Exploring a humanising pedagogy in the teaching of mathematics in engineering related subjects at TVET colleges
- Vimbelo, Siphokazi Winniefred
- Authors: Vimbelo, Siphokazi Winniefred
- Date: 2022-12
- Subjects: Mathematics--Study and teaching--Research , Mathematics--engineering , Pepagogy
- Language: English
- Type: Doctoral theses , text
- Identifier: http://hdl.handle.net/10948/60523 , vital:65641
- Description: Technical Vocational Education and Training (TVET) is the practical avenue for acquiring employability skills for the world of work. Employability skills can be acquired through engineering programmes as engineering programmes at TVET colleges are amongst those in the highest demand category of employability. Mathematics is the fundamental subject for engineering. However, the learning environment at TVET colleges is not suitable for vocational students. The mathematics curriculum at TVET is also less related to real-life vocational education and the teaching approaches are not conducive to TVET students’ needs. Teaching approaches employed are often not positioned in a socially just way in that lecturers focus more on what is important for the examinations rather than using the students’ background as a resource. These challenges can be related to the kind of pedagogies employed by TVET college lecturers in the teaching of mathematics. The current study investigates this essential space by focusing on exploring a Humanising Pedagogy (HP) in the teaching of mathematics at a TVET college. A HP was used to explore current pedagogies employed by TVET lecturers in their mathematics classroom at South West Gauteng College (SWGC) – Molapo Campus in Gauteng, South Africa. A qualitative approach was used, and data was collected through lesson observations and narratives obtained from the lecturers. Narrative inquiry was also used as the research design, as well as Interpretivism which is the research paradigm for this study. The data were collected from ten TVET mathematics lecturers. Five lecturers were from the National Certificate Vocational (NCV) and the other five from the NATED programmes. Lesson observations were analysed using deductive thematic analysis and paradigmatic analysis was used for narratives. The findings revealed that TVET college lecturers use a traditional approach in a sense that they are the only ones doing the talking. Student engagement is minimal as they do not relate mathematical principles under study to students’ lives. However, the results after exploring a HP revealed that teaching transformed from the teacher-centred approach to the humanistic student-centred approach which related mathematical principles to students’ real lived experience. A HP mathematics approach was taught using a social justice lens. Lecturers experienced HP as the approach that enhances mathematics understanding, values students’ voices, is relevant to vocational students, and is student-centred. , Thesis (PhD) -- Faculty of Education, School of Post Graduate Education, 2022
- Full Text:
- Date Issued: 2022-12
- Authors: Vimbelo, Siphokazi Winniefred
- Date: 2022-12
- Subjects: Mathematics--Study and teaching--Research , Mathematics--engineering , Pepagogy
- Language: English
- Type: Doctoral theses , text
- Identifier: http://hdl.handle.net/10948/60523 , vital:65641
- Description: Technical Vocational Education and Training (TVET) is the practical avenue for acquiring employability skills for the world of work. Employability skills can be acquired through engineering programmes as engineering programmes at TVET colleges are amongst those in the highest demand category of employability. Mathematics is the fundamental subject for engineering. However, the learning environment at TVET colleges is not suitable for vocational students. The mathematics curriculum at TVET is also less related to real-life vocational education and the teaching approaches are not conducive to TVET students’ needs. Teaching approaches employed are often not positioned in a socially just way in that lecturers focus more on what is important for the examinations rather than using the students’ background as a resource. These challenges can be related to the kind of pedagogies employed by TVET college lecturers in the teaching of mathematics. The current study investigates this essential space by focusing on exploring a Humanising Pedagogy (HP) in the teaching of mathematics at a TVET college. A HP was used to explore current pedagogies employed by TVET lecturers in their mathematics classroom at South West Gauteng College (SWGC) – Molapo Campus in Gauteng, South Africa. A qualitative approach was used, and data was collected through lesson observations and narratives obtained from the lecturers. Narrative inquiry was also used as the research design, as well as Interpretivism which is the research paradigm for this study. The data were collected from ten TVET mathematics lecturers. Five lecturers were from the National Certificate Vocational (NCV) and the other five from the NATED programmes. Lesson observations were analysed using deductive thematic analysis and paradigmatic analysis was used for narratives. The findings revealed that TVET college lecturers use a traditional approach in a sense that they are the only ones doing the talking. Student engagement is minimal as they do not relate mathematical principles under study to students’ lives. However, the results after exploring a HP revealed that teaching transformed from the teacher-centred approach to the humanistic student-centred approach which related mathematical principles to students’ real lived experience. A HP mathematics approach was taught using a social justice lens. Lecturers experienced HP as the approach that enhances mathematics understanding, values students’ voices, is relevant to vocational students, and is student-centred. , Thesis (PhD) -- Faculty of Education, School of Post Graduate Education, 2022
- Full Text:
- Date Issued: 2022-12
Main thesis title
- Authors: Tsamago, Hodi, Elias
- Date: 2022-12
- Subjects: Technology integration , SOLEs pedagogy , Metacognitive
- Language: English
- Type: Doctoral theses , text
- Identifier: http://hdl.handle.net/10948/60549 , vital:65833
- Description: The study was carried out to investigate the effect of the use of technology in self-organised learning environments (SOLEs) (in Physical Sciences classrooms) on learners’ metacognitive skills. The study contributes by identifying a technology-enhanced pedagogy that can effectively equip learners with metacognitive skills, which many studies have reported as having an effect on Physical Sciences learners’ conceptual understanding. The study followed an experimental (control group quasi-experimental) methods design, in which both qualitative and quantitative data were collected and analysed. A multistep stratified sampling method (which caters for both quantitative and qualitative facets) was employed to choose four schools (two rural and two urban) to participate in the study. These schools were randomly chosen from the population of all schools offering Physical Sciences in Grade 11 in the Capricorn District of Limpopo Province, South Africa were assigned to urban experimental group and rural experimental group (UEG and REG) and urban control group and rural control group (UCG and RCG) using geographical demographics. The participants were selected using both simple random sampling (for quantitative methods) and purposive sampling (for qualitative methods). The experimental groups were taught by the researcher using self-organised learning environments (SOLEs) pedagogy, while control groups were taught (also by the researcher of the study) using a traditional chalk-and-talk approach. A Physical Sciences concepts pre-/post-test and the Metacognitive Self-Assessment Scale (MSAS) questionnaire were used to glean the quantitative data, while focus group interviews (FGIs) were used to obtain the qualitative data. The analysis of the quantitative data employed both descriptive (mean, standard deviation and graphs) and inferential (both parametric t-test and non-parametric Kruskal-Wallis and Wilcoxon signed-rank tests) statistics computed using the SPSS package version 22, while qualitative data were analysed thematically using coding techniques (applied on a sentence-by-sentence basis) after the transcription of the recorded FGIs. The study found that SOLEs pedagogy improves learners’ metacognitive skills, leading to better Physical Sciences conceptual understanding. In addition, the results indicate that all v aspects of metacognitive skills improved in experimental groups; however, certain aspects exhibited outstanding improvement such as “Respect shown to myself”; “Respect shown to others”; “Respect shown for empathy towards others” and “Respect shown towards problem solving”. Furthermore, the results of the FGIs revealed that a plausible explanation for the ability of SOLEs pedagogy to enhance metacognitive skills lies in its effortlessness to enable learners to link their classroom experiences to real-life experiences; simulate practical work; adapt to collaborative learning; use multiple channels for receiving information; and reducing learners’ reliance on the teacher. Hence, this study recommends the implementation of SOLEs pedagogy in the Physical Sciences classroom to improve learners’ metacognitive skills and conceptual understanding. However, the study had limitations, some of which included the sample size (which has an effect on the degree of generalisability of the research findings) and the period during which SOLEs pedagogy was implemented which might not have been long enough to exhaust its effect on metacognitive skills. Accordingly, further studies employing a longitudinal study design with a sample size bigger than 350 participants would be useful in understanding the effects of SOLEs pedagogy on metacognitive skills and improving the generalisability of research findings , Thesis (PhD) -- Faculty of education, 2022
- Full Text:
- Date Issued: 2022-12
- Authors: Tsamago, Hodi, Elias
- Date: 2022-12
- Subjects: Technology integration , SOLEs pedagogy , Metacognitive
- Language: English
- Type: Doctoral theses , text
- Identifier: http://hdl.handle.net/10948/60549 , vital:65833
- Description: The study was carried out to investigate the effect of the use of technology in self-organised learning environments (SOLEs) (in Physical Sciences classrooms) on learners’ metacognitive skills. The study contributes by identifying a technology-enhanced pedagogy that can effectively equip learners with metacognitive skills, which many studies have reported as having an effect on Physical Sciences learners’ conceptual understanding. The study followed an experimental (control group quasi-experimental) methods design, in which both qualitative and quantitative data were collected and analysed. A multistep stratified sampling method (which caters for both quantitative and qualitative facets) was employed to choose four schools (two rural and two urban) to participate in the study. These schools were randomly chosen from the population of all schools offering Physical Sciences in Grade 11 in the Capricorn District of Limpopo Province, South Africa were assigned to urban experimental group and rural experimental group (UEG and REG) and urban control group and rural control group (UCG and RCG) using geographical demographics. The participants were selected using both simple random sampling (for quantitative methods) and purposive sampling (for qualitative methods). The experimental groups were taught by the researcher using self-organised learning environments (SOLEs) pedagogy, while control groups were taught (also by the researcher of the study) using a traditional chalk-and-talk approach. A Physical Sciences concepts pre-/post-test and the Metacognitive Self-Assessment Scale (MSAS) questionnaire were used to glean the quantitative data, while focus group interviews (FGIs) were used to obtain the qualitative data. The analysis of the quantitative data employed both descriptive (mean, standard deviation and graphs) and inferential (both parametric t-test and non-parametric Kruskal-Wallis and Wilcoxon signed-rank tests) statistics computed using the SPSS package version 22, while qualitative data were analysed thematically using coding techniques (applied on a sentence-by-sentence basis) after the transcription of the recorded FGIs. The study found that SOLEs pedagogy improves learners’ metacognitive skills, leading to better Physical Sciences conceptual understanding. In addition, the results indicate that all v aspects of metacognitive skills improved in experimental groups; however, certain aspects exhibited outstanding improvement such as “Respect shown to myself”; “Respect shown to others”; “Respect shown for empathy towards others” and “Respect shown towards problem solving”. Furthermore, the results of the FGIs revealed that a plausible explanation for the ability of SOLEs pedagogy to enhance metacognitive skills lies in its effortlessness to enable learners to link their classroom experiences to real-life experiences; simulate practical work; adapt to collaborative learning; use multiple channels for receiving information; and reducing learners’ reliance on the teacher. Hence, this study recommends the implementation of SOLEs pedagogy in the Physical Sciences classroom to improve learners’ metacognitive skills and conceptual understanding. However, the study had limitations, some of which included the sample size (which has an effect on the degree of generalisability of the research findings) and the period during which SOLEs pedagogy was implemented which might not have been long enough to exhaust its effect on metacognitive skills. Accordingly, further studies employing a longitudinal study design with a sample size bigger than 350 participants would be useful in understanding the effects of SOLEs pedagogy on metacognitive skills and improving the generalisability of research findings , Thesis (PhD) -- Faculty of education, 2022
- Full Text:
- Date Issued: 2022-12
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