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The qualitative study reported here sought to explore constitution of
sociomathematical norms in a class where teaching was undertaken to promote
learners’ proficiency in mathematics. A case study research design in which I served
as a teacher-researcher was adopted and focused on a Grade 11 mathematics class
in which all learners were participants. The study was guided by three interrelated
research questions and these questions were: (i) what are the sociomathematical
norms constituted for promoting learners’ proficiency in mathematics? (ii) how are
the sociomathematical norms for promoting learners’ proficiency in mathematics
constituted and enacted in the classroom? (iii) how does the enactment of the
constituted sociomathematical norms promote learners’ proficiency in mathematics?
Three theories were employed during this study, namely: (i) sociocultural
theory as a referent for classroom practice (Vygotsky, 1978). (ii) theoretical
constructs of socio and sociomathematical norms found in the emergent approach
by Cobb and Yackel (1996) as a lens through which data were analysed; and, (iii)
the five interwoven strands of mathematical proficiency (Kilpatrick, Swafford &
Findell, 2001) as standards for learners’ mathematical development. The interplay
of these three theories gave rise to the conceptualisation of a framework which best
accounts for how the study unfolded.
Data were generated through video recording and participant observation.
Data also emerged from classroom discussions when learners, in their pairs or small
groups, worked through learning activities. These interactions, were audio and video
recorded. Meanwhile, observation data were recorded in a researcher journal in
which entries were made after each lesson. Data were analysed following
Polkinghorne’s (1995) narrative analysis of eventful data, followed by an analysis of
narratives as the final step. During the analysis I listened to and watched the audio
and video recordings a number of times, and then selected the excerpts which were
to be used for analysis. This was followed by the transcription of the selected audio
and video data into text. It was found that learners constituted and enacted the sociomathematical norms concerned with acceptable mathematical explanations, mathematical justifications and mathematically different solutions. The constitution and enactment of these sociomathematical norms provided learners with multiple opportunities to engage in classroom discourse which promoted their proficiency in mathematics. Furthermore, it became apparent that teachers’ ability to foster productive
sociomathematical norms is imperative for mathematics learning. As a result, I
proposed a model for fostering the constitution of sociomathematical norms as
teaching and learning unfolds in the natural setting of a classroom. The model
consists of four major constructs, namely, identifying productive sociomathematical
norms, knowing learners’ existing sociomathematical norms, disrupting and
deconstructing learners’ sociomathematical norms and negotiating and authoring
new sociomathematical norms. Enactment of sociomathematical norms, on the other hand, emerged as learners engaged in mathematical classroom discourse and experienced the situation for challenges and justifications. The enactment of these
sociomathematical norms reflected the unification of social norms and mathematical
norms, as learners engaged in mathematical activity. In order to orchestrate the
enactment of sociomathematical norms, teachers should first adopt social learning
theories (sociocultural theory) as a referent for classroom practice. These social
learning theories, if adopted, will ensure that learning is taking place within
environments, which allows for social interactions to take place. |
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