Abstract
Although trigonometry is an important section in secondary school mathematics curricula, many teachers find it challenging to teach as a result of insufficient pedagogical content knowledge (PCK). Therefore, the aim of this article was to report on how PCK on trigonometry manifests itself in teachers' practice. This exploratory case study was underpinned by the mathematics knowledge for teaching (MKT) model of Hill et al. (2008). Twelve teachers were purposefully selected from six township schools. Qualitative data were collected through semi-structured one-on-one interviews, lesson plans, assessment tasks, and lesson observations; and analyzed using content analysis. The findings show that four elements of PCK on trigonometry manifest themselves in teachers’ practice, namely knowledge of subject matter, knowledge of teaching strategies, knowledge of students’ conceptions and knowledge of curriculum, but varied in levels of sufficiency. Awareness of these variances forms a useful basis for planning developmental opportunities that could address shortcomings in PCK on trigonometry in teachers’ practice. This study adds to few studies in PCK in mathematics by providing empirical evidence on how PCK on trigonometry manifests itself in teachers’ practice.
Highlights
Several researchers (Yang & Sianturi, 2017; Fiallo & Gutiérrez, 2017) have postulated that trigonometry is an important section in secondary school mathematics curricula because it links algebraic, geometric, and graphical reasoning; and is a precursor to calculus
The data collected were qualitative in order to draw conclusions, some qualitative data were quantified (Lee et al, 2019) to strengthen the categorization of the elements of pedagogical content knowledge (PCK) pertaining to the level of alignment with the mathematical knowledge for teaching (MKT) model
Trigonometry offers students the opportunity to develop reasoning skills, many teachers find it difficult to teach due to their levels of PCK
Summary
Several researchers (Yang & Sianturi, 2017; Fiallo & Gutiérrez, 2017) have postulated that trigonometry is an important section in secondary school mathematics curricula because it links algebraic, geometric, and graphical reasoning; and is a precursor to calculus. In South Africa, the context of this study, trigonometry is offered to students in the Further Education and Training (FET) phase and covers topics such as trigonometric ratios, reduction formulae, trigonometric identities, sine and cosine rules, trigonometric equations, double and compound angles, and trigonometric graphs (Department of Basic Education [DBE], 2011). Trigonometry comprises a large section of the grade 12 mathematics syllabus as it counts approximately 40 marks in the second final examination paper of this grade (DBE, 2011). Erica Dorethea Spangenberg, PhD, B Ring 411, University of Johannesburg, Auckland Park Campus, P O Box 524, Auckland Park, South Africa.
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