ANOVA (Analysis of variance)

Class Dojo

CLT (Cognitive load theory)

DBE (Department of Basic Education)

Dinaledi schools

Epoch and Optima Trusts

Eskom

JET Education Services

Matric

NBI (National Business Initiative)

NSC (National Senior Certificate)

Quintile

SGB (School governing body)

SOS Children’s Villages

ZPD (Zone of proximal development)

Intermediate phase

510.71268273