The role of training and organizational support in strengthening GIS interns’ (‘incubants’) participation in workplace occupations: a case study of the Groen Sebenza internship project
- Authors: Madiba, Morakane
- Date: 2016
- Language: English
- Type: Thesis , Masters , MEd
- Identifier: http://hdl.handle.net/10962/1330 , vital:20047
- Description: The cases in this study are embedded within a multi-layered, nested case study design. An in-depth exploration of each case is provided with a view to understand the ways in which the internship training in the incubation model strengthens the learning, experience, knowledge, skills and interest of the university graduate interns/incubants to prepare them for full participation in their communities of practice in workplaces. The case study of Groen Sebenza internship project works across more than 40 partnering organisations. It is using incubation model for the first time in the biodiversity sector which is why its training needs to be investigated. To examine this question “In what way can training and the organizational support, of the incubation model strengthen the learning, experience, knowledge, skills and interest of interns/incubants to prepare them towards full participation in workplace roles and responsibilities in biodiversity occupations?” the research was undertaken in the context of university graduate incubants/interns in the Geographic Information System (GIS) field from three host-organizations; Limpopo Economic Development Environment and Tourism (LEDET), Environmental Systems Research Institute (ESRI) and South African National Biodiversity Institute (SANBI). The participants of the study were purposefully selected. Data was collected twice (i.e. after the first seven months and then a follow-up interview was conducted after a further five months) during the first twelve months of the project in the form of interviews and observations. There was also ongoing data collected in the form of documents which focused on their participation in workplaces and training. Data was analysed using different layers of qualitative content analysis and examination of documents at different stages of the study. Through immersion with the data and literature insights were developed regarding the enablers and constraints of the training in the incubation model related to the GIS interns. These included:- 1. The twelve months period spent by the GIS incubants in the Groen Sebenza internship project was not enough to prepare them towards full participation in workplace roles and responsibilities in biodiversity occupations. 2. Internship training is not just a ‘passing insignificant episode of the lives of the incubants/newcomers’ [specifically those from disadvantaged communities] but is a ‘real source of hope’. 3. The investigated institutions (and their members) need to make a real effort to improve if they want to stay relevant and useful in the Groen Sebenza internship project. 4. The incubants and mentors need to make the process of reflexivity real and practical. 5. The 2.5 years incubation model has high potential to work if the institutions, the mentors and the mentees involved in GIS improve the challenges mentioned in the study. Drawing from the data and literature I have discussed and recommended a model which could assist in improving the internship programmes specifically for the university students who are from underprivileged communities.
- Full Text:
- Authors: Madiba, Morakane
- Date: 2016
- Language: English
- Type: Thesis , Masters , MEd
- Identifier: http://hdl.handle.net/10962/1330 , vital:20047
- Description: The cases in this study are embedded within a multi-layered, nested case study design. An in-depth exploration of each case is provided with a view to understand the ways in which the internship training in the incubation model strengthens the learning, experience, knowledge, skills and interest of the university graduate interns/incubants to prepare them for full participation in their communities of practice in workplaces. The case study of Groen Sebenza internship project works across more than 40 partnering organisations. It is using incubation model for the first time in the biodiversity sector which is why its training needs to be investigated. To examine this question “In what way can training and the organizational support, of the incubation model strengthen the learning, experience, knowledge, skills and interest of interns/incubants to prepare them towards full participation in workplace roles and responsibilities in biodiversity occupations?” the research was undertaken in the context of university graduate incubants/interns in the Geographic Information System (GIS) field from three host-organizations; Limpopo Economic Development Environment and Tourism (LEDET), Environmental Systems Research Institute (ESRI) and South African National Biodiversity Institute (SANBI). The participants of the study were purposefully selected. Data was collected twice (i.e. after the first seven months and then a follow-up interview was conducted after a further five months) during the first twelve months of the project in the form of interviews and observations. There was also ongoing data collected in the form of documents which focused on their participation in workplaces and training. Data was analysed using different layers of qualitative content analysis and examination of documents at different stages of the study. Through immersion with the data and literature insights were developed regarding the enablers and constraints of the training in the incubation model related to the GIS interns. These included:- 1. The twelve months period spent by the GIS incubants in the Groen Sebenza internship project was not enough to prepare them towards full participation in workplace roles and responsibilities in biodiversity occupations. 2. Internship training is not just a ‘passing insignificant episode of the lives of the incubants/newcomers’ [specifically those from disadvantaged communities] but is a ‘real source of hope’. 3. The investigated institutions (and their members) need to make a real effort to improve if they want to stay relevant and useful in the Groen Sebenza internship project. 4. The incubants and mentors need to make the process of reflexivity real and practical. 5. The 2.5 years incubation model has high potential to work if the institutions, the mentors and the mentees involved in GIS improve the challenges mentioned in the study. Drawing from the data and literature I have discussed and recommended a model which could assist in improving the internship programmes specifically for the university students who are from underprivileged communities.
- Full Text:
Understanding how grade 8 Physical Science teachers make use of learners’ prior everyday knowledge when teaching static electricity: A case study
- Authors: Iyambo, Toini
- Date: 2016
- Language: English
- Type: Thesis , Masters , MEd
- Identifier: http://hdl.handle.net/10962/1320 , vital:20046
- Description: Over the last decade of my teaching I have been grappling with how to incorporate learners’ prior everyday knowledge into my Physical Science lessons to enable me to close the gap between school science and everyday knowledge. I conducted this case study in two schools, one in Omusati region and one in Ohangwena Region, Namibia. Its purpose was to investigate how grade 8 Physical Science teachers make use of learners’ prior everyday knowledge when teaching the topic of static electricity. Underpinned by an interpretive paradigm, the study made use of document analysis, observation (lessons were also video-taped) and semi-structured interviews to generate the data. Three data generating techniques were used for triangulation and validation purposes. To further validate the data, transcripts of video-taped lessons and interviews were sent back to the research participants for member checking. The main findings of my study are that teachers did incorporate learners’ prior knowledge in the lesson presentation on static electricity. It emerged from the study that, learners possess a great deal of prior everyday scientific and non-scientific knowledge and experiences about static electricity that they had acquired from their communities. Also, mobilization of learners' everyday knowledge and experiences about static electricity enabled learner engagement during the science lessons. Likewise, engaging learners in demonstrations on static electricity helped them to make meaning of the scientific concepts involved in the topic. It also emerged from this study that teachers face challenges of lack of documentation of indigenous knowledge which is potentially a form of prior knowledge, language barriers and a lack of resources. Based on my research findings, I therefore, recommend that learners' prior everyday knowledge and experiences about static electricity should be incorporated during the teaching and learning process.
- Full Text:
- Authors: Iyambo, Toini
- Date: 2016
- Language: English
- Type: Thesis , Masters , MEd
- Identifier: http://hdl.handle.net/10962/1320 , vital:20046
- Description: Over the last decade of my teaching I have been grappling with how to incorporate learners’ prior everyday knowledge into my Physical Science lessons to enable me to close the gap between school science and everyday knowledge. I conducted this case study in two schools, one in Omusati region and one in Ohangwena Region, Namibia. Its purpose was to investigate how grade 8 Physical Science teachers make use of learners’ prior everyday knowledge when teaching the topic of static electricity. Underpinned by an interpretive paradigm, the study made use of document analysis, observation (lessons were also video-taped) and semi-structured interviews to generate the data. Three data generating techniques were used for triangulation and validation purposes. To further validate the data, transcripts of video-taped lessons and interviews were sent back to the research participants for member checking. The main findings of my study are that teachers did incorporate learners’ prior knowledge in the lesson presentation on static electricity. It emerged from the study that, learners possess a great deal of prior everyday scientific and non-scientific knowledge and experiences about static electricity that they had acquired from their communities. Also, mobilization of learners' everyday knowledge and experiences about static electricity enabled learner engagement during the science lessons. Likewise, engaging learners in demonstrations on static electricity helped them to make meaning of the scientific concepts involved in the topic. It also emerged from this study that teachers face challenges of lack of documentation of indigenous knowledge which is potentially a form of prior knowledge, language barriers and a lack of resources. Based on my research findings, I therefore, recommend that learners' prior everyday knowledge and experiences about static electricity should be incorporated during the teaching and learning process.
- Full Text:
Understanding how the incorporation of indigenous knowledge (IK) enables or constrains the teaching and learning of alcoholic fermentation in Life Sciences in Grade 11
- Authors: Mutanho, Chrispen
- Date: 2016
- Language: English
- Type: Thesis , Masters , MEd
- Identifier: http://hdl.handle.net/10962/1264 , vital:20041
- Description: There is growing interest in the role of indigenous knowledge (IK) in science education in many parts of the world. In South Africa, this comes against the backdrop of a long history of cultural alienation, neglect and suppression of the IK of the indigenous people by colonial governments. Hence, the first post-independence National Curriculum Policy Statement (Curriculum, 2005) and its subsequent modified versions emphasised the need to redress the imbalances of the past so as to make science accessible to learners from diverse cultural backgrounds. However, literature reveals that the efforts to implement an IK-based curriculum are constrained by the lack of clarity, knowledge and skills on how to effectively make use of IK in the classroom situation so as to bring about effective teaching and learning. Against this background, this study sought to understand how the incorporation of IK enables or constrains the teaching and learning of alcoholic fermentation. Underpinned by an interpretive paradigm, a qualitative case study was conducted at a high school in Mthatha District in the Eastern Cape Province of South Africa. The study comprised of a sample of ten Life Sciences teachers from four neighbouring high schools, two Grade 11 Life Sciences teachers and their classes and two focus groups of six learners from each class. Convenience and purposive sampling were used to select the participants and the research site. The study made use of a questionnaire, document analysis, lesson observation, stimulated recall interviews and focus group interviews to generate data. The questionnaire sought to get an overview of Life Sciences teachers’ attitudes, opinions and experiences on incorporating IK in science teaching. The data gathered were then used as baseline information to inform the main study. The lesson observations, stimulated recall interviews and the focus group interviews sought to understand how the incorporation of IK enables or constrains the teaching and learning of alcoholic fermentation. Document analysis, lesson observation, stimulated recall interviews and focus group interviews were conducted to understand the experience of incorporating IK in a real life classroom situation. The study was informed by Vygotsky’s socio-cultural constructivism and Shulman’s pedagogical content knowledge (PCK) theory. From Vygotsky’s theory I borrowed the idea of mediated learning, scaffolding (Bruner, 1986), zone of proximal development (ZPD), as well as the use of language and cultural artefacts as tools of analysis of the classroom interaction between the teacher and the learners during the teaching-learning process. Shulman’s theory of PCK was also used to analyse how teachers apply IK in teaching Science. The data obtained were coded inductively and presented in tables, graphs and thick descriptive texts to make it easy to understand. The findings of this research show that incorporating IK improved the teaching-learning process by arousing learners’ interest in science, increasing learners’ participation and motivation, meaning making, language use, questioning and engagement in the learning process. Teaching became learner-centred, for it was directed by learners’ questions. Collaborative learning through group discussions, debates, arguments and brainstorming emerged to be an effective way of engaging learners in learning. The teachers used probing to encourage critical thinking before scaffolding learners. However, even though teachers generally accept IK as valuable in their teaching they lack the pedagogical content knowledge to effectively incorporate it into meaningful teaching and learning. Furthermore, teachers viewed cultural diversity as a constraint to their efforts to incorporate IK in teaching science. On the contrary, their learners held the view that having cultural diversity in classrooms created an opportunity to learn from other people’s cultures. Variables such as experience and difference in the cultural background of learners and teachers alike, tended to affect the teachers’ ability to incorporate IK.
- Full Text:
- Authors: Mutanho, Chrispen
- Date: 2016
- Language: English
- Type: Thesis , Masters , MEd
- Identifier: http://hdl.handle.net/10962/1264 , vital:20041
- Description: There is growing interest in the role of indigenous knowledge (IK) in science education in many parts of the world. In South Africa, this comes against the backdrop of a long history of cultural alienation, neglect and suppression of the IK of the indigenous people by colonial governments. Hence, the first post-independence National Curriculum Policy Statement (Curriculum, 2005) and its subsequent modified versions emphasised the need to redress the imbalances of the past so as to make science accessible to learners from diverse cultural backgrounds. However, literature reveals that the efforts to implement an IK-based curriculum are constrained by the lack of clarity, knowledge and skills on how to effectively make use of IK in the classroom situation so as to bring about effective teaching and learning. Against this background, this study sought to understand how the incorporation of IK enables or constrains the teaching and learning of alcoholic fermentation. Underpinned by an interpretive paradigm, a qualitative case study was conducted at a high school in Mthatha District in the Eastern Cape Province of South Africa. The study comprised of a sample of ten Life Sciences teachers from four neighbouring high schools, two Grade 11 Life Sciences teachers and their classes and two focus groups of six learners from each class. Convenience and purposive sampling were used to select the participants and the research site. The study made use of a questionnaire, document analysis, lesson observation, stimulated recall interviews and focus group interviews to generate data. The questionnaire sought to get an overview of Life Sciences teachers’ attitudes, opinions and experiences on incorporating IK in science teaching. The data gathered were then used as baseline information to inform the main study. The lesson observations, stimulated recall interviews and the focus group interviews sought to understand how the incorporation of IK enables or constrains the teaching and learning of alcoholic fermentation. Document analysis, lesson observation, stimulated recall interviews and focus group interviews were conducted to understand the experience of incorporating IK in a real life classroom situation. The study was informed by Vygotsky’s socio-cultural constructivism and Shulman’s pedagogical content knowledge (PCK) theory. From Vygotsky’s theory I borrowed the idea of mediated learning, scaffolding (Bruner, 1986), zone of proximal development (ZPD), as well as the use of language and cultural artefacts as tools of analysis of the classroom interaction between the teacher and the learners during the teaching-learning process. Shulman’s theory of PCK was also used to analyse how teachers apply IK in teaching Science. The data obtained were coded inductively and presented in tables, graphs and thick descriptive texts to make it easy to understand. The findings of this research show that incorporating IK improved the teaching-learning process by arousing learners’ interest in science, increasing learners’ participation and motivation, meaning making, language use, questioning and engagement in the learning process. Teaching became learner-centred, for it was directed by learners’ questions. Collaborative learning through group discussions, debates, arguments and brainstorming emerged to be an effective way of engaging learners in learning. The teachers used probing to encourage critical thinking before scaffolding learners. However, even though teachers generally accept IK as valuable in their teaching they lack the pedagogical content knowledge to effectively incorporate it into meaningful teaching and learning. Furthermore, teachers viewed cultural diversity as a constraint to their efforts to incorporate IK in teaching science. On the contrary, their learners held the view that having cultural diversity in classrooms created an opportunity to learn from other people’s cultures. Variables such as experience and difference in the cultural background of learners and teachers alike, tended to affect the teachers’ ability to incorporate IK.
- Full Text: