Students Perceptions on the Relevance of High School Mathematics in University Education in South Africa
In this study we investigated the relevance of high
school mathematics in university education. The paper particularly
focused on whether the concepts taught in high school are enough for
engineering courses at diploma level. The study identified particular
concepts that are required in engineering courses whether they were
adequately covered in high school. A questionnaire was used to
investigate whether relevant topics were covered in high school. The
respondents were 228 first year students at the Central University
of Technology in the Faculty of Engineering and Information
Technology. The study indicates that there are some topics such
as integration, complex numbers and matrices that are not done at
high schools and are required in engineering courses at university.
It is further observed that some students did not cover the topics
that are in the current syllabus. Female students enter the university
less prepared than their male counterparts. More than 30% of the
respondents in this study felt that high school mathematics was not
useful for them to be able to do engineering courses.
[1] Mutodi P, Ngirande H, The influence of students perceptions on
mathematics performance. A case of a selected high school in South
Africa, Mediterranean Journal of Social Sciences, 5, pp431-445, (2014).
[2] Loyiso C., Jita, Instructional leadership for the improvement of science
and mathematics in South Africa, Procedia Social and Behavioural
Sciences, 9, pp851854, (2010).
[3] T. E. Mabila, S. E. Malatje, A. Addo-Bediako, M. M. M. Kazeni, S. S.
Mathabatha, The role of foundation programmes in science education:
The UNIFY programme at the University of Limpopo, South Africa,
International Journal of Educational Development, 26, pp 295-304,
(2006).
[4] Mofokenga L. S. P, Mjia A, Teaching mathematics and science using
computers: How prepared are South African teachers to do this?
Procedia Social and Behavioural Sciences, 2, pp16101614, (2010).
[5] Letseka M., The Illusion of Education in South Africa, Procedia-Social
and Behavioral Sciences, 116, pp48644869, (2014).
[6] Bergqvist E, Types of reasoning required in university exams in
mathematics, Journal of Mathematical Behaviour, 26, pp348370, (2007).
[7] Spaull N, Kotze J, Starting behind and staying behind in South
Africa The case of insurmountable learning deficits in mathematics,
International Journal of Educational Development, 41, pp13-24, (2015). [8] Simkins C, Spaull N, in: Mathematics outcomes in South African
schools: What are the facts? What should be done? 2013, The
Centre for Development and, Johannesburg, South Africa, ISBN:
978-1-920653-13-2.
[9] Gebremichael A. T, Students perceptions about the relevance of
mathematics to other subjects In: Proceedings of the Frontiers in
Mathematics and Science Education Research Conference (FISER14),
1-3 May 2014, Famagusta, Cyprus, pp71-78, (2014).
[10] Ismail W. R, Mustafa Z, Muda N, Abidin N. Z, Isa Z, Zakaria A. M,
N. R. M. Suradi, N. J. Z. Mamat, R. M. Nazar, Z. M. Ali, N. M. Rafee,
N. Majid, S. H. Jaaman, M. Darus, R. R. Ahmad, F. A. Shahabuddin,
A. S. Rambely, U. K. S. Din, I. Hashim, H. Ismail, A. G. Ahmad,
M. S. Md. Noorani, S. N. M. Ramli, M. I. Azlan, Students Inclination
towards English Language as Medium of Instruction in the Teaching
of Science and Mathematics, Procedia Social and Behavioural Sciences,
18, pp353360, (2011).
[11] H. Venkat, N. Spaull, What do we know about primary teachers
mathematical content knowledge in South Africa? An analysis of
SACMEQ 2007, International Journal of Educational development,
41(2015) pp121-130, (2015).
[12] T. Bush, R. Joubert, E. Kiggundu,J. Van Rooyen, Managing teaching and
learning in South African Schools, International Journal of Educational
Development, 30, pp162168 (2010).
[13] A. Dickersona, S. McIntosha, C. Valenteb, Do the maths: An analysis
of the gender gap in mathematics in Africa, Economics of Education
Review, 46 pp1-22, (2015).
[14] J. Gainsburg, School mathematics in work and life: What we know and
how we can learn more, Technology in Society, 27, pp1-22,(2005).
[15] K. Akeayapong, K. Lussier, J. Pryor, J. Westbrook, Improving teaching
and learning of basic maths and reading in Africa: Does teacher
preparation count?, International Journal of Educational Development,
33, pp272282, (2013).
[16] M. Makgato, The challenges of teaching and learning technology subject
at schools in South Africa: A case of INSET teachers in Mpumalanga
Province, Procedia-Social and Behavioural Sciences, 116, pp36883692,
(2014).
[17] X. Yang X, Senior secondary students perceptions of mathematics
classroom learning environments in China and their attitudes towards
mathematics, The Mathematics Educator, 15, pp66-80, (2013).
[18] Gao M, Classroom assessments in mathematics: High school students
perceptions, International Journal of Business and Social Science, 3,
pp63-68, (2012).
[19] A. Murugan, L. Rajoo, (2013), Students perceptions of mathematics
classroom environment and mathematics achievement: A study in
Sipitang, Sabah, Malaysia, ICSSR-E-Journal of Social Science
Research, e-ISSN-2289-4977.
[20] B. N. Githua, Secondary school students perceptions of mathematics
formative evaluations and perceptions relationship to their motivation
the subject in Nairobi and rift valley provinces, Kenya, Asian Journal
of Social Sciences and Humanities, ISSN-2186-8492, (2013).
[21] S. Bevins, M. Brodie, E. Brodie, A study of UK secondary
school students perceptions of science and engineering. In: European
Educational Research Association Annual Conference, Dublin, 7-10
September 2005.
[22] L. C. Miller, J. Mittleman, High Schools That Work and college
preparedness: Measuring the models impact on mathematics and
science pipeline progression, Economics and Education Review, 31,
pp1116-1135, (2012).
[1] Mutodi P, Ngirande H, The influence of students perceptions on
mathematics performance. A case of a selected high school in South
Africa, Mediterranean Journal of Social Sciences, 5, pp431-445, (2014).
[2] Loyiso C., Jita, Instructional leadership for the improvement of science
and mathematics in South Africa, Procedia Social and Behavioural
Sciences, 9, pp851854, (2010).
[3] T. E. Mabila, S. E. Malatje, A. Addo-Bediako, M. M. M. Kazeni, S. S.
Mathabatha, The role of foundation programmes in science education:
The UNIFY programme at the University of Limpopo, South Africa,
International Journal of Educational Development, 26, pp 295-304,
(2006).
[4] Mofokenga L. S. P, Mjia A, Teaching mathematics and science using
computers: How prepared are South African teachers to do this?
Procedia Social and Behavioural Sciences, 2, pp16101614, (2010).
[5] Letseka M., The Illusion of Education in South Africa, Procedia-Social
and Behavioral Sciences, 116, pp48644869, (2014).
[6] Bergqvist E, Types of reasoning required in university exams in
mathematics, Journal of Mathematical Behaviour, 26, pp348370, (2007).
[7] Spaull N, Kotze J, Starting behind and staying behind in South
Africa The case of insurmountable learning deficits in mathematics,
International Journal of Educational Development, 41, pp13-24, (2015). [8] Simkins C, Spaull N, in: Mathematics outcomes in South African
schools: What are the facts? What should be done? 2013, The
Centre for Development and, Johannesburg, South Africa, ISBN:
978-1-920653-13-2.
[9] Gebremichael A. T, Students perceptions about the relevance of
mathematics to other subjects In: Proceedings of the Frontiers in
Mathematics and Science Education Research Conference (FISER14),
1-3 May 2014, Famagusta, Cyprus, pp71-78, (2014).
[10] Ismail W. R, Mustafa Z, Muda N, Abidin N. Z, Isa Z, Zakaria A. M,
N. R. M. Suradi, N. J. Z. Mamat, R. M. Nazar, Z. M. Ali, N. M. Rafee,
N. Majid, S. H. Jaaman, M. Darus, R. R. Ahmad, F. A. Shahabuddin,
A. S. Rambely, U. K. S. Din, I. Hashim, H. Ismail, A. G. Ahmad,
M. S. Md. Noorani, S. N. M. Ramli, M. I. Azlan, Students Inclination
towards English Language as Medium of Instruction in the Teaching
of Science and Mathematics, Procedia Social and Behavioural Sciences,
18, pp353360, (2011).
[11] H. Venkat, N. Spaull, What do we know about primary teachers
mathematical content knowledge in South Africa? An analysis of
SACMEQ 2007, International Journal of Educational development,
41(2015) pp121-130, (2015).
[12] T. Bush, R. Joubert, E. Kiggundu,J. Van Rooyen, Managing teaching and
learning in South African Schools, International Journal of Educational
Development, 30, pp162168 (2010).
[13] A. Dickersona, S. McIntosha, C. Valenteb, Do the maths: An analysis
of the gender gap in mathematics in Africa, Economics of Education
Review, 46 pp1-22, (2015).
[14] J. Gainsburg, School mathematics in work and life: What we know and
how we can learn more, Technology in Society, 27, pp1-22,(2005).
[15] K. Akeayapong, K. Lussier, J. Pryor, J. Westbrook, Improving teaching
and learning of basic maths and reading in Africa: Does teacher
preparation count?, International Journal of Educational Development,
33, pp272282, (2013).
[16] M. Makgato, The challenges of teaching and learning technology subject
at schools in South Africa: A case of INSET teachers in Mpumalanga
Province, Procedia-Social and Behavioural Sciences, 116, pp36883692,
(2014).
[17] X. Yang X, Senior secondary students perceptions of mathematics
classroom learning environments in China and their attitudes towards
mathematics, The Mathematics Educator, 15, pp66-80, (2013).
[18] Gao M, Classroom assessments in mathematics: High school students
perceptions, International Journal of Business and Social Science, 3,
pp63-68, (2012).
[19] A. Murugan, L. Rajoo, (2013), Students perceptions of mathematics
classroom environment and mathematics achievement: A study in
Sipitang, Sabah, Malaysia, ICSSR-E-Journal of Social Science
Research, e-ISSN-2289-4977.
[20] B. N. Githua, Secondary school students perceptions of mathematics
formative evaluations and perceptions relationship to their motivation
the subject in Nairobi and rift valley provinces, Kenya, Asian Journal
of Social Sciences and Humanities, ISSN-2186-8492, (2013).
[21] S. Bevins, M. Brodie, E. Brodie, A study of UK secondary
school students perceptions of science and engineering. In: European
Educational Research Association Annual Conference, Dublin, 7-10
September 2005.
[22] L. C. Miller, J. Mittleman, High Schools That Work and college
preparedness: Measuring the models impact on mathematics and
science pipeline progression, Economics and Education Review, 31,
pp1116-1135, (2012).
@article{"International Journal of Business, Human and Social Sciences:76560", author = "Gilbert Makanda and Roelf Sypkens", title = "Students Perceptions on the Relevance of High School Mathematics in University Education in South Africa", abstract = "In this study we investigated the relevance of high
school mathematics in university education. The paper particularly
focused on whether the concepts taught in high school are enough for
engineering courses at diploma level. The study identified particular
concepts that are required in engineering courses whether they were
adequately covered in high school. A questionnaire was used to
investigate whether relevant topics were covered in high school. The
respondents were 228 first year students at the Central University
of Technology in the Faculty of Engineering and Information
Technology. The study indicates that there are some topics such
as integration, complex numbers and matrices that are not done at
high schools and are required in engineering courses at university.
It is further observed that some students did not cover the topics
that are in the current syllabus. Female students enter the university
less prepared than their male counterparts. More than 30% of the
respondents in this study felt that high school mathematics was not
useful for them to be able to do engineering courses.", keywords = "High school mathematics, university education, SPSS
package, students’ perceptions.", volume = "11", number = "11", pages = "2662-7", }
