Attitude of physical sciences teachers towards the role of formal assessment of practical work: a case study in Buffalo City metropolitan district in the Eastern Cape
- Authors: Mzinyane, Lindiwe
- Date: 2024-04
- Subjects: Physical sciences -- Study and teaching , Life sciences -- Study and teaching , Science -- Study and teaching -- South Africa
- Language: English
- Type: Master's theses , text
- Identifier: http://hdl.handle.net/10948/64016 , vital:73639
- Description: The Curriculum and Assessment Policy Statement (CAPS) for Physical sciences in South African states that learners should carryout formal experiments Formal experiments contribute immensely to the development of laboratory skills and scientific knowledge, as well as understanding science concepts and theories. However, research shows that many teachers do not support and/or guide learners in formal experiments. The aim of this study was to explore and understand the attitude of Grade 11 Physical sciences teachers in Buffalo City Metropolitan District (BCM), in the Eastern Cape province regarding formal experiments. The TALIS framework was used to unpack teachers’ perceptions and understanding of formal experiments and related practical activities. A qualitative approach within the interpretative paradigm was employed in which an open-ended questionnaire and face to face interviews were conducted as data collection tools. The sample comprised ten participants (4 males and 6 females) of ages ranging from 20 to 54 years The data collection process involved three phases that included a pre-intervention questionnaire, an intervention workshop and post intervention face to face interview. Most of the participants 7(70%) confirmed that they did not carry out all formal experiments as prescribed in the CAPS document. The results revealed that most teachers do not understand the purpose of practical work and /or formal experiments, which is a possible explanation for the negative attitude towards the formal experiments teachers hold. The study also revealed that some participants 4(40%) did not understand the link between science pedagogy and the nature of science. It was discovered from the results that negative attitude towards formal experiments was due to lack of resources, lack of knowledge to guide learners to carry out the experiments, lack of time, and overcrowded classes. , Thesis (MEd) -- Faculty of Education, School of Postgraduate Education, 2024
- Full Text:
- Date Issued: 2024-04
- Authors: Mzinyane, Lindiwe
- Date: 2024-04
- Subjects: Physical sciences -- Study and teaching , Life sciences -- Study and teaching , Science -- Study and teaching -- South Africa
- Language: English
- Type: Master's theses , text
- Identifier: http://hdl.handle.net/10948/64016 , vital:73639
- Description: The Curriculum and Assessment Policy Statement (CAPS) for Physical sciences in South African states that learners should carryout formal experiments Formal experiments contribute immensely to the development of laboratory skills and scientific knowledge, as well as understanding science concepts and theories. However, research shows that many teachers do not support and/or guide learners in formal experiments. The aim of this study was to explore and understand the attitude of Grade 11 Physical sciences teachers in Buffalo City Metropolitan District (BCM), in the Eastern Cape province regarding formal experiments. The TALIS framework was used to unpack teachers’ perceptions and understanding of formal experiments and related practical activities. A qualitative approach within the interpretative paradigm was employed in which an open-ended questionnaire and face to face interviews were conducted as data collection tools. The sample comprised ten participants (4 males and 6 females) of ages ranging from 20 to 54 years The data collection process involved three phases that included a pre-intervention questionnaire, an intervention workshop and post intervention face to face interview. Most of the participants 7(70%) confirmed that they did not carry out all formal experiments as prescribed in the CAPS document. The results revealed that most teachers do not understand the purpose of practical work and /or formal experiments, which is a possible explanation for the negative attitude towards the formal experiments teachers hold. The study also revealed that some participants 4(40%) did not understand the link between science pedagogy and the nature of science. It was discovered from the results that negative attitude towards formal experiments was due to lack of resources, lack of knowledge to guide learners to carry out the experiments, lack of time, and overcrowded classes. , Thesis (MEd) -- Faculty of Education, School of Postgraduate Education, 2024
- Full Text:
- Date Issued: 2024-04
Integrating information and communications technology (ICT) into teaching and learning: the case of mathematics, science and technology education in one higher education institution
- Authors: Addam, Billey Bright Kwadwo
- Date: 2014
- Subjects: Educational teaching -- South Africa , Computer-assisted instruction -- South Africa , Mathematics -- Study and teaching -- South Africa , Science -- Study and teaching -- South Africa
- Language: English
- Type: Thesis , Doctoral , PhD (Education)
- Identifier: vital:16224 , http://hdl.handle.net/10353/d1019736 , Educational teaching -- South Africa , Computer-assisted instruction -- South Africa , Mathematics -- Study and teaching -- South Africa , Science -- Study and teaching -- South Africa
- Description: This study explores the integration of Information and Communication Technologies (ICT) into teaching and learning within one Higher Education institution. The main question driving the study was: How is ICT integrated in the teaching and learning of mathematics, science and technology education (MSTE) in a Bachelor of Education programme? This is a case study of lecturers and students in Mathematics, Science and Technology Education. It makes use of questionnaires, interviews, field notes and document analyses to collect data. MSTE lecturers and students were assumed to be well versed in ICT usage and, therefore, well placed to assess its integration into teaching and learning. There were five main findings: First, that Mathematics, Science and Technology Education lecturers showed some ambivalence in their ontological and epistemological orientation to using ICT. Some leaned towards the instruction paradigm and used ICT as a tool for the transmission of knowledge; others leaned towards the learning paradigm, showing an awareness of the need to elicit discovery through ICT. Secondly, that lecturers’ understanding of ICT integration was oriented towards teaching and learning from technologies rather than with technologies. Thirdly, that processes of ‘pedagogical evolution’ were taking place, in terms of which there was a gradual but perceptible shift in the teaching and learning practice of both students and lecturers. Fourthly, there was no evidence to show that lecturers used ICT to promote innovative and creative teaching; in fact, students appeared to be more creative in using ICT resources, than lecturers. Fifthly, and finally, lecturers did not assign ICT-based tasks that promote conceptual understanding. They assigned tasks that asked students to extract and reproduce information from computers, without demonstrating understanding. When used in this way, ICT can, in fact, be de-skilling. From these findings, it can be concluded that ICT integration cannot be understood without exploring the ontological and epistemological orientations, as well as the theoretical orientations, at play in the teaching and learning situation. It is on the basis of these that people, that is, lecturers and students, make use of, ICTs to achieve desired goals. It is therefore recommended that, for the improvement of integration, there should be a greater emphasis on developing and sharing pedagogical expertise concerning ICT use in teaching and learning. It is recommended that a country-wide research survey should be undertaken, based on probability sampling and focussing on pedagogical issues in ICT integration in teaching and learning.
- Full Text:
- Date Issued: 2014
- Authors: Addam, Billey Bright Kwadwo
- Date: 2014
- Subjects: Educational teaching -- South Africa , Computer-assisted instruction -- South Africa , Mathematics -- Study and teaching -- South Africa , Science -- Study and teaching -- South Africa
- Language: English
- Type: Thesis , Doctoral , PhD (Education)
- Identifier: vital:16224 , http://hdl.handle.net/10353/d1019736 , Educational teaching -- South Africa , Computer-assisted instruction -- South Africa , Mathematics -- Study and teaching -- South Africa , Science -- Study and teaching -- South Africa
- Description: This study explores the integration of Information and Communication Technologies (ICT) into teaching and learning within one Higher Education institution. The main question driving the study was: How is ICT integrated in the teaching and learning of mathematics, science and technology education (MSTE) in a Bachelor of Education programme? This is a case study of lecturers and students in Mathematics, Science and Technology Education. It makes use of questionnaires, interviews, field notes and document analyses to collect data. MSTE lecturers and students were assumed to be well versed in ICT usage and, therefore, well placed to assess its integration into teaching and learning. There were five main findings: First, that Mathematics, Science and Technology Education lecturers showed some ambivalence in their ontological and epistemological orientation to using ICT. Some leaned towards the instruction paradigm and used ICT as a tool for the transmission of knowledge; others leaned towards the learning paradigm, showing an awareness of the need to elicit discovery through ICT. Secondly, that lecturers’ understanding of ICT integration was oriented towards teaching and learning from technologies rather than with technologies. Thirdly, that processes of ‘pedagogical evolution’ were taking place, in terms of which there was a gradual but perceptible shift in the teaching and learning practice of both students and lecturers. Fourthly, there was no evidence to show that lecturers used ICT to promote innovative and creative teaching; in fact, students appeared to be more creative in using ICT resources, than lecturers. Fifthly, and finally, lecturers did not assign ICT-based tasks that promote conceptual understanding. They assigned tasks that asked students to extract and reproduce information from computers, without demonstrating understanding. When used in this way, ICT can, in fact, be de-skilling. From these findings, it can be concluded that ICT integration cannot be understood without exploring the ontological and epistemological orientations, as well as the theoretical orientations, at play in the teaching and learning situation. It is on the basis of these that people, that is, lecturers and students, make use of, ICTs to achieve desired goals. It is therefore recommended that, for the improvement of integration, there should be a greater emphasis on developing and sharing pedagogical expertise concerning ICT use in teaching and learning. It is recommended that a country-wide research survey should be undertaken, based on probability sampling and focussing on pedagogical issues in ICT integration in teaching and learning.
- Full Text:
- Date Issued: 2014
Lessons learnt from teachers during the first two years of the implemetation of a new foundation phase science curriculum
- Authors: Plaatjies, Randall
- Date: 2014
- Subjects: Early childhood teachers -- South Africa , Science -- Study and teaching -- South Africa , Education, Elementary -- Curricula -- South Africa
- Language: English
- Type: Thesis , Masters , MEd
- Identifier: http://hdl.handle.net/10948/3052 , vital:20391
- Description: Foundation Phase (FP) teachers’ reluctance to teach science might stem from their weak science backgrounds that has resulted in their limited science content knowledge and their congruent science misconceptions and low self-efficacy with respect to science (Boyer, 2010; Luera, Moyer, & Everett, 2005). This study was guided by the following research question: What lessons, if any, can be learnt from a representative sample of FP teachers from six rural schools in the Libode Mega District with respect to the implementation of the Natural Sciences aspect of a new curriculum? The sample comprised 18 black, female, isiXhosa speaking teachers that represented six schools in the Libode Mega District (Libode, Ntlaza and Lusikisiki). A mixed-methods approach was used to collect qualitative and descriptive quantitative data using two structured questionnaires and semi-structured interviews in the form of focus groups.
- Full Text:
- Date Issued: 2014
- Authors: Plaatjies, Randall
- Date: 2014
- Subjects: Early childhood teachers -- South Africa , Science -- Study and teaching -- South Africa , Education, Elementary -- Curricula -- South Africa
- Language: English
- Type: Thesis , Masters , MEd
- Identifier: http://hdl.handle.net/10948/3052 , vital:20391
- Description: Foundation Phase (FP) teachers’ reluctance to teach science might stem from their weak science backgrounds that has resulted in their limited science content knowledge and their congruent science misconceptions and low self-efficacy with respect to science (Boyer, 2010; Luera, Moyer, & Everett, 2005). This study was guided by the following research question: What lessons, if any, can be learnt from a representative sample of FP teachers from six rural schools in the Libode Mega District with respect to the implementation of the Natural Sciences aspect of a new curriculum? The sample comprised 18 black, female, isiXhosa speaking teachers that represented six schools in the Libode Mega District (Libode, Ntlaza and Lusikisiki). A mixed-methods approach was used to collect qualitative and descriptive quantitative data using two structured questionnaires and semi-structured interviews in the form of focus groups.
- Full Text:
- Date Issued: 2014
Investigating science teachers' perceptions of the nature of science in the context of curriculum reform in South Africa
- Kurup, Rajasekhar Thanukkothu Sankar Pillai
- Authors: Kurup, Rajasekhar Thanukkothu Sankar Pillai
- Date: 2010
- Subjects: Science -- Methodology -- South Africa , Science -- Study and teaching -- Philosophy , Science -- Study and teaching -- South Africa -- Evaluation , Science -- Study and teaching -- Curricula -- South Africa , Science -- Study and teaching -- South Africa
- Language: English
- Type: Thesis , Doctoral , DEd
- Identifier: vital:9509 , http://hdl.handle.net/10948/1175 , Science -- Methodology -- South Africa , Science -- Study and teaching -- Philosophy , Science -- Study and teaching -- South Africa -- Evaluation , Science -- Study and teaching -- Curricula -- South Africa , Science -- Study and teaching -- South Africa
- Description: An adequate understanding of the nature of science (NOS) has become increasingly important for science teachers in South Africa as comprehensive curricular reforms over the past decade include promoting informed understandings of the ontological and epistemological bases of scientific knowledge and the methods of science. The main objective of this study was to explore the NOS understandings held by a sample of science teachers in the Eastern Cape Province of South Africa. Data were generated via questionnaires (n=136), semi-structured interviews (n=31), and classroom observations (n=8). The teacher interviews, which were informed by the questionnaire data, enabled further interrogation of the teachers’ philosophical positions. Their classroom practices were examined within the framework of these philosophical positions and the requirements of the new curriculum. The effect of implicit and explicit instruction in NOS on these teachers’ beliefs and classroom activities was also considered. A mixed-method approach informed by positivist and interpretivist perspectives was used for the collection and analysis of the data. The data suggests that explicit instruction in NOS resulted in more informed conceptions of science and the scientific enterprise, and that these conceptions were reflected, to a degree, in their classroom behaviours. However, it was noted that the teachers in this study often held philosophically eclectic views of the nature of scientific knowledge and how scientists develop ideas. Similarly, the South African National Curriculum Statement portrays science in contrasting ways, i.e. often within a modern/realist framework, but in other instances within postmodern/relativistic understandings (particularly in terms of indigenous knowledge systems). As such, an approach which aims at providing a firm foundation for understanding NOS ideas within a modern/realist perspective before emphasising the postmodern/relativist aspects of the scientific enterprise is suggested for teacher training and curriculum development.
- Full Text:
- Date Issued: 2010
- Authors: Kurup, Rajasekhar Thanukkothu Sankar Pillai
- Date: 2010
- Subjects: Science -- Methodology -- South Africa , Science -- Study and teaching -- Philosophy , Science -- Study and teaching -- South Africa -- Evaluation , Science -- Study and teaching -- Curricula -- South Africa , Science -- Study and teaching -- South Africa
- Language: English
- Type: Thesis , Doctoral , DEd
- Identifier: vital:9509 , http://hdl.handle.net/10948/1175 , Science -- Methodology -- South Africa , Science -- Study and teaching -- Philosophy , Science -- Study and teaching -- South Africa -- Evaluation , Science -- Study and teaching -- Curricula -- South Africa , Science -- Study and teaching -- South Africa
- Description: An adequate understanding of the nature of science (NOS) has become increasingly important for science teachers in South Africa as comprehensive curricular reforms over the past decade include promoting informed understandings of the ontological and epistemological bases of scientific knowledge and the methods of science. The main objective of this study was to explore the NOS understandings held by a sample of science teachers in the Eastern Cape Province of South Africa. Data were generated via questionnaires (n=136), semi-structured interviews (n=31), and classroom observations (n=8). The teacher interviews, which were informed by the questionnaire data, enabled further interrogation of the teachers’ philosophical positions. Their classroom practices were examined within the framework of these philosophical positions and the requirements of the new curriculum. The effect of implicit and explicit instruction in NOS on these teachers’ beliefs and classroom activities was also considered. A mixed-method approach informed by positivist and interpretivist perspectives was used for the collection and analysis of the data. The data suggests that explicit instruction in NOS resulted in more informed conceptions of science and the scientific enterprise, and that these conceptions were reflected, to a degree, in their classroom behaviours. However, it was noted that the teachers in this study often held philosophically eclectic views of the nature of scientific knowledge and how scientists develop ideas. Similarly, the South African National Curriculum Statement portrays science in contrasting ways, i.e. often within a modern/realist framework, but in other instances within postmodern/relativistic understandings (particularly in terms of indigenous knowledge systems). As such, an approach which aims at providing a firm foundation for understanding NOS ideas within a modern/realist perspective before emphasising the postmodern/relativist aspects of the scientific enterprise is suggested for teacher training and curriculum development.
- Full Text:
- Date Issued: 2010
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