THE CONSTRAINTS OF LEARNING FROM HOME DURING THE PANDEMIC: EXPERIENCES OF RURAL HEI STUDENTS

The outbreak of the Covid-19 pandemic made many institutions of learning at various levels across the globe to shift from onsite to online teaching and learning activities. This was regardless of the level of preparation made available for the transition process. Meanwhile, students from rural institutions of learning are considered to have peculiar challenges with such shift. Thus, this study investigated the constraints of students from a selected South African Rural Higher Education Institution (SARHEI). Quantitative method was employed in this study. Hence, data was collected from 274 undergraduates from the selected university. The data was deduced sequel to a conducted global study which comprised 30,383 students from 62 countries across six continents of the world, of which the selected university was a part. Data was analysed using Microsoft Excel 2016. The finding of the study showed that students tend to experience certain forms of constraints due to the available support systems from the institution of higher learning, as well infrastructure and skills for studying at home. Meanwhile, further findings showed that their level of computer skills did not constitute constraints for the students. The study recommends that appropriate support systems should be made available by rural institutions of higher learning, and students are furnished with necessary infrastructure and skills for learning from home

Impacts of Covid-19 Pandemic on Selected Rural University Students’ Emotional Lives: A South African Perspective from a Global Study

The emotional lives of students are paramount in that it influences their learning abilities as well as their academic performance. The COVID-19 pandemic seems to have affected the emotional lives of students, especially those in rural areas. This study explored the impact of COVID-19 on the emotional lives of students in a selected rural university in South Africa. A quantitative research approach was adopted whereby questionnaires were used to collect data from 274 undergraduate students who were selected through simple random sampling technique. Data was analysed using descriptive statistics and themes. The study findings indicate that many of the students are no longer as joyful and hopeful as they used to be because they are not in touch with their fellow students nor with their lecturers. Students are frustrated, with rising degrees of anger and anxiety. The study recommends, amongst other things, the need for the services of counsellors to be engaged at the rural university so that students can receive counselling regarding these problems

Fostering students’ mathematical reasoning through a cooperative learning model

This study sought to ascertain whether the student teams-achievement division (STAD) model of cooperative learning is effective in fostering students’ mathematical reasoning. Using the cluster random sampling technique, 301 eleventh-grade students between the ages of 14 and 20 were chosen from six public secondary schools within one district in Zambia. Students were given tasks on quadratic equations and functions both before and after the intervention. A robust analysis of the covariance test revealed that students’ mathematical reasoning abilities were significantly higher for the group that received instruction using the STAD approach than for the group that was taught using conventional methods of instruction at each of the five design points where regression slopes were comparable. A Chi-square test of independence further revealed that the STAD learning approach was associated with a greater proportion of students who demonstrated an appropriate degree of mathematical reasoning ability for each of the three indicators (conjecturing, justifying, and mathematizing). These results demonstrate that enhancing students’ mathematical reasoning abilities through the integration of classroom activities that engage students intellectually, physically, and socially is beneficial

The evaluation of an instructional framework using the Van Hiele levels for learning and teaching geometry: a study in five rural senior secondary schools

The Constitution (1996) of the Republic of South Africa forms the basis for social transformation in our new society. The Constitution (Act 108 of 1996) and the amendments that followed provided a basis for curriculum transformation and development in South Africa. The Department of Education introduced the present curriculum known as the National Curriculum Statement, which is modern and internationally benchmarked, in grade 10 in 2006. It required the learners to do seven subjects in grades 10 to 12 of which mathematics or mathematical literacy was prescribed as compulsory subjects. To attain social transformation, the South African Government attached a great deal of importance to the learning and teaching of mathematics and sciences in the South African schools. This study was undertaken in an effort to improve the understanding of geometry and, consequently, the performance and achievement of senior secondary school learners in geometry. The study was inspired by the van Hiele theory. The study made use of the different levels of the van Hiele theory for the development of an instructional framework for geometry in senior secondary schools. The research was conducted in a previously disadvantaged area in South Africa. Given the setting of this study and the wider application of it, the use of ‘hands-on’ and practical approach to use manipulatives and worksheets to improve the geometric understanding was tried and tested in this study. The assumption was that such experiences would make the learning of geometry more relevant and enjoyable for learners from limited financial and underprivileged circumstances. A quasi-experimental design was chosen. A total of 359 learners from five purposively selected schools in Mthatha district in the Eastern Cape Province participated in this study. Qualitative data through interviews were gathered. The data were analysed using IBM SPSS Version 19 and Microsoft Excel. Findings indicated that there was a notable improvement in the performance of learners who were taught by the application of the van Hiele theory. The results revealed that most of the learners were not ready for the application of deductive principles of geometry in terms of formal proof in senior secondary school geometry. Based on the results, some recommendations are made to enhance the teaching and learning of geometry in senior secondary schools

Foundational mathematical knowledge of prospective teachers: Evidence from a professional development training

This study examined the effect of a professional development training programme on 20 second-year preservice mathematics teachers’ knowledge in foundational mathematical concepts at a rural university in South Africa. The training programme aimed to enhance preservice teachers’ mathematical knowledge for teaching. An embedded mixed-methods case study design was employed. Baseline and endline assessments were administered before and after the training. A participant feedback survey was also administered after the training. Results showed that the training significantly improved the preservice teachers’ understanding and confidence in the selected concepts, despite their low baseline scores. The participants also expressed satisfaction with the knowledge they gained and appreciated the integration of theory and practice in the training. These findings suggest the need for teacher training institutions to ensure that preservice teachers are well versed in both university-level and school-level mathematics. They also support the need for collaboration with other stakeholders to provide preservice teachers with relevant and engaging professional development opportunities that can enhance their mathematical knowledge for teaching. Contribution: Findings of this study point to a renewed emphasis on the creation of greater collaborations between institutions of higher learning and other key stakeholders to promote the development of prospective teachers’ knowledge of what they will be expected to teach

Students’ understanding of geometry terminology through the lens of Van Hiele theory

After a long six-year lapse, the Curriculum and Assessment Policy Statement introduced in 2012 included geometry as part of the South African Grade 12 Mathematics Paper 2. The first cohort of matriculation students wrote Paper 2 in 2014. This article reports on the understanding of geometry terminology with which a group of 154 first-year mathematics education students entered a rural South African university in 2015; 126 volunteered to be part of the study. Responses to a 60-item multiple-choice questionnaire (30 verbally presented and 30 visually presented items) in geometry terminology provided the data for the study. A concept’s verbal description should be associated with its correct visual image. Van Hiele theory provided the lens for the study. An overall percentage mean score of 64% obtained in the test indicated that the majority of the students had a fairly good knowledge of basic geometry terminology. The students obtained a percentage mean score of 68% on visually presented items against that of 59% on verbally presented items implying a lower level thinking as per Van Hiele theory. The findings of this study imply a combination approach using visual and verbal representations to enhance conceptual understanding in geometry. This has to be complemented and supplemented through scaffolding to fill student teachers’ content gap

Creation of Innovative Teaching Spaces with Gamma Tutor: A Techno-Blended Model for Rural Mathematics Teaching

Innovative techno-blended teaching methodologies are needed for 21st-century classrooms. This paper reports on the introduction of a techno-blended device for mathematics teaching in South African senior secondary classrooms. The research sample included 12 third-year mathematics education student teachers from a rural university. A qualitative case study design was employed. Participants were purposively selected. Data collection methods included non-participatory observation and in-depth individual interviews. The TPACK model and the Mathematical Knowledge for Teaching Framework guided the analysis of the data. The study found that the mathematics student teachers successfully implemented GammaTutor in their classrooms, thus demonstrating their proficiency and aptitude in utilising technology in the learning environment. The GammaTutor device also aided in teaching and learning mathematics by simplifying mathematical ideas for learners. Furthermore, it enabled the development of learner discourse as a crucial component for developing learners' problem-solving skills. Since the mathematics student teachers engaged the learners with a variety of mathematical exercises using the GammaTutor technology, the integration of GammaTutor in the mathematics classroom exhibited learner-centred provisioning. The study proposes a teaching model for creating innovative teaching spaces in rural schools in South Africa